View allAll Photos Tagged alarm_systems
Rover 216 SE Coupe (1996-98) Engine 1598cc S4 Rover K series
Registration Number J 813 UOP (Birmingham)
ROVER SET
www.flickr.com/photos/45676495@N05/sets/72157623690660271...
The Rover 200 Coupé was a two-door coupé, based on the Rover 200 Mark II, with most of the body panels and the bumpers unique in the range. Launched at the 1992 Paris Motorshow, under its project name of Tomcat.
The Rover 200 Coupé was equipped with a specially shaped split glass roof system with a central T-Bar. The twin panels could be tilted or detached independently, and the bar itself could also be removed and stored in the boot in a special protective cover. The glass was an advanced, semi-reflective material, coated with titanium. The lines of the 200 Coupé resulted from a completely new monoside and front and rear roof panels, new front and rear bumpers and a deep front spoiler extension with large intake grille.The interior was finished in burr walnut veneer and quality fabrics, in the Rover traditions of elegance and refinement. Optional leather trim was also available.
A specially developed version of the established 'Torsen' torque-sensing traction control system - previously only applied to four-wheel-drive and some rear-wheel-drive vehicles was developed to optimise handling Standard on the 220 Turbo and optional on the normally aspirated 220 model.
At launch there were three models, the 216 Coupe powered by a 1.6 litre Honda D series engine of 109bhp, the 220 Coupe and 220 Turbo Coupe both with Rover 2.0 T-Series engines;the naturally aspirated car producing 134bhp and the Turbo 197bhp.
In 1994 changes were introduced to the 200 Coupé range, most obviously with a chrome grille being added to bring in line with the rest of the 200 series. Cost saving changes were also seen, such as a reduction in the amount of leather used, ignition barrel light removed and dash light dimming deleted. The alarm system received several changes to keep up with current security requirements.
In 1996 the range was revised Two, all new, models were introduced to replace the previous models. The Coupé 1.6 was now fiited with Rover Group's own K-Series 16 valve double overhead camshaft power unit instead of the previous Honda unit. The 2.0 and Turbo models were replaced by the 1.8 VVC Coupe. The interiors were revamped
This is a post facelift 216SE Coupe featurimg a body coloured rear spoiler and front fog lamps over the standard 216 Coupé. The K-Series 1.6 litre engine produced the same 109bhp as the previous Honda unit, Automatic transmission was available for the 216 and 216SE models only. The 1.6 was fitted with steel wheels with plastic trims or could be specified with a cost option 6-spoke 'turbo' alloy wheels. The SE came with an all new 5-spoke alloy wheels.
Many Thanks for a fan'dabi'dozi 30,356,100 views
Shot 167.11.2014 at The National Exhibition Centre, Classic and Sportscar Show Ref 103-227
Wolfsburg
Volkswagen Arena, also known as the VfL Wolfsburg Arena due to UEFA sponsorship regulations was opened in 2002 and named after the automotive group Volkswagen AG. The Volkswagen Arena has a capacity of 30,000: 22,000 seats and 8,000 standing places. It is located in the Allerpark and is the home stadium of the football team VfL Wolfsburg.
The most striking feature of the stadium is its sophisticated roof, which was designed as a truss-supported membrane structure.32 radial trusses, each 40 metres in length, make up the support system for the fire-retardant PVC membrane, which is 15,000 square metres large. The membrane is translucent, aims to improve the atmosphere in the stadium for the spectators and supports the natural growth of the grass on the pitch.
Seating
The Volkswagen Arena is a two-tier stadium with a surrounding promenade. The lower level has an inclination of approximately 25 degrees, the upper level 40 degrees.The ground area of the entire plot is around 115,000 square metres and the floor space of the stadium is around 28,000 square metres. The stadium's capacity of 30,000 consists of 22,000 seats and 8,000 standing places. The standing places can be converted into 4,000 seats.[3] The guest block of the Volkswagen Arena contains 1,886 seats and 900 standing places with separate kiosks and toilet areas. All seats in the Volkswagen Arena are completely covered.
A total of 31 boxes with 332 seats are available at the stadium, which also offers 198 so-called Executive Seats, which are integrated into the VIP block, and 1,434 Business Seats with direct access to restaurants. The Volkswagen Arena is home to a 102-square-metre-large Skylounge above both grandstands with 35 seats.This offers a view of the entire stadium and is also used as a venue for other events and even weddings. The control room, which houses systems such as the fire alarm system and police equipment, is located above the Skylounge.
The special features of the Volkswagen Arena include seats and spaces for people with disabilities and their companions. Spectators with impaired vision are provided with a total of 10 seats with headphones so that they can hear the commentator during the match. Furthermore, 80 spaces are available for spectators in wheelchairs. Families with children can book seats in a separate area at the Volkswagen Arena. VfL Wolfsburg also offers childcare during all home games at the stadium. A separate area is provided for younger and shorter spectators so that they can get a better view of the match.
VfL Wolfsburg also became the first Bundesliga club to play in an LED-lit stadium when the Volkswagen Arena was equipped with a new LED floodlight system at the start of 2017. The old floodlighting of the Volkswagen Arena consists of more than 170 elements with lamps, each weighing about 35 kilos. They were all mounted under the roof and together produce about 1,500 lux. The 84 speakers in the stadium, which weigh 120 kilos each and are likewise mounted under the roof, produce a total of 600 watts. There are also two video walls covering an area of 53 square metres in the stadium.The pitch is covered in hybrid grass,which is natural grass that is reinforced with synthetic fibres, thus improving its weatherability. The Volkswagen Arena was the first Bundesliga stadium to introduce such a system.] From the outset, the pitch has been heated so that matches can be played regardless of ice and snow.
The Volkswagen Arena was also the first Bundesliga stadium to debut 5G technology on match day 5 of the 2019/2020 campaign against Hoffenheim.
At Tilbury's 'Clinker Beach' Kev the Sleeper awakes, alerted by impending doom. Dormant for millenia, Kev's super-sensitive danger detectors have triggered alarm systems that will tell super-intelligent beings in Sector V15MkIII of the coming of Brexit, the stupidest thing any metropolitan elite has ever visited upon ordinary people.
[DSC_8391e]
The Postcard
A postally unused carte postale published by Neurdein et Cie of Paris.
Medieval craftsmen must have realised when they were carefully carving the chimères that few people would ever get close enough to them to appreciate their skill and artistry.
The Notre-Dame Fire
On the 15th. April 2019, fire broke out in the attic beneath the cathedral's roof at 18:18. At 18:20 the fire alarm sounded and guards evacuated the cathedral. A guard was sent to investigate, but to the wrong location – the attic of the adjoining sacristy – where he found no fire. About fifteen minutes later the error was discovered, but by the time guards had climbed the three hundred steps to the cathedral attic the fire was well advanced.
The alarm system was not designed to automatically notify the fire brigade, which was summoned at 18:51 after the guards had returned. Firefighters arrived within ten minutes.
Fighting the Notre-Dame Fire
More than 400 firefighters were engaged. A hundred government employees along with police and municipal workers moved precious artefacts to safety via a human chain.
The fire was primarily fought from inside the structure, which was more dangerous for personnel, but reduced potential damage to the cathedral - applying water from outside risked deflecting flames and hot gases (at temperatures up to 800 °C) inwards. Deluge guns were used at lower-than-usual pressures to minimise damage to the cathedral and its contents. Water was supplied by pump-boat from the Seine.
Aerial firefighting was not used because water dropped from heights could have caused structural damage, and heated stone can crack if suddenly cooled. Helicopters were also not used because of dangerous updrafts, but drones were used for visual and thermal imaging, and robots for visual imaging and directing water streams. Molten lead falling from the roof posed a special hazard for firefighters.
By 18:52, smoke was visible from the outside; flames appeared within the next ten minutes. The spire of the cathedral collapsed at 19:50, creating a draft that slammed all the doors and sent a fireball through the attic. Firefighters then retreated from within the attic.
Shortly before the spire fell, the fire had spread to the wooden framework inside the north tower, which supported eight very large bells. Had the bells fallen, it was thought that the damage done as they fell could have collapsed the towers, and with them the entire cathedral.
At 20:30, firefighters abandoned attempts to extinguish the roof and concentrated on saving the towers, fighting from within and between the towers. By 21:45 the fire was under control.
Adjacent apartment buildings were evacuated due to concern about possible collapse, but on the 19th. April the fire brigade ruled out that risk. One firefighter and two police officers were injured.
Damage to Notre-Dame
Most of the wood/metal roof and the spire of the cathedral was destroyed, with about one third of the roof remaining. The remnants of the roof and spire fell atop the stone vault underneath, which forms the ceiling of the cathedral's interior. Some sections of this vaulting collapsed in turn, allowing debris from the burning roof to fall to the marble floor below, but most sections remained intact due to the use of rib vaulting, greatly reducing damage to the cathedral's interior and objects within.
The cathedral contained a large number of artworks, religious relics, and other irreplaceable treasures, including a crown of thorns said to be the one Jesus wore at his crucifixion. Other items were a purported piece of the cross on which Jesus was crucified, the Tunic of St. Louis, a pipe organ by Aristide Cavaillé-Coll, and the 14th.-century Virgin of Paris statue.
Some artwork had been removed in preparation for the renovations, and most of the cathedral's sacred relics were held in the adjoining sacristy, which the fire did not reach; all the cathedral's relics survived. Many valuables that were not removed also survived.
Lead joints in some of the 19th.-century stained-glass windows melted, but the three major rose windows, dating back to the 13th. century, were undamaged. Several pews were destroyed, and the vaulted arches were blackened by smoke, though the cathedral's main cross and altar survived, along with the statues surrounding it.
Some paintings, apparently only smoke-damaged, are expected to be transported to the Louvre for restoration. The rooster-shaped reliquary atop the spire was found damaged but intact among the debris. The three pipe organs were not significantly damaged. The largest of the cathedral's bells, the bourdon, was also not damaged. The liturgical treasury of the cathedral and the "Grands Mays" paintings were moved to safety.
Environmental Damage
Airparif said that winds rapidly dispersed the smoke, carrying it away aloft along the Seine corridor. It did not find elevated levels of particulate air pollution at monitoring stations nearby. The Paris police stated that there was no danger from breathing the air around the fire.
The burned-down roof had been covered with over 400 metric tons of lead. Settling dust substantially raised surface lead levels in some places nearby, notably the cordoned-off area and places left open during the fire. Wet cleaning for surfaces and blood tests for children and pregnant women were recommended in the immediate area.
People working on the cathedral after the fire did not initially take the lead precautions required for their own protection; materials leaving the site were decontaminated, but some clothing was not, and some precautions were not correctly followed; as a result, the worksite failed some inspections and was temporarily shut down.
There was also more widespread contamination; testing, clean-up, and public health advisories were delayed for months, and the neighbourhood was not decontaminated for four months, prompting widespread criticism.
Reactions to the Notre-Dame Fire
President of France Emmanuel Macron, postponing a speech to address the Yellow Vests Movement planned for that evening, went to Notre-Dame and gave a brief address there. Numerous world religious and government leaders extended condolences.
Through the night of the fire and into the next day, people gathered along the Seine to hold vigils, sing and pray.
White tarpaulins over metal beams were quickly rigged to protect the interior from the elements. Nettings protect the de-stabilised exterior.
The following Sunday at Saint-Eustache Church, the Archbishop of Paris, Michel Aupetit, honoured the firefighters with the presentation of a book of scriptures saved from the fire.
Investigation Into The Notre-Dame Fire
On the 16th. April, the Paris prosecutor said that there was no evidence of a deliberate act.
The fire has been compared to the similar 1992 Windsor Castle fire and the Uppark fire, among others, and has raised old questions about the safety of similar structures and the techniques used to restore them. Renovation works increase the risk of fire, and a police source reported that they are looking into whether such work had caused this incident.
The renovations presented a fire risk from sparks, short-circuits, and heat from welding (roof repairs involved cutting, and welding lead sheets resting on timber). Normally, no electrical installations were allowed in the roof space due to the extreme fire risk.
The roof framing was of very dry timber, often powdery with age. After the fire, the architect responsible for fire safety at the cathedral acknowledged that the rate at which fire might spread had been underestimated, and experts said it was well known that a fire in the roof would be almost impossible to control.
Of the firms working on the restoration, a Europe Echafaudage team was the only one working there on the day of the fire; the company said no soldering or welding was underway before the fire. The scaffolding was receiving electrical supply for temporary elevators and lighting.
The roofers, Le Bras Frères, said it had followed procedure, and that none of its personnel were on site when the fire broke out. Time-lapse images taken by a camera installed by them showed smoke first rising from the base of the spire.
On the 25th. April, the structure was considered safe enough for investigators to enter. They unofficially stated that they were considering theories involving malfunction of electric bell-ringing apparatus, and cigarette ends discovered on the renovation scaffolding.
Le Bras Frères confirmed its workers had smoked cigarettes, contrary to regulations, but denied that a cigarette butt could have started the fire. The Paris prosecutor's office announced on the 26th. June that no evidence had been found to suggest a criminal motive.
The security employee monitoring the alarm system was new on the job, and was on a second eight-hour shift that day because his relief had not arrived. Additionally, the fire security system used confusing terminology in its referencing parts of the cathedral, which contributed to the initial confusion as to the location of the fire.
As of September, five months after the fire, investigators thought the cause of the fire was more likely an electrical fault than a cigarette. Determining the exact place in which the fire started was expected to take a great deal more time and work. By the 15th. April 2020, investigators stated:
"We believe the fire to have been
started by either a cigarette or a
short circuit in the electrical system".
Reconstruction of Notre-Dame Cathedral
On the night of the fire Macron said that the cathedral, which is owned by the state, would be rebuilt, and launched an international fundraising campaign. France's cathedrals have been owned by the state since 1905, and are not privately insured.
The heritage conservation organisation Fondation du Patrimoine estimated the damage in the hundreds of millions of euros, but losses from the fire are not expected to substantially impact the private insurance industry.
European art insurers stated that the cost would be similar to ongoing renovations at the Palace of Westminster in London, which currently is estimated to be around €7 billion.
This cost does not include damage to any of the artwork or artefacts within the cathedral. Any pieces on loan from other museums would have been insured, but the works owned by the cathedral would not have been insurable.
While Macron hoped the cathedral could be restored in time for the 2024 Paris Summer Olympics, architects expect the work could take from twenty to forty years, as any new structure would need to balance restoring the look of the original building, using wood and stone sourced from the same regions used in the original construction, with the structural reinforcement required for preventing a similar disaster in the future.
There is discussion of whether to reconstruct the cathedral in modified form. Rebuilding the roof with titanium sheets and steel trusses has been suggested; other options include rebuilding in the original lead and wood, or rebuilding with modern materials not visible from the outside (like the reinforced concrete trusses at Reims Cathedral).
Another option would be to use a combination of restored old elements and newly designed ones. Chartres Cathedral was rebuilt with wrought iron trusses and copper sheeting after an 1836 fire.
French prime minister Édouard Philippe announced an architectural design competition for a new spire that would be:
"Adapted to the techniques
and the challenges of our era."
The spire replacement project has gathered a variety of designs and some controversy, particularly its legal exemption from environmental and heritage rules. After the design competition was announced, the French senate amended the government's restoration bill to require the roof to be restored to how it was before the fire.
On the 16th. July, 95 days after the fire, the law that will govern the restoration of the cathedral was finally approved by the French parliament. It recognises its UNESCO World Heritage Site status and the need to respect existing international charters and practices, to:
"Preserve the historic, artistic and architectural
history of the monument, and to limit any
derogations to the existing heritage, planning,
environmental and construction codes to a
minimum".
On the 15th. April 2020, Germany offered to restore some of the large clerestory windows located far above eye level with three expert tradesmen who specialize in rebuilding cathedrals. Monika Grütters, Germany's Commissioner for Culture was quoted as saying that her country would shoulder the costs.
As of the 30th. November all of the tangled scaffolding was removed from the spire area, and was therefore no longer a threat to the building.
The world will now have to wait for Notre-Dame de Paris to be restored to its former magnificence.
TEIGN C Damen Stan 1405
IMO: - N/A
MMSI: 235082804
Call Sign: MWBM9
AIS Vessel Type: Dredger
GENERAL
DAMEN YARD NUMBER: 503705
Avelingen-West 20
4202 MS Gorinchem
The Netherlands
Phone: +31 (0)183 63 99 11
info@damen.com
DELIVERY DATE August 2001
BASIC FUNCTIONS Towing, mooring, pushing and dredging operations
FLAG United Kingdom [GB]
OWNED Teignmouth Harbour Commission
CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch
DIMENSIONS
LENGTH 14.40 m
BEAM 4.73 m
DEPTH AT SIDES 205 m
DRAUGHT AFT 171 m
DISPLACEMENT 48 ton
TANK CAPACITIES
Fuel oil 6.9 m³
PERFORMANCES (TRIALS)
BOLLARD PULL AHEAD 8.0 ton
SPEED 9.8 knots
PROPULSION SYSTEM
MAIN ENGINE 2x Caterpillar 3406C TA/A
TOTAL POWER 477 bmW (640i hp) at 1800 rpm
GEARBOX 2x Twin Disc MG 5091/3.82:1
PROPELLERS Bronze fixed pitch propeller
KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings
ENGINE CONTROL Kobelt
STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator
AUXILIARY EQUIPMENT
BILGE PUMP Sterling SIH 20, 32 m/hr
BATTERY SETS 2x 24V, 200 Ah + change over facility
COOLING SYSTEM Closed cooling system
ALARM SYSTEM Engines, gearboxes and bilge alarms
FRESH WATER PRESSURE SET Speck 24V
DECK LAY-OUT
ANCHORS 2x 48 kg Pool (HHP)
CHAIN 70 m, Ø 13mm, shortlink U2
ANCHOR WINCH Hand-operated
TOWING HOOK Mampaey, 15.3 ton SWL
COUPLING WINCH
PUSHBOW Cylindrical nubber fender Ø 380 mm
ACCOMMODATION
The wheelhouse ceiling and sides are insulated with mineral wool and
panelled. The wheelhouse floor is covered with rubber/synthetic floor
covering, make Bolidt, color blue The wheelhouse has one
helmsman seat, a bench and table with chair Below deck two berths, a
kitchen unit and a toilet space are arranged.
NAUTICAL AND COMMUNICATION EQUIPMENT
SEARCHLIGHT Den Haan 170 W 24 V
VHF RADIO Sailor RT 2048 25 W
NAVIGATION Navigation lights incl towing and pilot lights
Teignmouth Harbour Commission
The Harbour Commission is a Trust Port created by Statute.
The principal Order is the Teignmouth Harbour Order 1924
as amended by the Teignmouth Harbour Revision Order 2003
The Postcard
A postally unused carte postale published by Neurdein et Cie of Paris.
The Notre-Dame Fire
On the 15th. April 2019, fire broke out in the attic beneath the cathedral's roof at 18:18. At 18:20 the fire alarm sounded and guards evacuated the cathedral. A guard was sent to investigate, but to the wrong location – the attic of the adjoining sacristy – where he found no fire. About fifteen minutes later the error was discovered, but by the time guards had climbed the three hundred steps to the cathedral attic the fire was well advanced.
The alarm system was not designed to automatically notify the fire brigade, which was summoned at 18:51 after the guards had returned. Firefighters arrived within ten minutes.
Fighting the Notre-Dame Fire
More than 400 firefighters were engaged. A hundred government employees along with police and municipal workers moved precious artefacts to safety via a human chain.
The fire was primarily fought from inside the structure, which was more dangerous for personnel, but reduced potential damage to the cathedral - applying water from outside risked deflecting flames and hot gases (at temperatures up to 800 °C) inwards. Deluge guns were used at lower-than-usual pressures to minimise damage to the cathedral and its contents. Water was supplied by pump-boat from the Seine.
Aerial firefighting was not used because water dropped from heights could have caused structural damage, and heated stone can crack if suddenly cooled. Helicopters were also not used because of dangerous updrafts, but drones were used for visual and thermal imaging, and robots for visual imaging and directing water streams. Molten lead falling from the roof posed a special hazard for firefighters.
By 18:52, smoke was visible from the outside; flames appeared within the next ten minutes. The spire of the cathedral collapsed at 19:50, creating a draft that slammed all the doors and sent a fireball through the attic. Firefighters then retreated from within the attic.
Shortly before the spire fell, the fire had spread to the wooden framework inside the north tower, which supported eight very large bells. Had the bells fallen, it was thought that the damage done as they fell could have collapsed the towers, and with them the entire cathedral.
At 20:30, firefighters abandoned attempts to extinguish the roof and concentrated on saving the towers, fighting from within and between the towers. By 21:45 the fire was under control.
Adjacent apartment buildings were evacuated due to concern about possible collapse, but on the 19th. April the fire brigade ruled out that risk. One firefighter and two police officers were injured.
Damage to Notre-Dame
Most of the wood/metal roof and the spire of the cathedral was destroyed, with about one third of the roof remaining. The remnants of the roof and spire fell atop the stone vault underneath, which forms the ceiling of the cathedral's interior. Some sections of this vaulting collapsed in turn, allowing debris from the burning roof to fall to the marble floor below, but most sections remained intact due to the use of rib vaulting, greatly reducing damage to the cathedral's interior and objects within.
The cathedral contained a large number of artworks, religious relics, and other irreplaceable treasures, including a crown of thorns said to be the one Jesus wore at his crucifixion. Other items were a purported piece of the cross on which Jesus was crucified, the Tunic of St. Louis, a pipe organ by Aristide Cavaillé-Coll, and the 14th.-century Virgin of Paris statue.
Some artwork had been removed in preparation for the renovations, and most of the cathedral's sacred relics were held in the adjoining sacristy, which the fire did not reach; all the cathedral's relics survived. Many valuables that were not removed also survived.
Lead joints in some of the 19th.-century stained-glass windows melted, but the three major rose windows, dating back to the 13th. century, were undamaged. Several pews were destroyed, and the vaulted arches were blackened by smoke, though the cathedral's main cross and altar survived, along with the statues surrounding it.
Some paintings, apparently only smoke-damaged, are expected to be transported to the Louvre for restoration. The rooster-shaped reliquary atop the spire was found damaged but intact among the debris. The three pipe organs were not significantly damaged. The largest of the cathedral's bells, the bourdon, was also not damaged. The liturgical treasury of the cathedral and the "Grands Mays" paintings were moved to safety.
Environmental Damage
Airparif said that winds rapidly dispersed the smoke, carrying it away aloft along the Seine corridor. It did not find elevated levels of particulate air pollution at monitoring stations nearby. The Paris police stated that there was no danger from breathing the air around the fire.
The burned-down roof had been covered with over 400 metric tons of lead. Settling dust substantially raised surface lead levels in some places nearby, notably the cordoned-off area and places left open during the fire. Wet cleaning for surfaces and blood tests for children and pregnant women were recommended in the immediate area.
People working on the cathedral after the fire did not initially take the lead precautions required for their own protection; materials leaving the site were decontaminated, but some clothing was not, and some precautions were not correctly followed; as a result, the worksite failed some inspections and was temporarily shut down.
There was also more widespread contamination; testing, clean-up, and public health advisories were delayed for months, and the neighbourhood was not decontaminated for four months, prompting widespread criticism.
Reactions to the Notre-Dame Fire
President of France Emmanuel Macron, postponing a speech to address the Yellow Vests Movement planned for that evening, went to Notre-Dame and gave a brief address there. Numerous world religious and government leaders extended condolences.
Through the night of the fire and into the next day, people gathered along the Seine to hold vigils, sing and pray.
White tarpaulins over metal beams were quickly rigged to protect the interior from the elements. Nettings protect the de-stabilised exterior.
The following Sunday at Saint-Eustache Church, the Archbishop of Paris, Michel Aupetit, honoured the firefighters with the presentation of a book of scriptures saved from the fire.
Investigation Into The Notre-Dame Fire
On the 16th. April, the Paris prosecutor said that there was no evidence of a deliberate act.
The fire has been compared to the similar 1992 Windsor Castle fire and the Uppark fire, among others, and has raised old questions about the safety of similar structures and the techniques used to restore them. Renovation works increase the risk of fire, and a police source reported that they are looking into whether such work had caused this incident.
The renovations presented a fire risk from sparks, short-circuits, and heat from welding (roof repairs involved cutting, and welding lead sheets resting on timber). Normally, no electrical installations were allowed in the roof space due to the extreme fire risk.
The roof framing was of very dry timber, often powdery with age. After the fire, the architect responsible for fire safety at the cathedral acknowledged that the rate at which fire might spread had been underestimated, and experts said it was well known that a fire in the roof would be almost impossible to control.
Of the firms working on the restoration, a Europe Echafaudage team was the only one working there on the day of the fire; the company said no soldering or welding was underway before the fire. The scaffolding was receiving electrical supply for temporary elevators and lighting.
The roofers, Le Bras Frères, said it had followed procedure, and that none of its personnel were on site when the fire broke out. Time-lapse images taken by a camera installed by them showed smoke first rising from the base of the spire.
On the 25th. April, the structure was considered safe enough for investigators to enter. They unofficially stated that they were considering theories involving malfunction of electric bell-ringing apparatus, and cigarette ends discovered on the renovation scaffolding.
Le Bras Frères confirmed its workers had smoked cigarettes, contrary to regulations, but denied that a cigarette butt could have started the fire. The Paris prosecutor's office announced on the 26th. June that no evidence had been found to suggest a criminal motive.
The security employee monitoring the alarm system was new on the job, and was on a second eight-hour shift that day because his relief had not arrived. Additionally, the fire security system used confusing terminology in its referencing parts of the cathedral, which contributed to the initial confusion as to the location of the fire.
As of September, five months after the fire, investigators thought the cause of the fire was more likely an electrical fault than a cigarette. Determining the exact place in which the fire started was expected to take a great deal more time and work. By the 15th. April 2020, investigators stated:
"We believe the fire to have been
started by either a cigarette or a
short circuit in the electrical system".
Reconstruction of Notre-Dame Cathedral
On the night of the fire Macron said that the cathedral, which is owned by the state, would be rebuilt, and launched an international fundraising campaign. France's cathedrals have been owned by the state since 1905, and are not privately insured.
The heritage conservation organisation Fondation du Patrimoine estimated the damage in the hundreds of millions of euros, but losses from the fire are not expected to substantially impact the private insurance industry.
European art insurers stated that the cost would be similar to ongoing renovations at the Palace of Westminster in London, which currently is estimated to be around €7 billion.
This cost does not include damage to any of the artwork or artefacts within the cathedral. Any pieces on loan from other museums would have been insured, but the works owned by the cathedral would not have been insurable.
While Macron hoped the cathedral could be restored in time for the 2024 Paris Summer Olympics, architects expect the work could take from twenty to forty years, as any new structure would need to balance restoring the look of the original building, using wood and stone sourced from the same regions used in the original construction, with the structural reinforcement required for preventing a similar disaster in the future.
There is discussion of whether to reconstruct the cathedral in modified form. Rebuilding the roof with titanium sheets and steel trusses has been suggested; other options include rebuilding in the original lead and wood, or rebuilding with modern materials not visible from the outside (like the reinforced concrete trusses at Reims Cathedral).
Another option would be to use a combination of restored old elements and newly designed ones. Chartres Cathedral was rebuilt with wrought iron trusses and copper sheeting after an 1836 fire.
French prime minister Édouard Philippe announced an architectural design competition for a new spire that would be:
"Adapted to the techniques
and the challenges of our era."
The spire replacement project has gathered a variety of designs and some controversy, particularly its legal exemption from environmental and heritage rules. After the design competition was announced, the French senate amended the government's restoration bill to require the roof to be restored to how it was before the fire.
On the 16th. July, 95 days after the fire, the law that will govern the restoration of the cathedral was finally approved by the French parliament. It recognises its UNESCO World Heritage Site status and the need to respect existing international charters and practices, to:
"Preserve the historic, artistic and architectural
history of the monument, and to limit any
derogations to the existing heritage, planning,
environmental and construction codes to a
minimum".
On the 15th. April 2020, Germany offered to restore some of the large clerestory windows located far above eye level with three expert tradesmen who specialize in rebuilding cathedrals. Monika Grütters, Germany's Commissioner for Culture was quoted as saying that her country would shoulder the costs.
As of the 30th. November all of the tangled scaffolding was removed from the spire area, and was therefore no longer a threat to the building.
The world will now have to wait for Notre-Dame de Paris to be restored to its former magnificence.
Indian Railways (reporting mark IR) is an Indian state-owned enterprise, owned and operated by the Government of India through the Ministry of Railways. It is one of the world's largest railway networks comprising 115,000 km of track over a route of 65,808 km and 7,112 stations. In 2014-15, IR carried 8.397 billion passengers annually or more than 23 million passengers a day (roughly half of whom were suburban passengers) and 1058.81 million tons of freight in the year. On world level Ghaziabad is the largest manufacturer of Railway Engines. In 2014–2015 Indian Railways had revenues of ₹1634.50 billion (US$25 billion) which consists of ₹1069.27 billion (US$16 billion) from freight and ₹402.80 billion (US$6.1 billion) from passengers tickets.
Railways were first introduced to India in the year 1853 from Mumbai to Thane. In 1951 the systems were nationalised as one unit, the Indian Railways, becoming one of the largest networks in the world. IR operates both long distance and suburban rail systems on a multi-gauge network of broad, metre and narrow gauges. It also owns locomotive and coach production facilities at several places in India and are assigned codes identifying their gauge, kind of power and type of operation. Its operations cover twenty nine states and seven union territories and also provides limited international services to Nepal, Bangladesh and Pakistan.Indian Railways is the world's seventh largest commercial or utility employer, by number of employees, with over 1.334 million employees as of last published figures in 2013. As for rolling stock, IR holds over 245,267 Freight Wagons, 66,392 Passenger Coaches and 10,499 Locomotives (43 steam, 5,633 diesel and 4,823 electric locomotives). The trains have a 5 digit numbering system and runs 12,617 passenger trains and 7421 freight trains daily. As of 31 March 2013, 21,614 km (32.8%) of the total 65,808 km route length was electrified. Since 1960, almost all electrified sections on IR use 25,000 Volt AC traction through overhead catenary delivery.
HISTORY
The history of rail transport in India began in the mid-nineteenth century. The core of the pressure for building Railways In India came from London. In 1848, there was not a single kilometre of railway line in India. The country's first railway, built by the Great Indian Peninsula Railway (GIPR), opened in 1853, between Bombay and Thane. A British engineer, Robert Maitland Brereton, was responsible for the expansion of the railways from 1857 onwards. The Allahabad-Jabalpur branch line of the East Indian Railway had been opened in June 1867. Brereton was responsible for linking this with the GIPR, resulting in a combined network of 6,400 km. Hence it became possible to travel directly from Bombay to Calcutta. This route was officially opened on 7 March 1870 and it was part of the inspiration for French writer Jules Verne's book Around the World in Eighty Days. At the opening ceremony, the Viceroy Lord Mayo concluded that "it was thought desirable that, if possible, at the earliest possible moment, the whole country should be covered with a network of lines in a uniform system".
By 1875, about £95 million were invested by British companies in India. Guaranteed railways. By 1880 the network had a route mileage of about 14,500 km, mostly radiating inward from the three major port cities of Bombay, Madras and Calcutta. By 1895, India had started building its own locomotives, and in 1896, sent engineers and locomotives to help build the Uganda Railways.
In 1900, the GIPR became a government owned company. The network spread to the modern day states of Assam, Rajputhana and Madras Presidency and soon various autonomous kingdoms began to have their own rail systems. In 1905, an early Railway Board was constituted, but the powers were formally vested under Lord Curzon. It served under the Department of Commerce and Industry and had a government railway official serving as chairman, and a railway manager from England and an agent of one of the company railways as the other two members. For the first time in its history, the Railways began to make a profit.
In 1907 almost all the rail companies were taken over by the government. The following year, the first electric locomotive made its appearance. With the arrival of World War I, the railways were used to meet the needs of the British outside India. With the end of the war, the railways were in a state of disrepair and collapse. Large scale corruption by British officials involved in the running of these railways companies was rampant. Profits were never reinvested in the development of British colonial India.
In 1920, with the network having expanded to 61,220 km, a need for central management was mooted by Sir William Acworth. Based on the East India Railway Committee chaired by Acworth, the government took over the management of the Railways and detached the finances of the Railways from other governmental revenues.
The period between 1920 and 1929, was a period of economic boom; there were 66,000 km of railway lines serving the country; the railways represented a capital value of some 687 million sterling; and they carried over 620 million passengers and approximately 90 million tons of goods each year. Following the Great Depression, the railways suffered economically for the next eight years. The Second World War severely crippled the railways. Starting 1939, about 40% of the rolling stock including locomotives and coaches was taken to the Middle East, the railways workshops were converted to ammunitions workshops and many railway tracks were dismantled to help the Allies in the war. By 1946, all rail systems had been taken over by the government.
ORGANISATIONAL STRUCTURE
RAILWAY ZONES
Indian Railways is divided into 16 zones, which are further sub-divided into divisions. The number of zones in Indian Railways increased from six to eight in 1951, nine in 1966 and seventeen in 2003. Each zonal railway is made up of a certain number of divisions, each having a divisional headquarters. There are a total of sixty-eight divisions.
Each zone is headed by a general manager, who reports directly to the Railway Board. The zones are further divided into divisions, under the control of divisional railway managers (DRM). The divisional officers, of engineering, mechanical, electrical, signal and telecommunication, accounts, personnel, operating, commercial, security and safety branches, report to the respective Divisional Railway Manager and are in charge of operation and maintenance of assets. Further down the hierarchy tree are the station masters, who control individual stations and train movements through the track territory under their stations' administration.
RECRUITMENT AND TRAINING
Staff are classified into gazetted (Group 'A' and 'B') and non-gazetted (Group 'C' and 'D') employees. The recruitment of Group 'A' gazetted employees is carried out by the Union Public Service Commission through exams conducted by it. The recruitment to Group 'C' and 'D' employees on the Indian Railways is done through 20 Railway Recruitment Boards and Railway Recruitment Cells which are controlled by the Railway Recruitment Control Board (RRCB). The training of all cadres is entrusted and shared between six centralised training institutes.
ROLLING STOCK
LOCOMOTIVES
Locomotives in India consist of electric and diesel locomotives. The world's first CNG (Compressed Natural Gas) locomotives are also being used. Steam locomotives are no longer used, except in heritage trains. In India, locomotives are classified according to their track gauge, motive power, the work they are suited for and their power or model number. The class name includes this information about the locomotive. It comprises 4 or 5 letters. The first letter denotes the track gauge. The second letter denotes their motive power (Diesel or Alternating - on Electric) and the third letter denotes the kind of traffic for which they are suited (goods, passenger, Multi or shunting). The fourth letter used to denote locomotives' chronological model number. However, from 2002 a new classification scheme has been adopted. Under this system, for newer diesel locomotives, the fourth letter will denote their horsepower range. Electric locomotives don't come under this scheme and even all diesel locos are not covered. For them this letter denotes their model number as usual.In world level Ghaziabad is the largest manufacturer of Locomotive.
A locomotive may sometimes have a fifth letter in its name which generally denotes a technical variant or subclass or subtype. This fifth letter indicates some smaller variation in the basic model or series, perhaps different motors, or a different manufacturer. With the new scheme for classifying diesel locomotives (as mentioned above) the fifth item is a letter that further refines the horsepower indication in 100 hp increments: 'A' for 100 hp, 'B' for 200 hp, 'C' for 300 hp, etc. So in this scheme, a WDM-3A refers to a 3100 hp loco, while a WDM-3D would be a 3400 hp loco and WDM-3F would be 3600 hp loco.
Note: This classification system does not apply to steam locomotives in India as they have become non-functional now. They retained their original class names such as M class or WP class.
Diesel Locomotives are now fitted with Auxiliary Power Units which saves nearly 88% of Fuel during the idle time when train is not running.
GOODS WAGONS
The number of goods wagons was 205,596 on 31 March 1951 and reached the maximum number 405,183 on 31 March 1980 after which it started declining and was 239,321 on 31 March 2012. The number is far less than the requirement and the Indian Railways keeps losing freight traffic to road. Indian Railways carried 93 million tonnes of goods in 1950–51 and it increased to 1010 million tonnes in 2012–13.
However, its share in goods traffic is much lower than road traffic. In 1951, its share was 65% and the share of road was 35%. Now the shares have been reversed and the share of railways has declined to 30% and the share of road has increased to 70%.
PASSENGER COACHES
Indian railways has several types of passenger coaches.
Electric Multiple Unit (EMU) coaches are used for suburban traffic in large cities – mainly Mumbai, Chennai, Delhi, Kolkata, Pune, Hyderabad and Bangalore. These coaches numbered 7,793 on 31 March 2012. They have second class and first class seating accommodation.
The coaches used in Indian Railways are produced at Integral Coach Factory, Rail Coach Factory.Now,they are producing new LHB coaches.
Passenger coaches numbered 46,722 on 31 March 2012. Other coaches (luggage coach, parcel van, guard's coach, mail coach, etc.) numbered 6,560 on 31 March 2012.
FREIGHT
Indian Railways earns about 70% of its revenues from freight traffic (₹686.2 billion from freight and ₹304.6 billion from passengers in 2011–12). Most of its profits come from transporting freight, and this makes up for losses on passenger traffic. It deliberately keeps its passenger fares low and cross-subsidises the loss-making passenger traffic with the profit-making freight traffic.
Since the 1990s, Indian Railways has stopped single-wagon consignments and provides only full rake freight trains
Wagon types include:
BOXNHL
BOBYN
BCN
BCNHL
TECHNICAL DETAILS
TRACK AND GAUGE
Indian railways uses four gauges, the 1,676 mm broad gauge which is wider than the 1,435 mm standard gauge; the 1,000 mm metre gauge; and two narrow gauges, 762 mm and 610 mm. Track sections are rated for speeds ranging from 75 to 160 km/h.
The total length of track used by Indian Railways is about 115,000 km while the total route length of the network is 65,000 km. About 24,891 km or 38% of the route-kilometre was electrified, as of 31 March 2014.
Broad gauge is the predominant gauge used by Indian Railways. Indian broad gauge - 1,676 mm - is the most widely used gauge in India with 108,500 km of track length (94% of entire track length of all the gauges) and 59,400 km of route-kilometre (91% of entire route-kilometre of all the gauges).
In some regions with less traffic, the metre gauge (1,000 mm) is common, although the Unigauge project is in progress to convert all tracks to broad gauge. The metre gauge has about 5,000 km of track length (4% of entire track length of all the gauges) and 4,100 km of route-kilometre (7% of entire route-kilometre of all the gauges).
The Narrow gauges are present on a few routes, lying in hilly terrains and in some erstwhile private railways (on cost considerations), which are usually difficult to convert to broad gauge. Narrow gauges have 1,500 route-kilometre. The Kalka-Shimla Railway, the Kangra Valley Railway and the Darjeeling Himalayan Railway are three notable hill lines that use narrow gauge, but the Nilgiri Mountain Railway is a metre gauge track. These four rail lines will not be converted under the Unigauge project.
The share of broad gauge in the total route-kilometre has been steadily rising, increasing from 47% (25,258 route-km) in 1951 to 86% in 2012 whereas the share of metre gauge has declined from 45% (24,185 route-km) to 10% in the same period and the share of narrow gauges has decreased from 8% to 3%. About 24,891 route-km of Indian railways is electrified.
Sleepers (ties) are made up of prestressed concrete, or steel or cast iron posts, though teak sleepers are still in use on a few older lines. The prestressed concrete sleeper is in wide use today. Metal sleepers were extensively used before the advent of concrete sleepers. Indian Railways divides the country into four zones on the basis of the range of track temperature. The greatest temperature variations occur in Rajasthan.
RESEARCH AND DEVELOPMENT
Indian Railways has a full-fledged organisation known as Research Designs and Standards Organisation (RDSO), located at Lucknow for all research, designs and standardisation tasks.
In August 2013, Indian Railways entered into a partnership with Indian Institute of Technology (Madras) to develop technology to tap solar energy for lighting and air-conditioning in the coaches. This would significantly reduce the fossil fuel dependency for Indian Railways.
Recently it developed and tested the Improved Automated Fire Alarm System in Rajdhani Express Trains. It is intended that the system be applied to AC coaches of all regular trains.
CURRENT AND FUTURE DEVELOPMENTS
In recent years, Indian Railways has undertaken several initiatives to upgrade its ageing infrastructure and enhance its quality of service. The Indian government plans to invest ₹905000 crore (US$137 billion) to upgrade the railways by 2020.
TOILETS ON RAILWAYS
In 2014, Indian Railways and DRDO developed a bio-toilet to replace direct-discharge toilets, which are currently the primary type of toilet used in railway coaches. The direct discharge of human waste from trains onto the tracks corrodes rails, costing Indian Railways tens of millions of rupees a year in rail-replacement work. Flushing a bio-toilet discharges human waste into an underfloor holding tank where anaerobic bacteria remove harmful pathogens and break the waste down into neutral water and methane. These harmless by-products can then be safely discharged onto the tracks without causing corrosion or foul odours. As part of its "Swachh Rail-Swachh Bharat" ("Clean Rail-Clean India") programme, Indian Railways plans to completely phase out direct-discharge toilets on its lines by 2020-2021. As of March 2015, 17,338 bio-toilets had been installed on newly built coaches, with all new coaches to have bio-toilets from 2016; older rolling stock will be retrofitted.
LOCOMOTIVE FACTORIES
In 2015, plans were disclosed for building two locomotive factories in the state of Bihar, at Madhepura (diesel locomotives) and at Marhowra (electric locomotives). Both factories involve foreign partnerships. The diesel locomotive works will be jointly operated in a partnership with General Electric, which has invested ₹2052 crore (US$310 million) for its construction, and the electric locomotive works with Alstom, which has invested ₹1293.57 crore (US$195 million). The factories will provide Indian Railways with 800 electric locomotives of 12,000 horse power each, and a mix of 1,000 diesel locomotives of 4,500 and 6,000 horsepower each. In November 2015, further details of the ₹14656 crore (US$2 billion) partnership with GE were announced: Indian Railways and GE would engage in an 11-year joint venture in which GE would hold a majority stake of 74%. Under the terms of the joint venture, Indian Railways would purchase 100 goods locomotives a year for 10 years beginning in 2017; the locomotives would be modified versions of the GE Evolution series. The diesel locomotive works will be built by 2018; GE will import the first 100 locomotives and manufacture the remaining 900 in India from 2019, also assuming responsibility for their maintenance over a 13-year period. In the same month, a ₹20000 crore (US$3 billion) partnership with Alstom to supply 800 electric locomotives from 2018 to 2028 was announced.
LINKS TO ADJACENT COUNTRIES
EXISTING RAIL LINKS
Nepal – Break-of-gauge – Gauge conversion under uni-gauge project
Pakistan – same Broad Gauge. Thar Express to Karachi and the more famous Samjhauta Express international train from Lahore, Pakistan to Amritsar (Attari).
Bangladesh – Same Broad Gauge. The Maitri Express between Dhaka and Kolkata started in April 2008 using the Gede-Darsana route, in addition to a Freight Train service from Singhabad and Petrapole in India to Rohanpur and Benapole in Bangladesh. A second passenger link between Agartala, India and Akhaura Upazila, Bangladesh was approved by the Government of Bangladesh and India in September 2011.
UNDER CONSTRUCTUION / PROPOSED LINKS
Bhutan – railways under construction – Same gauge
Myanmar – Manipur to Myanmar (under construction)
Vietnam – On 9 April 2010, Former Union Minister of India, Shashi Tharoor announced that the central government is considering a rail link from Manipur to Vietnam via Myanmar.
Thailand – possible if Burma Railway is rebuilt.
TYPES OF PASSENGER SERVICES
Trains are classified by their average speed. A faster train has fewer stops ("halts") than a slower one and usually caters to long-distance travel.
ACCOMODATION CLASSES
Indian Railways has several classes of travel with or without airconditioning. A train may have just one or many classes of travel. Slow passenger trains have only unreserved seating class whereas Rajdhani, Duronto, Shatabdi, garib rath and yuva trains have only airconditioned classes. The fares for all classes are different with unreserved seating class being the cheapest. The fare of Rajdhani, Duronto and Shatabdi trains includes food served in the train but the fare for other trains does not include food that has to be bought separately. In long-distance trains a pantry car is usually included and food is served at the berth or seat itself. Luxury trains such as Palace on Wheels have separate dining cars but these trains cost as much as or more than a five-star hotel room.
A standard passenger rake generally has four unreserved (also called "general") compartments, two at the front and two at the end, of which one may be exclusively for ladies. The exact number of other coaches varies according to the demand and the route. A luggage compartment can also exist at the front or the back. In some mail trains a separate mail coach is attached. Lavatories are communal and feature both the Indian style as well as the Western style.
The following table lists the classes in operation. A train may not have all these classes.
1A First class AC: This is the most expensive class, where the fares are almost at par with air fare. There are eight cabins (including two coupes) in the full AC First Class coach and three cabins (including one coupe) in the half AC First Class coach. The coach has an attendant to help the passengers. Bedding is included with the fare in IR. This air conditioned coach is present only on popular routes and can carry 18 passengers (full coach) or 10 passengers (half coach). The sleeper berths are extremely wide and spacious. The coaches are carpeted, have sleeping accommodation and have privacy features like personal coupes. This class is available on broad gauge and metre gauge trains.
2A AC-Two tier: These air-conditioned coaches have sleeping berths across eight bays. Berths are usually arranged in two tiers in bays of six, four across the width of the coach and two berths longways on the other side of the corridor, with curtains along the gangway or corridor. Bedding is included with the fare. A broad gauge coach can carry 48 passengers (full coach) or 20 passengers (half coach). This class is available on broad gauge and metre gauge trains.
FC First class: Same as 1AC but without air conditioning. No bedding is available in this class. The berths are wide and spacious. There is a coach attendant to help the passengers. This class has been phased out on most of the trains and is rare to find. However narrow gauge trains to hill stations have this class.
3A AC three tier: Air conditioned coaches with 64 sleeping berths. Berths are usually arranged as in 2AC but with three tiers across the width and two longways as before giving eight bays of eight. They are slightly less well-appointed, usually no reading lights or curtained off gangways. Bedding is included with fare. It carries 64 passengers in broad gauge. This class is available only on broad gauge.
3E AC three tier (Economy): Air conditioned coaches with sleeping berths, present in Garib Rath Trains. Berths are usually arranged as in 3AC but with three tiers across the width and three longways. They are slightly less well-appointed, usually no reading lights or curtained off gangways. Bedding is not included with fare.
CC AC chair car: An air-conditioned seater coach with a total of five seats in a row used for day travel between cities.
EC Executive class chair car: An air-conditioned coach with large spacious seats and legroom. It has a total of four seats in a row used for day travel between cities. This class of travel is only available on Shatabdi Express trains.
SL Sleeper class: The sleeper class is the most common coach on IR, and usually ten or more coaches could be attached. These are regular sleeping coaches with three berths vertically stacked. In broad gauge, it carries 72 passengers per coach.
2S Seater class: same as AC Chair car, without the air-conditioning. These may be reserved in advance or may be unreserved.
UR Unreserved: The cheapest accommodation. The seats are usually made up of pressed wood in older coaches but cushioned seats are found in new coaches. These coaches are usually over-crowded and a seat is not guaranteed. Tickets are issued in advance for a minimum journey of more than 24 hours. Tickets issued are valid on any train on the same route if boarded within 24 hours of buying the ticket.
At the rear of the train is a special compartment known as the guard's cabin. It is fitted with a transceiver and is where the guard usually gives the all clear signal before the train departs.
UNESCO WORLD HERITAGE SITES
There are two UNESCO World Heritage Sites on Indian Railways. – The Chatrapati Shivaji Terminus and the Mountain Railways of India. The latter consists of three separate railway lines located in different parts of India:
- Darjeeling Himalayan Railway, a narrow gauge railway in West Bengal.
- Nilgiri Mountain Railway, a 1,000 mm metre gauge railway in the Nilgiri Hills in Tamil Nadu.
- Kalka-Shimla Railway, a narrow gauge railway in the Shivalik mountains in Himachal Pradesh. In 2003 the railway was featured in the Guinness Book of World Records for offering the steepest rise in altitude in the space of 96 kilometre.
NOTABLE TRAINS
TOURIST TRAINS
Palace on Wheels is a specially designed luxury tourist train service, frequently hauled by a steam locomotive, for promoting tourism in Rajasthan. The train has a 7 nights & 8 days itinerary, it departs from New Delhi (Day 1), and covers Jaipur (Day 2), Sawai Madhopur and Chittaurgarh (Day 3), Udaipur (Day 4), Jaisalmer (Day 5), Jodhpur (Day 6), Bharatpur and Agra (Day 7), return to Delhi (Day 8).
Royal Rajasthan on Wheels a luxury tourist train service covers various tourist destinations in Rajasthan. The train takes tourists on a 7-day/8-night tour through Rajasthan. The train starts from New Delhi's Safdarjung railway station (Day 1), and has stops at Jodhpur (Day 2), Udaipur and Chittaurgarh (Day 3), Ranthambore National Park and Jaipur (Day 4), Khajuraho (Day 5), Varanasi and Sarnath (Day 6), Agra (Day 7) and back to Delhi (Day 8).
Maharaja Express a luxury train operated by IRCTC runs on five circuits covering more than 12 destinations across North-West and Central India, mainly centered around Rajasthan between the months of October to April.
Deccan Odyssey luxury tourist train service covers various tourist destinations in Maharashtra and Goa. The 7 Nights / 8 Days tour starts from Mumbai (Day 1) and covers Jaigad Fort, Ganapatipule and Ratnagiri (Day 2), Sindhudurg, Tarkarli and Sawantwadi (Day 3), Goa (Day 4), Kolhapur and Pune (Day 5), Aurangabad and Ellora Caves (Day 6), Ajanta Caves and Nashik (Day 7), and back to Mumbai (Day 8).
The Golden Chariot luxury train runs on two circuits Pride of the South and Splendor of the South.
Mahaparinirvan Express an a/c train service also known as Buddhist Circuit Train which is run by IRCTC to attract Buddhist pilgrims. The 7 nights/8 Days tour starts from New Delhi (Day 1) and covers Bodh Gaya (Day 2), Rajgir and Nalanda (Day 3), Varanasi and Sarnath (Day 4), Kushinagar and Lumbini (Day 5 and 6), Sravasti (Day 7), Taj Mahal (Agra) (Day 8) before returning to New Delhi on (Day 8).
OTHER TRAINS
- Samjhauta Express is a train that runs between India and Pakistan. However, hostilities between the two nations in 2001 saw the line being closed. It was reopened when the hostilities subsided in 2004. Another train connecting Khokhrapar (Pakistan) and Munabao (India) is the Thar Express that restarted operations on 18 February 2006; it was earlier closed down after the 1965 Indo-Pak war.
- Lifeline Express is a special train popularly known as the "Hospital-on-Wheels" which provides healthcare to the rural areas. This train has a carriage that serves as an operating room, a second one which serves as a storeroom and an additional two that serve as a patient ward. The train travels around the country, staying at a location for about two months before moving elsewhere.
- Fairy Queen is the oldest operating locomotive in the world today, though it is operated only for specials between Delhi and Alwar. John Bull, a locomotive older than Fairy Queen, operated in 1981 commemorating its 150th anniversary. Gorakhpur railway station also has the distinction of being the world's longest railway platform at 1,366 m. The Ghum station along the Darjeeling Toy Train route is the second highest railway station in the world to be reached by a steam locomotive. The Mumbai–Pune Deccan Queen has the oldest running dining car in IR.
- Vivek Express, between Dibrugarh and Kanyakumari, has the longest run in terms of distance and time on Indian Railways network. It covers 4,286 km in about 82 hours and 30 minutes.
- Bhopal Shatabdi Express is the fastest train in India today having a maximum speed of 160 km/h on the Faridabad–Agra section. The fastest speed attained by any train is 184 km/h in 2000 during test runs.
- Special Trains are those trains started by Indian Railways for any specific event or cause which includes Jagriti Yatra trains, Kumbh Mela Trains., emergency trains, etc.
- Double-decker AC trains have been introduced in India. The first double decker train was Pune-Mumbai Sinhagad express plying between Pune and Mumbai while the first double-decker AC train in the Indian Railways was introduced in November 2010, running between the Dhanbad and Howrah stations having 10 coaches and 2 power cars. On 16 April 2013, Indian Railways celebrated its 160 years of nationwide connectivity with a transportation of 23 million passengers in a day.
PROBLEMS AND ISSUES
Indian Railways is cash strapped and reported a loss of ₹30,000 crores (₹300bn) in the passenger segment for the year ending March 2014. Operating ratio, a key metric used by Indian railways to gauge financial health, is 91.8% in the year 2014-15. Railways carry a social obligation of over ₹20,000 crores (₹200bn $3.5bn). The loss per passenger-km increased to 23 paise by the end of March 2014. Indian Railways is left with a surplus cash of just ₹690 crores (₹6.9bn $115mn) by the end of March 2014.
It is estimated that over ₹ 5 lakh crores (₹5 trillion) (about $85 bn at 2014 exchange rates) is required to complete the ongoing projects alone. The railway is consistently losing market share to other modes of transport both in freight and passengers.
New railway line projects are often announced during the Railway Budget annually without securing additional funding for them. In the last 10 years, 99 New Line projects worth ₹ 60,000 crore (₹600bn) were sanctioned out of which only one project is complete till date, and there are four projects that are as old as 30 years, but are still not complete for one reason or another.
Sanjay Dina Patil a member of the Lok Sabha in 2014 said that additional tracks, height of platforms are still a problem and rise in tickets, goods, monthly passes has created an alarming situation where the common man is troubled.
WIKIPEDIA
This work is protected under copyright laws and agreements.
All rights reserved © 2007 Bernard Egger :: rumoto images
Todos los Derechos Reservados • Tous droits réservés • Todos os Direitos Reservados • Все права защищены • Tutti i diritti riservati
----
BMW R 1200 CL - Woodcliff Lake, New Jersey, August 2002 ... Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.
Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.
Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.
Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.
shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).
The R 1200 CL Engine: Gearing For The Long Haul
BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.
While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.
In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.
The CL Chassis: Wheeled Luggage Never Worked This Well
Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.
Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.
The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.
All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.
The CL Bodywork: Dressed To The Nines
Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).
The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.
Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.
Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.
Options & Accessories: More Personal Than A Monogram
Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.
Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.
- - - - -
Der Luxus-Cruiser zum genußvollen Touren.
Die Motorradwelt war überrascht, als BMW Motorrad 1997 die R 1200 C, den ersten Cruiser in der Geschichte des Hauses, vorstellte. Mit dem einzigartigen Zweizylinder-Boxermotor und einem unverwechselbar eigenständigen Design gelang es auf Anhieb, sich in diesem bis dato von BMW nicht besetzten Marktsegment erfolgreich zu positionieren. Bisher wurden neben dem Basismodell R 1200 C Classic die technisch nahezu identischen Modellvarianten Avantgarde und Independent angeboten, die sich in Farbgebung, Designelementen und Ausstattungsdetails unterscheiden.
Zur Angebotserweiterung und zur Erschließung zusätzlicher Potenziale, präsentiert BMW Motorrad für das Modelljahr 2003 ein neues Mitglied der Cruiserfamilie, den Luxus-Cruiser R 1200 CL. Er wird seine Weltpremiere im September in München auf der INTERMOT haben und voraussichtlich im Herbst 2002 auf den Markt kommen. Der Grundgedanke war, Elemente von Tourenmotorrädern auf einen Cruiser zu übertragen und ein Motorrad zu entwickeln, das Eigenschaften aus beiden Fahrzeuggattungen aufweist.
So entstand ein eigenständiges Modell, ein Cruiser zum genussvollen Touren, bei dem in Komfort und Ausstattung keine Wünsche offen bleiben.
Als technische Basis diente die R 1200 C, von der aber im wesentlichen nur der Motor, der Hinterradantrieb, der Vorderrahmen, der Tank und einige Ausstattungsumfänge übernommen wurden. Ansonsten ist das Motorrad ein völlig eigenständiger Entwurf und in weiten Teilen eine Neuentwicklung.
Fahrgestell und Design:
Einzigartiges Gesicht, optische Präsenz und Koffer integriert.
Präsenz, kraftvoller Auftritt und luxuriöser Charakter, mit diesen Worten lässt sich die Wirkung der BMW R 1200 CL kurz und treffend beschreiben. Geprägt wird dieses Motorrad von der lenkerfesten Tourenverkleidung, deren Linienführung sich in den separaten seitlichen Verkleidungsteilen am Tank fortsetzt, so dass in der Seitenansicht fast der Eindruck einer integrierten Verkleidung entsteht. Sie bietet dem Fahrer ein hohes Maß an Komfort durch guten Wind- und Wetterschutz.
Insgesamt vier in die Verkleidung integrierte Scheinwerfer, zwei für das Abblendlicht und zwei für das Fernlicht, geben dem Motorrad ein unverwechselbares, einzigartiges Gesicht und eine beeindruckende optische Wirkung, die es so bisher noch bei keinem Motorrad gab. Natürlich sorgen die vier Scheinwerfer auch für eine hervorragende Fahrbahnausleuchtung.
Besonders einfallsreich ist die aerodynamische Gestaltung der Verkleidungsscheibe mit ihrem wellenartig ausgeschnittenen oberen Rand. Sie leitet die Strömung so, dass der Fahrer wirkungsvoll geschützt wird. Gleichzeitig kann man aber wegen des Einzugs in der Mitte ungehindert über die Scheibe hinwegschauen und hat somit unabhängig von Nässe und Verschmutzung der Scheibe ein ungestörtes Sichtfeld auf die Straße.
Zur kraftvollen Erscheinung des Motorrades passt der Vorderradkotflügel, der seitlich bis tief zur Felge heruntergezogen ist. Er bietet guten Spritzschutz und unterstreicht zusammen mit dem voluminösen Vorderreifen die Dominanz der Frontpartie, die aber dennoch Gelassenheit und Eleganz ausstrahlt.
Der gegenüber den anderen Modellen flacher gestellte Telelever hebt den Cruisercharakter noch mehr hervor. Der Heckbereich wird bestimmt durch die integrierten, fest mit dem Fahrzeug verbundenen Hartschalenkoffer und das abnehmbare Topcase auf der geschwungenen Gepäckbrücke, die zugleich als Soziushaltegriff dient. Koffer und Topcase sind jeweils in Fahrzeugfarbe lackiert und bilden somit ein harmonisches Ganzes mit dem Fahrzeug.
Akzente setzen auch die stufenförmig angeordneten breiten Komfortsitze für Fahrer und Beifahrer mit der charakteristischen hinteren Abstützung. Luxus durch exklusive Farben, edle Oberflächen und Materialien.
Die R 1200 CL wird zunächst in drei exklusiven Farben angeboten: perlsilber-metallic und capriblau-metallic mit jeweils schwarzen Sitzen und mojavebraun-metallic mit braunem Sitzbezug (wahlweise auch in schwarz). Die Eleganz der Farben wird unterstützt durch sorgfältige Materialauswahl und perfektes Finish von Oberflächen und Fugen. So ist zum Beispiel die Gepäckbrücke aus Aluminium-Druckguß gefertigt und in weissaluminium lackiert, der Lenker verchromt und die obere Instrumentenabdeckung ebenfalls weissaluminiumfarben lackiert. Die Frontverkleidung ist vollständig mit einer Innenabdeckung versehen, und die Kniepads der seitlichen Verkleidungsteile sind mit dem gleichen Material wie die Sitze überzogen.
All dies unterstreicht den Anspruch auf Luxus und Perfektion.
Antrieb jetzt mit neuem, leiserem Sechsganggetriebe - Boxermotor unverändert.
Während der Boxermotor mit 1170 cm³ unverändert von der bisherigen R 1200 C übernommen wurde - auch die Leistungsdaten sind mit 45 kW (61 PS) und 98 Nm Drehmoment bei 3 000 min-1 gleich geblieben -, ist das Getriebe der R 1200 CL neu. Abgeleitet von dem bekannten Getriebe der anderen Boxermodelle hat es jetzt auch sechs Gänge und wurde grundlegend überarbeitet. Als wesentliche Neuerung kommt eine sogenannte Hochverzahnung zum Einsatz. Diese sorgt für einen "weicheren" Zahneingriff und reduziert erheblich die Laufgeräusche der Verzahnung.
Der lang übersetzte, als "overdrive" ausgelegte, sechste Gang erlaubt drehzahlschonendes Fahren auf langen Etappen in der Ebene und senkt dort Verbrauch und Geräusch. Statt eines Schalthebels gibt es eine Schaltwippe für Gangwechsel mit einem lässigen Kick. Schaltkomfort, Geräuscharmut, niedrige Drehzahlen und dennoch genügend Kraft - Eigenschaften, die zum Genusscharakter des Fahrzeugs hervorragend passen.
Dass auch die R 1200 CL, wie jedes seit 1997 neu eingeführte BMW Motorrad weltweit, serienmäßig über die jeweils modernste Abgasreinigungstechnologie mit geregeltem Drei-Wege-Katalysator verfügt, muss fast nicht mehr erwähnt werden. Es ist bei BMW zur Selbstverständlichkeit geworden.
Fahrwerkselemente für noch mehr Komfort - Telelever neu und hinteres Federbein mit wegabhängiger Dämpfung.
Ein cruisertypisches Merkmal ist die nach vorn gestreckte Vorderradführung mit flachem Winkel zur Fahrbahn und großem Nachlauf. Dazu wurde für die R 1200 CL der nach wie vor einzigartige BMW Telelever neu ausgelegt.
Die Gabelholme stehen weiter auseinander, um dem bulligen, 150 mm breiten Vorderradreifen Platz zu bieten.
Für die Hinterradfederung kommt ein Federbein mit wegabhängiger Dämpfung zum Einsatz, das sich durch hervorragende Komforteigenschaften auszeichnet. Der Gesamtfederweg wuchs um 20 mm gegenüber den anderen Cruisermodellen auf jetzt 120 mm. Die Federbasisverstellung zur Anpassung an den Beladungszustand erfolgt hydraulisch über ein bequem zugängliches Handrad.
Hinterradschwinge optimiert und Heckrahmen neu.
Die Hinterradschwinge mit Hinterachsgehäuse, der BMW Monolever, wurde verstärkt und zur Aufnahme einer größeren Hinterradbremse angepasst.
Der verstärkte Heckrahmen ist vollständig neu, um Trittbretter, Kofferhalter, Gepäckbrücke und die neuen Sitze sowie die modifizierte Seitenstütze aufnehmen zu können. Der Vorderrahmen aus Aluminiumguss wurde mit geringfügigen Modifikationen von der bisherigen R 1200 C übernommen.
Räder aus Aluminiumguss, Sitze, Trittbretter und Lenker - alles neu.
Der optische Eindruck eines Motorrades wird ganz wesentlich auch von den Rädern bestimmt. Die R 1200 CL hat avantgardistisch gestaltete neue Gussräder aus Aluminium mit 16 Zoll (vorne) beziehungsweise 15 Zoll (hinten) Felgendurchmesser, die voluminöse Reifen im Format 150/80 vorne und 170/80 hinten aufnehmen.
Die Sitze sind für Fahrer und Beifahrer getrennt ausgeführt, um den unterschiedlichen Bedürfnissen gerecht zu werden. So ist der breite Komfortsattel für den Fahrer mit einer integrierten Beckenabstützung versehen und bietet einen hervorragenden Halt. Die Sitzhöhe beträgt 745 mm. Der Sitz für den Passagier ist ebenfalls ganz auf Bequemlichkeit ausgelegt und etwas höher als der Fahrersitz angeordnet. Dadurch hat der Beifahrer einen besseren Blick am Fahrer vorbei und kann beim Cruisen die Landschaft ungestört genießen.
Großzügige cruisertypische Trittbretter für den Fahrer tragen zum entspannten Sitzen bei. Die Soziusfußrasten, die von der K 1200 LT abgeleitet sind, bieten ebenfalls sehr guten Halt und ermöglichen zusammen mit dem günstigen Kniebeugewinkel auch dem Beifahrer ein ermüdungsfreies Touren.
Der breite, verchromte Lenker vermittelt nicht nur Cruiser-Feeling; Höhe und Kröpfungswinkel sind so ausgelegt, dass auch auf langen Fahrten keine Verspannungen auftreten. Handhebel und Schalter mit der bewährten und eigenständigen BMW Bedienlogik wurden unverändert von den anderen Modellen übernommen.
HighTech bei den Bremsen - BMW EVO-Bremse und als Sonderausstattung Integral ABS.
Sicherheit hat bei BMW traditionell höchste Priorität. Deshalb kommt bei der
R 1200 CL die schon in anderen BMW Motorrädern bewährte EVO-Bremse am Vorderrad zum Einsatz, die sich durch eine verbesserte Bremsleistung auszeichnet. Auf Wunsch gibt es das einzigartige BMW Integral ABS, dem Charakter des Motorrades entsprechend in der Vollintegralversion. Das heißt, unabhängig ob der Hand- oder Fußbremshebel betätigt wird, immer wirkt die Bremskraft optimal auf beide Räder. Im Vorderrad verzögert eine Doppel-Scheibenbremse mit 305 mm Scheibendurchmesser und im Hinterrad die von der K 1200 LT übernommene Einscheiben-Bremsanlage mit einem Scheibendurchmesser von 285 mm.
Fortschrittliche Elektrik: Vierfach-Scheinwerfer, wartungsarme Batterie und elektronischer Tachometer.
Vier Scheinwerfer, je zwei für das Abblend- und Fernlicht, geben dem Motorrad von vorne ein einzigartiges prägnantes Gesicht. Durch die kreuzweise Anordnung - die Abblendscheinwerfer sitzen nebeneinander und die Fernscheinwerfer dazwischen und übereinander - wird eine hohe Signalwirkung bei Tag und eine hervorragende Fahrbahnausleuchtung bei Dunkelheit erzielt.
Neu ist die wartungsarme, komplett gekapselte Gel-Batterie, bei der kein Wasser mehr nachgefüllt werden muss. Eine zweite Steckdose ist serienmäßig. Die Instrumente sind ebenfalls neu. Drehzahlmesser und Tachometer sind elektronisch und die Zifferblätter neu gestaltetet, ebenso die Analoguhr.
Umfangreiche Sonderausstattung für Sicherheit, Komfort und individuellen Luxus.
Die Sonderausstattung der R 1200 CL ist sehr umfangreich und reicht vom BMW Integral ABS für sicheres Bremsen über Komfortausstattungen wie Temporegelung, heizbare Lenkergriffe und Sitzheizung bis hin zu luxuriöser Individualisierung mit Softtouchsitzen, Chrompaket und fernbedientem Radio mit CD-Laufwerk.
The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.
The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is
- - - - -
BMW R1200 CL motorcycle (c) 2007 Берни Эггерян :: ru-moto images CL013se
Indian Railways (reporting mark IR) is an Indian state-owned enterprise, owned and operated by the Government of India through the Ministry of Railways. It is one of the world's largest railway networks comprising 115,000 km of track over a route of 65,808 km and 7,112 stations. In 2014-15, IR carried 8.397 billion passengers annually or more than 23 million passengers a day (roughly half of whom were suburban passengers) and 1058.81 million tons of freight in the year. On world level Ghaziabad is the largest manufacturer of Railway Engines. In 2014–2015 Indian Railways had revenues of ₹1634.50 billion (US$25 billion) which consists of ₹1069.27 billion (US$16 billion) from freight and ₹402.80 billion (US$6.1 billion) from passengers tickets.
Railways were first introduced to India in the year 1853 from Mumbai to Thane. In 1951 the systems were nationalised as one unit, the Indian Railways, becoming one of the largest networks in the world. IR operates both long distance and suburban rail systems on a multi-gauge network of broad, metre and narrow gauges. It also owns locomotive and coach production facilities at several places in India and are assigned codes identifying their gauge, kind of power and type of operation. Its operations cover twenty nine states and seven union territories and also provides limited international services to Nepal, Bangladesh and Pakistan.Indian Railways is the world's seventh largest commercial or utility employer, by number of employees, with over 1.334 million employees as of last published figures in 2013. As for rolling stock, IR holds over 245,267 Freight Wagons, 66,392 Passenger Coaches and 10,499 Locomotives (43 steam, 5,633 diesel and 4,823 electric locomotives). The trains have a 5 digit numbering system and runs 12,617 passenger trains and 7421 freight trains daily. As of 31 March 2013, 21,614 km (32.8%) of the total 65,808 km route length was electrified. Since 1960, almost all electrified sections on IR use 25,000 Volt AC traction through overhead catenary delivery.
HISTORY
The history of rail transport in India began in the mid-nineteenth century. The core of the pressure for building Railways In India came from London. In 1848, there was not a single kilometre of railway line in India. The country's first railway, built by the Great Indian Peninsula Railway (GIPR), opened in 1853, between Bombay and Thane. A British engineer, Robert Maitland Brereton, was responsible for the expansion of the railways from 1857 onwards. The Allahabad-Jabalpur branch line of the East Indian Railway had been opened in June 1867. Brereton was responsible for linking this with the GIPR, resulting in a combined network of 6,400 km. Hence it became possible to travel directly from Bombay to Calcutta. This route was officially opened on 7 March 1870 and it was part of the inspiration for French writer Jules Verne's book Around the World in Eighty Days. At the opening ceremony, the Viceroy Lord Mayo concluded that "it was thought desirable that, if possible, at the earliest possible moment, the whole country should be covered with a network of lines in a uniform system".
By 1875, about £95 million were invested by British companies in India. Guaranteed railways. By 1880 the network had a route mileage of about 14,500 km, mostly radiating inward from the three major port cities of Bombay, Madras and Calcutta. By 1895, India had started building its own locomotives, and in 1896, sent engineers and locomotives to help build the Uganda Railways.
In 1900, the GIPR became a government owned company. The network spread to the modern day states of Assam, Rajputhana and Madras Presidency and soon various autonomous kingdoms began to have their own rail systems. In 1905, an early Railway Board was constituted, but the powers were formally vested under Lord Curzon. It served under the Department of Commerce and Industry and had a government railway official serving as chairman, and a railway manager from England and an agent of one of the company railways as the other two members. For the first time in its history, the Railways began to make a profit.
In 1907 almost all the rail companies were taken over by the government. The following year, the first electric locomotive made its appearance. With the arrival of World War I, the railways were used to meet the needs of the British outside India. With the end of the war, the railways were in a state of disrepair and collapse. Large scale corruption by British officials involved in the running of these railways companies was rampant. Profits were never reinvested in the development of British colonial India.
In 1920, with the network having expanded to 61,220 km, a need for central management was mooted by Sir William Acworth. Based on the East India Railway Committee chaired by Acworth, the government took over the management of the Railways and detached the finances of the Railways from other governmental revenues.
The period between 1920 and 1929, was a period of economic boom; there were 66,000 km of railway lines serving the country; the railways represented a capital value of some 687 million sterling; and they carried over 620 million passengers and approximately 90 million tons of goods each year. Following the Great Depression, the railways suffered economically for the next eight years. The Second World War severely crippled the railways. Starting 1939, about 40% of the rolling stock including locomotives and coaches was taken to the Middle East, the railways workshops were converted to ammunitions workshops and many railway tracks were dismantled to help the Allies in the war. By 1946, all rail systems had been taken over by the government.
ORGANISATIONAL STRUCTURE
RAILWAY ZONES
Indian Railways is divided into 16 zones, which are further sub-divided into divisions. The number of zones in Indian Railways increased from six to eight in 1951, nine in 1966 and seventeen in 2003. Each zonal railway is made up of a certain number of divisions, each having a divisional headquarters. There are a total of sixty-eight divisions.
Each zone is headed by a general manager, who reports directly to the Railway Board. The zones are further divided into divisions, under the control of divisional railway managers (DRM). The divisional officers, of engineering, mechanical, electrical, signal and telecommunication, accounts, personnel, operating, commercial, security and safety branches, report to the respective Divisional Railway Manager and are in charge of operation and maintenance of assets. Further down the hierarchy tree are the station masters, who control individual stations and train movements through the track territory under their stations' administration.
RECRUITMENT AND TRAINING
Staff are classified into gazetted (Group 'A' and 'B') and non-gazetted (Group 'C' and 'D') employees. The recruitment of Group 'A' gazetted employees is carried out by the Union Public Service Commission through exams conducted by it. The recruitment to Group 'C' and 'D' employees on the Indian Railways is done through 20 Railway Recruitment Boards and Railway Recruitment Cells which are controlled by the Railway Recruitment Control Board (RRCB). The training of all cadres is entrusted and shared between six centralised training institutes.
ROLLING STOCK
LOCOMOTIVES
Locomotives in India consist of electric and diesel locomotives. The world's first CNG (Compressed Natural Gas) locomotives are also being used. Steam locomotives are no longer used, except in heritage trains. In India, locomotives are classified according to their track gauge, motive power, the work they are suited for and their power or model number. The class name includes this information about the locomotive. It comprises 4 or 5 letters. The first letter denotes the track gauge. The second letter denotes their motive power (Diesel or Alternating - on Electric) and the third letter denotes the kind of traffic for which they are suited (goods, passenger, Multi or shunting). The fourth letter used to denote locomotives' chronological model number. However, from 2002 a new classification scheme has been adopted. Under this system, for newer diesel locomotives, the fourth letter will denote their horsepower range. Electric locomotives don't come under this scheme and even all diesel locos are not covered. For them this letter denotes their model number as usual.In world level Ghaziabad is the largest manufacturer of Locomotive.
A locomotive may sometimes have a fifth letter in its name which generally denotes a technical variant or subclass or subtype. This fifth letter indicates some smaller variation in the basic model or series, perhaps different motors, or a different manufacturer. With the new scheme for classifying diesel locomotives (as mentioned above) the fifth item is a letter that further refines the horsepower indication in 100 hp increments: 'A' for 100 hp, 'B' for 200 hp, 'C' for 300 hp, etc. So in this scheme, a WDM-3A refers to a 3100 hp loco, while a WDM-3D would be a 3400 hp loco and WDM-3F would be 3600 hp loco.
Note: This classification system does not apply to steam locomotives in India as they have become non-functional now. They retained their original class names such as M class or WP class.
Diesel Locomotives are now fitted with Auxiliary Power Units which saves nearly 88% of Fuel during the idle time when train is not running.
GOODS WAGONS
The number of goods wagons was 205,596 on 31 March 1951 and reached the maximum number 405,183 on 31 March 1980 after which it started declining and was 239,321 on 31 March 2012. The number is far less than the requirement and the Indian Railways keeps losing freight traffic to road. Indian Railways carried 93 million tonnes of goods in 1950–51 and it increased to 1010 million tonnes in 2012–13.
However, its share in goods traffic is much lower than road traffic. In 1951, its share was 65% and the share of road was 35%. Now the shares have been reversed and the share of railways has declined to 30% and the share of road has increased to 70%.
PASSENGER COACHES
Indian railways has several types of passenger coaches.
Electric Multiple Unit (EMU) coaches are used for suburban traffic in large cities – mainly Mumbai, Chennai, Delhi, Kolkata, Pune, Hyderabad and Bangalore. These coaches numbered 7,793 on 31 March 2012. They have second class and first class seating accommodation.
The coaches used in Indian Railways are produced at Integral Coach Factory, Rail Coach Factory.Now,they are producing new LHB coaches.
Passenger coaches numbered 46,722 on 31 March 2012. Other coaches (luggage coach, parcel van, guard's coach, mail coach, etc.) numbered 6,560 on 31 March 2012.
FREIGHT
Indian Railways earns about 70% of its revenues from freight traffic (₹686.2 billion from freight and ₹304.6 billion from passengers in 2011–12). Most of its profits come from transporting freight, and this makes up for losses on passenger traffic. It deliberately keeps its passenger fares low and cross-subsidises the loss-making passenger traffic with the profit-making freight traffic.
Since the 1990s, Indian Railways has stopped single-wagon consignments and provides only full rake freight trains
Wagon types include:
BOXNHL
BOBYN
BCN
BCNHL
TECHNICAL DETAILS
TRACK AND GAUGE
Indian railways uses four gauges, the 1,676 mm broad gauge which is wider than the 1,435 mm standard gauge; the 1,000 mm metre gauge; and two narrow gauges, 762 mm and 610 mm. Track sections are rated for speeds ranging from 75 to 160 km/h.
The total length of track used by Indian Railways is about 115,000 km while the total route length of the network is 65,000 km. About 24,891 km or 38% of the route-kilometre was electrified, as of 31 March 2014.
Broad gauge is the predominant gauge used by Indian Railways. Indian broad gauge - 1,676 mm - is the most widely used gauge in India with 108,500 km of track length (94% of entire track length of all the gauges) and 59,400 km of route-kilometre (91% of entire route-kilometre of all the gauges).
In some regions with less traffic, the metre gauge (1,000 mm) is common, although the Unigauge project is in progress to convert all tracks to broad gauge. The metre gauge has about 5,000 km of track length (4% of entire track length of all the gauges) and 4,100 km of route-kilometre (7% of entire route-kilometre of all the gauges).
The Narrow gauges are present on a few routes, lying in hilly terrains and in some erstwhile private railways (on cost considerations), which are usually difficult to convert to broad gauge. Narrow gauges have 1,500 route-kilometre. The Kalka-Shimla Railway, the Kangra Valley Railway and the Darjeeling Himalayan Railway are three notable hill lines that use narrow gauge, but the Nilgiri Mountain Railway is a metre gauge track. These four rail lines will not be converted under the Unigauge project.
The share of broad gauge in the total route-kilometre has been steadily rising, increasing from 47% (25,258 route-km) in 1951 to 86% in 2012 whereas the share of metre gauge has declined from 45% (24,185 route-km) to 10% in the same period and the share of narrow gauges has decreased from 8% to 3%. About 24,891 route-km of Indian railways is electrified.
Sleepers (ties) are made up of prestressed concrete, or steel or cast iron posts, though teak sleepers are still in use on a few older lines. The prestressed concrete sleeper is in wide use today. Metal sleepers were extensively used before the advent of concrete sleepers. Indian Railways divides the country into four zones on the basis of the range of track temperature. The greatest temperature variations occur in Rajasthan.
RESEARCH AND DEVELOPMENT
Indian Railways has a full-fledged organisation known as Research Designs and Standards Organisation (RDSO), located at Lucknow for all research, designs and standardisation tasks.
In August 2013, Indian Railways entered into a partnership with Indian Institute of Technology (Madras) to develop technology to tap solar energy for lighting and air-conditioning in the coaches. This would significantly reduce the fossil fuel dependency for Indian Railways.
Recently it developed and tested the Improved Automated Fire Alarm System in Rajdhani Express Trains. It is intended that the system be applied to AC coaches of all regular trains.
CURRENT AND FUTURE DEVELOPMENTS
In recent years, Indian Railways has undertaken several initiatives to upgrade its ageing infrastructure and enhance its quality of service. The Indian government plans to invest ₹905000 crore (US$137 billion) to upgrade the railways by 2020.
TOILETS ON RAILWAYS
In 2014, Indian Railways and DRDO developed a bio-toilet to replace direct-discharge toilets, which are currently the primary type of toilet used in railway coaches. The direct discharge of human waste from trains onto the tracks corrodes rails, costing Indian Railways tens of millions of rupees a year in rail-replacement work. Flushing a bio-toilet discharges human waste into an underfloor holding tank where anaerobic bacteria remove harmful pathogens and break the waste down into neutral water and methane. These harmless by-products can then be safely discharged onto the tracks without causing corrosion or foul odours. As part of its "Swachh Rail-Swachh Bharat" ("Clean Rail-Clean India") programme, Indian Railways plans to completely phase out direct-discharge toilets on its lines by 2020-2021. As of March 2015, 17,338 bio-toilets had been installed on newly built coaches, with all new coaches to have bio-toilets from 2016; older rolling stock will be retrofitted.
LOCOMOTIVE FACTORIES
In 2015, plans were disclosed for building two locomotive factories in the state of Bihar, at Madhepura (diesel locomotives) and at Marhowra (electric locomotives). Both factories involve foreign partnerships. The diesel locomotive works will be jointly operated in a partnership with General Electric, which has invested ₹2052 crore (US$310 million) for its construction, and the electric locomotive works with Alstom, which has invested ₹1293.57 crore (US$195 million). The factories will provide Indian Railways with 800 electric locomotives of 12,000 horse power each, and a mix of 1,000 diesel locomotives of 4,500 and 6,000 horsepower each. In November 2015, further details of the ₹14656 crore (US$2 billion) partnership with GE were announced: Indian Railways and GE would engage in an 11-year joint venture in which GE would hold a majority stake of 74%. Under the terms of the joint venture, Indian Railways would purchase 100 goods locomotives a year for 10 years beginning in 2017; the locomotives would be modified versions of the GE Evolution series. The diesel locomotive works will be built by 2018; GE will import the first 100 locomotives and manufacture the remaining 900 in India from 2019, also assuming responsibility for their maintenance over a 13-year period. In the same month, a ₹20000 crore (US$3 billion) partnership with Alstom to supply 800 electric locomotives from 2018 to 2028 was announced.
LINKS TO ADJACENT COUNTRIES
EXISTING RAIL LINKS
Nepal – Break-of-gauge – Gauge conversion under uni-gauge project
Pakistan – same Broad Gauge. Thar Express to Karachi and the more famous Samjhauta Express international train from Lahore, Pakistan to Amritsar (Attari).
Bangladesh – Same Broad Gauge. The Maitri Express between Dhaka and Kolkata started in April 2008 using the Gede-Darsana route, in addition to a Freight Train service from Singhabad and Petrapole in India to Rohanpur and Benapole in Bangladesh. A second passenger link between Agartala, India and Akhaura Upazila, Bangladesh was approved by the Government of Bangladesh and India in September 2011.
UNDER CONSTRUCTUION / PROPOSED LINKS
Bhutan – railways under construction – Same gauge
Myanmar – Manipur to Myanmar (under construction)
Vietnam – On 9 April 2010, Former Union Minister of India, Shashi Tharoor announced that the central government is considering a rail link from Manipur to Vietnam via Myanmar.
Thailand – possible if Burma Railway is rebuilt.
TYPES OF PASSENGER SERVICES
Trains are classified by their average speed. A faster train has fewer stops ("halts") than a slower one and usually caters to long-distance travel.
ACCOMODATION CLASSES
Indian Railways has several classes of travel with or without airconditioning. A train may have just one or many classes of travel. Slow passenger trains have only unreserved seating class whereas Rajdhani, Duronto, Shatabdi, garib rath and yuva trains have only airconditioned classes. The fares for all classes are different with unreserved seating class being the cheapest. The fare of Rajdhani, Duronto and Shatabdi trains includes food served in the train but the fare for other trains does not include food that has to be bought separately. In long-distance trains a pantry car is usually included and food is served at the berth or seat itself. Luxury trains such as Palace on Wheels have separate dining cars but these trains cost as much as or more than a five-star hotel room.
A standard passenger rake generally has four unreserved (also called "general") compartments, two at the front and two at the end, of which one may be exclusively for ladies. The exact number of other coaches varies according to the demand and the route. A luggage compartment can also exist at the front or the back. In some mail trains a separate mail coach is attached. Lavatories are communal and feature both the Indian style as well as the Western style.
The following table lists the classes in operation. A train may not have all these classes.
1A First class AC: This is the most expensive class, where the fares are almost at par with air fare. There are eight cabins (including two coupes) in the full AC First Class coach and three cabins (including one coupe) in the half AC First Class coach. The coach has an attendant to help the passengers. Bedding is included with the fare in IR. This air conditioned coach is present only on popular routes and can carry 18 passengers (full coach) or 10 passengers (half coach). The sleeper berths are extremely wide and spacious. The coaches are carpeted, have sleeping accommodation and have privacy features like personal coupes. This class is available on broad gauge and metre gauge trains.
2A AC-Two tier: These air-conditioned coaches have sleeping berths across eight bays. Berths are usually arranged in two tiers in bays of six, four across the width of the coach and two berths longways on the other side of the corridor, with curtains along the gangway or corridor. Bedding is included with the fare. A broad gauge coach can carry 48 passengers (full coach) or 20 passengers (half coach). This class is available on broad gauge and metre gauge trains.
FC First class: Same as 1AC but without air conditioning. No bedding is available in this class. The berths are wide and spacious. There is a coach attendant to help the passengers. This class has been phased out on most of the trains and is rare to find. However narrow gauge trains to hill stations have this class.
3A AC three tier: Air conditioned coaches with 64 sleeping berths. Berths are usually arranged as in 2AC but with three tiers across the width and two longways as before giving eight bays of eight. They are slightly less well-appointed, usually no reading lights or curtained off gangways. Bedding is included with fare. It carries 64 passengers in broad gauge. This class is available only on broad gauge.
3E AC three tier (Economy): Air conditioned coaches with sleeping berths, present in Garib Rath Trains. Berths are usually arranged as in 3AC but with three tiers across the width and three longways. They are slightly less well-appointed, usually no reading lights or curtained off gangways. Bedding is not included with fare.
CC AC chair car: An air-conditioned seater coach with a total of five seats in a row used for day travel between cities.
EC Executive class chair car: An air-conditioned coach with large spacious seats and legroom. It has a total of four seats in a row used for day travel between cities. This class of travel is only available on Shatabdi Express trains.
SL Sleeper class: The sleeper class is the most common coach on IR, and usually ten or more coaches could be attached. These are regular sleeping coaches with three berths vertically stacked. In broad gauge, it carries 72 passengers per coach.
2S Seater class: same as AC Chair car, without the air-conditioning. These may be reserved in advance or may be unreserved.
UR Unreserved: The cheapest accommodation. The seats are usually made up of pressed wood in older coaches but cushioned seats are found in new coaches. These coaches are usually over-crowded and a seat is not guaranteed. Tickets are issued in advance for a minimum journey of more than 24 hours. Tickets issued are valid on any train on the same route if boarded within 24 hours of buying the ticket.
At the rear of the train is a special compartment known as the guard's cabin. It is fitted with a transceiver and is where the guard usually gives the all clear signal before the train departs.
UNESCO WORLD HERITAGE SITES
There are two UNESCO World Heritage Sites on Indian Railways. – The Chatrapati Shivaji Terminus and the Mountain Railways of India. The latter consists of three separate railway lines located in different parts of India:
- Darjeeling Himalayan Railway, a narrow gauge railway in West Bengal.
- Nilgiri Mountain Railway, a 1,000 mm metre gauge railway in the Nilgiri Hills in Tamil Nadu.
- Kalka-Shimla Railway, a narrow gauge railway in the Shivalik mountains in Himachal Pradesh. In 2003 the railway was featured in the Guinness Book of World Records for offering the steepest rise in altitude in the space of 96 kilometre.
NOTABLE TRAINS
TOURIST TRAINS
Palace on Wheels is a specially designed luxury tourist train service, frequently hauled by a steam locomotive, for promoting tourism in Rajasthan. The train has a 7 nights & 8 days itinerary, it departs from New Delhi (Day 1), and covers Jaipur (Day 2), Sawai Madhopur and Chittaurgarh (Day 3), Udaipur (Day 4), Jaisalmer (Day 5), Jodhpur (Day 6), Bharatpur and Agra (Day 7), return to Delhi (Day 8).
Royal Rajasthan on Wheels a luxury tourist train service covers various tourist destinations in Rajasthan. The train takes tourists on a 7-day/8-night tour through Rajasthan. The train starts from New Delhi's Safdarjung railway station (Day 1), and has stops at Jodhpur (Day 2), Udaipur and Chittaurgarh (Day 3), Ranthambore National Park and Jaipur (Day 4), Khajuraho (Day 5), Varanasi and Sarnath (Day 6), Agra (Day 7) and back to Delhi (Day 8).
Maharaja Express a luxury train operated by IRCTC runs on five circuits covering more than 12 destinations across North-West and Central India, mainly centered around Rajasthan between the months of October to April.
Deccan Odyssey luxury tourist train service covers various tourist destinations in Maharashtra and Goa. The 7 Nights / 8 Days tour starts from Mumbai (Day 1) and covers Jaigad Fort, Ganapatipule and Ratnagiri (Day 2), Sindhudurg, Tarkarli and Sawantwadi (Day 3), Goa (Day 4), Kolhapur and Pune (Day 5), Aurangabad and Ellora Caves (Day 6), Ajanta Caves and Nashik (Day 7), and back to Mumbai (Day 8).
The Golden Chariot luxury train runs on two circuits Pride of the South and Splendor of the South.
Mahaparinirvan Express an a/c train service also known as Buddhist Circuit Train which is run by IRCTC to attract Buddhist pilgrims. The 7 nights/8 Days tour starts from New Delhi (Day 1) and covers Bodh Gaya (Day 2), Rajgir and Nalanda (Day 3), Varanasi and Sarnath (Day 4), Kushinagar and Lumbini (Day 5 and 6), Sravasti (Day 7), Taj Mahal (Agra) (Day 8) before returning to New Delhi on (Day 8).
OTHER TRAINS
- Samjhauta Express is a train that runs between India and Pakistan. However, hostilities between the two nations in 2001 saw the line being closed. It was reopened when the hostilities subsided in 2004. Another train connecting Khokhrapar (Pakistan) and Munabao (India) is the Thar Express that restarted operations on 18 February 2006; it was earlier closed down after the 1965 Indo-Pak war.
- Lifeline Express is a special train popularly known as the "Hospital-on-Wheels" which provides healthcare to the rural areas. This train has a carriage that serves as an operating room, a second one which serves as a storeroom and an additional two that serve as a patient ward. The train travels around the country, staying at a location for about two months before moving elsewhere.
- Fairy Queen is the oldest operating locomotive in the world today, though it is operated only for specials between Delhi and Alwar. John Bull, a locomotive older than Fairy Queen, operated in 1981 commemorating its 150th anniversary. Gorakhpur railway station also has the distinction of being the world's longest railway platform at 1,366 m. The Ghum station along the Darjeeling Toy Train route is the second highest railway station in the world to be reached by a steam locomotive. The Mumbai–Pune Deccan Queen has the oldest running dining car in IR.
- Vivek Express, between Dibrugarh and Kanyakumari, has the longest run in terms of distance and time on Indian Railways network. It covers 4,286 km in about 82 hours and 30 minutes.
- Bhopal Shatabdi Express is the fastest train in India today having a maximum speed of 160 km/h on the Faridabad–Agra section. The fastest speed attained by any train is 184 km/h in 2000 during test runs.
- Special Trains are those trains started by Indian Railways for any specific event or cause which includes Jagriti Yatra trains, Kumbh Mela Trains., emergency trains, etc.
- Double-decker AC trains have been introduced in India. The first double decker train was Pune-Mumbai Sinhagad express plying between Pune and Mumbai while the first double-decker AC train in the Indian Railways was introduced in November 2010, running between the Dhanbad and Howrah stations having 10 coaches and 2 power cars. On 16 April 2013, Indian Railways celebrated its 160 years of nationwide connectivity with a transportation of 23 million passengers in a day.
PROBLEMS AND ISSUES
Indian Railways is cash strapped and reported a loss of ₹30,000 crores (₹300bn) in the passenger segment for the year ending March 2014. Operating ratio, a key metric used by Indian railways to gauge financial health, is 91.8% in the year 2014-15. Railways carry a social obligation of over ₹20,000 crores (₹200bn $3.5bn). The loss per passenger-km increased to 23 paise by the end of March 2014. Indian Railways is left with a surplus cash of just ₹690 crores (₹6.9bn $115mn) by the end of March 2014.
It is estimated that over ₹ 5 lakh crores (₹5 trillion) (about $85 bn at 2014 exchange rates) is required to complete the ongoing projects alone. The railway is consistently losing market share to other modes of transport both in freight and passengers.
New railway line projects are often announced during the Railway Budget annually without securing additional funding for them. In the last 10 years, 99 New Line projects worth ₹ 60,000 crore (₹600bn) were sanctioned out of which only one project is complete till date, and there are four projects that are as old as 30 years, but are still not complete for one reason or another.
Sanjay Dina Patil a member of the Lok Sabha in 2014 said that additional tracks, height of platforms are still a problem and rise in tickets, goods, monthly passes has created an alarming situation where the common man is troubled.
WIKIPEDIA
There is an Atlas-F rocket on display at Kennedy Space Center with a dummy Agena stage on top. In reality, almost all Atlas-Agena rockets were “Atlas-D” models.
Atlas-Agena
The Atlas-Agena was an American expendable launch system derived from the SM-65 Atlas missile. It was a member of the Atlas family of rockets, and was launched 109 times between 1960 and 1978. It was used to launch the first five Mariner unmanned probes to the planets Venus and Mars, and the Ranger and Lunar Orbiter unmanned probes to the Moon. The upper stage was also used as an unmanned orbital target vehicle for the Gemini manned spacecraft to practice rendezvous and docking. However, the launch vehicle family was originally developed for the Air Force and most of its launches were classified DoD payloads.
The Atlas-Agena was a two-and-a-half-stage rocket, with a stage-and-a-half Atlas missile as the first stage, and an RM-81 Agena second stage. Initially, Atlas D missiles, re-designated as the LV-3, were used as the first stage. These were later replaced by the standardized Atlas SLV-3, and its derivatives, the SLV-3A and B. The final Atlas-Agena launch used an Atlas E/F.
The earliest Agena variant was the Agena A in 1959-60, which did not have restart capability. Most of these were flown on Thor-Agena boosters for the Discoverer program and only four used Atlases (Midas 1, Midas 2, Samos 1, and Samos 2), two of which failed.
Late in 1960, Lockheed introduced the uprated Agena B stage which was restartable and had longer propellant tanks for more burn time. It first flew on the Thor and did not make its maiden voyage on an Atlas for months, when Midas 3 launched on July 12, 1961. Atlas-Agenas were then used for DoD and NASA programs, but proved a reliability nightmare as one failure after another happened. In late 1962, after Ranger 5 suffered another booster malfunction (albeit a minor one that ground controllers were able to work around), NASA convened a review board which undertook a wholesale reevaluation of the Atlas-Agena as a launch vehicle. The board found that quality control and checkout procedures were poor, and that this situation was exacerbated by the several dozen configurations of the booster, as each individual DoD and NASA program necessitated custom modifications to the Atlas and Agena, and the latter also differed in its Atlas and Thor variants. The board recommended improved quality control, better hardware, and also establishing one standardized launch vehicle for all space programs.
The end result was the Atlas SLV-3 and Agena D, standardized versions of the Atlas D core and Agena B which would be the same on every launch (at least as far as the Atlas was concerned, Agena Ds often still had customized setups, especially for DoD payloads). The Agena D first flew in July 1963 for DoD launches, but NASA continued using Agena Bs for the remaining Ranger missions. The Atlas SLV-3 meanwhile first flew in August 1964. Dozens of Atlas SLV-3/Agena D boosters were flown over the following years, mostly for the KH-7 Gambit program, also for a few NASA missions. The last Atlas-Agena was flown in 1978 to launch SEASAT, but on a repurposed Atlas F missile rather than the SLV-3.
Launches were conducted from Launch Complexes 12, 13 and 14 at the Cape Canaveral Air Force Station, and Launch Complexes 1 and 2 at Point Arguello (now SLC-3 and 4 at Vandenberg Air Force Base).
•General Specifications
oFunction: Expendable launch system
oManufacturer: Convair; General Dynamics
oCountry of Origin: United States
•Size
oHeight: 118.0 feet (36.0 m)
oDiameter: 10.0 feet (3.0 m)
oWidth: 16.0 feet (4.9 m)
oMass: 341,000 pounds (155,000 kg)
oStages: 2½
•Capacity
oPayload to LEO: 2,200 pounds (1,000 kg)
oPayload to GEO: 1,540 pounds (700 kg)
oPayload to TLI: 850 pounds (390 kg)
oPayload to Escape: 575 pounds (261 kg)
•Launch History
oStatus: Retired
oLaunch Sites: LC-12, 13 & 14, CCAFS; SLC-3 & 4, Vandenberg
oTotal launches: 109
oSuccesses: 93
oFailures: 13
oPartial Failures: 3
oFirst Flight: February 26, 1960
oLast Flight: June 27, 1978
•Boosters
oNo. Boosters: 1
oWidth: 16.0 feet (4.9 m)
oEngines: 2
oThrust: 233,000 pounds-force (1,040 kN)
oBurn Time: 134 seconds
oFuel: RP-1/LOX
•First Stage
oDiameter: 10.0 feet (3.0 m)
oEngines: 1
oThrust: 67,000 pounds-force (300 kN)
oBurn Time: 5 minutes
oFuel: RP-1/LOX
•Second Stage – Agena D
oLength: 248 inches (6.3 m)
oDiameter: 5.0 feet (1.5 m)
oEngines: 1 Bell Aerospace 8247
oThrust: 16,000 pounds-force (71 kN)
oBurn Time: 265 seconds
oFuel: UDMH/IRFNA
Variants
•Atlas LV-3 Agena-A
oFirst Launch: 1960-02-26
oLast Launch: 1961-01-31
oLaunches: 4
oSuccesses: 2
oFailures: 2
oPartial Failures: 0
oRemarks: Early Atlas-Agena variant flown four times for the Midas and Samos programs
•Atlas LV-3 Agena-B
oFirst Launch: 1961-07-12
oLast Launch: 1965-03-21
oLaunches: 28
oSuccesses: 21
oFailures: 5
oPartial Failures: 2
oRemarks: Enhanced, restartable Agena. Used for a variety of NASA and Air Force programs, including Ranger, Mariner, Samos, and Midas.
•Atlas LV-3 Agena-D
oFirst Launch: 1963-07-12
oLast Launch: 1965-07-20
oLaunches: 15
oSuccesses: 15
oFailures: 0
oPartial Failures: 0
oRemarks: Standardized Agena B used for a variety of NASA and Air Force programs, including Ranger, Mariner, Midas, and Gambit.
•Atlas SLV-3 Agena-D
oFirst Launch: 1964-08-14
oLast Launch: 1967-11-05
oLaunches: 47
oSuccesses: 41
oFailures: 5
oPartial Failures: 1
oRemarks: Standardized SLV-3 Atlas+Agena D used for a variety of NASA and Air Force programs, including Mariner, Vela, and Gambit.
•Atlas SLV-3B Agena-D
oFirst Launch: 1966-04-08
oLast Launch: 1966-04-08
oLaunches: 1
oSuccesses: 1
oFailures: 0
oPartial Failures: 0
oRemarks: One-off Atlas variant used for the first OAO satellite.
•Atlas SLV-3 Agena-B
oFirst Launch: 1966-06-07
oLast Launch: 1966-06-07
oLaunches: 1
oSuccesses: 1
oFailures: 0
oPartial Failures: 0
oRemarks: One-off Atlas variant used for OAO-3
•Atlas SLV-3A Agena-D
oFirst Launch: 1968-03-04
oLast Launch: 1978-04-08
oLaunches: 12
oSuccesses: 11
oFailures: 1
oPartial Failures: 0
oRemarks: Extended tank Atlas. Used for OGO-5 and Canyon/Rhyolite SIGNIT satellites.
•Atlas E/F Agena D
oFirst Launch: 1978-06-27
oLast Launch: 1978-06-27
oLaunches: 1
oSuccesses: 1
oFailures: 0
oPartial Failures: 0
oRemarks: One-off Atlas variant mating the last Agena stage flown to a refurbished Atlas F missile for the launch of Seasat.
Destruct System
All Atlas-Agena vehicles contained an Inadvertent Separation Destruct System to destroy the Agena in the event that it separated prematurely from the Atlas, a situation that could be caused by a booster hard-over or if the Atlas self-destructed in flight. The ISDS charges were mounted on the adapter section between the two vehicles and would activate if a series of tripwires were broken. During the coasting period between staging, the ISDS charges were disabled. The Atlas’s own RSO charges were also wired so that they would destroy both vehicles if activated. Most Agenas also had their own separate RSO charges, although NASA planetary probes omitted them for weight-saving reasons and due to the flight trajectory used, which meant that destruct of the Agena was no longer possible following staging.
Two Atlas-Agena flights involved an intentional destruct of the Atlas (Mariner 1 and Canyon 4) while two others (Midas 6 and Midas 8) resulted in an ISDS destruction of the Agena following in-flight malfunction and self-destruct of the Atlas.
The Gemini-Agena Target Vehicle had a specially modified Range Safety destruct system designed to fire slugs into the propellant tanks rather than the conventional method of rupturing them externally, since an inadvertent activation of the RSO system in orbit could endanger the Gemini astronauts.
The very first Atlas-Agena flight, Midas 1 in February 1960, failed when the unproven ISDS system mistakenly activated at staging, rupturing the Atlas’s LOX tank and causing the breakup of the Agena. The ISDS system was redesigned afterwards and this failure mode did not repeat itself.
Production Launches
Ranger
Ranger block I spacecraft bus was used for the first two Rangers, and also for the first two Mariner interplanetary probes.
The Ranger spacecraft were designed to impact the Moon, returning photographs of the lunar surface until their destruction. The spacecraft was designed in three Blocks, all similar in appearance with a forward antenna and magnetometer, supported by a boom, with more sensors and two solar panels and a dish antenna mounted at the base. The first two Block I spacecraft, Ranger 1 and Ranger 2, were launched on August 23 and November 18, 1961, not to the Moon, but in intended high Earth orbits to test the Atlas-Agena and spacecraft capabilities. However, the Agena malfunctioned on both flights and left the probes trapped in a useless low Earth orbit from which they soon decayed.
The Block II missions, Ranger 3, Ranger 4, and Ranger 5, were launched away from Earth in January, April, and October 1962, but all three failed due to either malfunctions of the probe or launch vehicle difficulties. Ranger 3 missed the Moon entirely. Ranger 4’s solar panels failed to deploy, and the navigation system failed, sending the probe to impact the lunar far side without returning any pictures or data. Ranger 5 suffered an unknown failure which deprived it of power, and it missed the Moon by 725 kilometers (391 nautical miles).
Ranger 6, launched January 30, 1964, successfully impacted the Moon but its cameras failed to return pictures. The last three Rangers were finally successful: Ranger 7 in July 1964, Ranger 8 in February 1965, and Ranger 9 in March 1965.
Mariner
The Mariner spacecraft were built by NASA’s Jet Propulsion Laboratory. Mariner 1 and Mariner 2 were twins, launched on July 22 and August 27, 1962, to fly by the planet Venus. The first two craft used the same spacecraft bus as the Block I Rangers, each weighing 446 pounds (202 kg) and instrumented to perform radiometric temperature measurements of the planet, and to measure interplanetary magnetic fields and particles. Mariner 1’s Atlas-Agena malfunctioned and went off course, requiring its destruction approximately 5 minutes after liftoff. Mariner 2 successfully made the 3½-month flight, becoming the first spacecraft to fly by another planet. It carried microwave and infrared radiometers, and sensors for cosmic dust, solar plasma and high-energy radiation, and magnetic fields.
Mariner 3 and Mariner 4 used a redesigned spacecraft bus weighing 575 pounds (261 kg), and were launched on November 5 and November 28, 1964 to fly by the planet Mars. Mariner 3 failed after a successful launch when its payload shroud failed to open. These Mariners carried cameras, and Mariner 4 successfully returned pictures of Mars as it flew by.
The 540-pound (240 kg) Mariner 5 was successfully launched to Venus on June 14, 1967 and flew by in October, probing Venus’ atmosphere with radio waves, scanning its brightness in ultraviolet light, and sampling solar particles and magnetic field fluctuations above the planet.
Gemini
The Agena rocket stage was used as the passive docking target for the Gemini manned space program. After docking, the Agena could also be fired by the astronauts to raise the combined Gemini-Agena spacecraft into a higher orbit. The first attempt at such a docking mission was made for the Gemini 6 mission on October 25, 1965, but the Agena suffered an engine failure and did not reach orbit. This forced postponement and replanning of the Gemini 6A mission, which performed rendezvous with Gemini 7 without docking.
The GATV was first successfully launched for Gemini 8 on March 16, 1966, permitting the first successful docking in space. GATV-8 was later used as the secondary Agena target for Gemini 10, which also docked with its own GATV. GATV-9 failed to orbit when the Atlas suffered a control malfunction, forcing a similar reschedule of the Gemini 9A mission using a backup Augmented Target Docking Adapter atop an Atlas, but with no Agena rocket stage. Two more GATVs were successfully launched and used on Gemini 11 and Gemini 12.
Lunar Orbiter
A series of five Lunar Orbiter spacecraft were launched from August 1966 through August 1967, to help select landing sites for the Apollo manned lunar landing program by mapping the Moon’s surface. Each spacecraft weighed 850 pounds (390 kg) and was 4.9 feet (1.5 m) in diameter, minus the four extended solar panels. All launches were successful, and a total of 99 percent of the surface of the Moon (near and far side) was mapped with resolution as high as 3 ft. 3 in (1 meter). Altogether the Orbiters returned 2180 high resolution and 882 medium resolution frames. The spacecraft also carried micrometeroid sensors, which showed the average micro-meteoroid flux near the Moon to be two orders of magnitude greater than in interplanetary space, but slightly less than the near-Earth environment.
OAO
Orbiting Astronomical Observatory was a series of NASA satellites flown between 1966 and 1972 for astronomy studies. The first OAO (launched April 8, 1966) used a one-off Atlas variant, mating an Agena D to the LV-3C variant of the Atlas and encased in a Centaur-type payload shroud. The remaining three launches used actual Atlas-Centaur vehicles.
ATS
Applications Technology Satellite was a series of NASA satellites flown in 1967-69 to perform various technology tests. Only the first ATS was launched on an Atlas-Agena, the remainder using Atlas-Centaurs. ATS-1 was a partial failure when the Agena failed to restart, leaving it in LEO.
OGO
Orbiting Geophysical Observatory was a series of NASA satellites flown between 1964 and 1969 for magnetosphere studies. These satellites used several different booster types, including Thor-Agenas. Five of them used Atlas-Agenas, and OGO 5 (launched March 4, 1968) was the sole civilian use of the Atlas SLV-3A Agena.
Midas
Missile Defense Alarm System was a series of Air Force satellites flown between 1960 and 1966 for infrared detection of ballistic missile exhaust plumes on Atlas-Agena A, B, and D. There were several failures and overall program performance was poor, but it would give way to the more successful DSP satellites.
Samos
Samos was a series of Air Force satellites flown between 1960 and 1962 for photoreconnaissance on Atlas-Agena A and B. There were several failures, including an on-pad explosion of an Atlas, and the program was cancelled at the end of 1962 without ever demonstrating any operational capability.
Gambit
KH-7 Gambit was a series of Air Force satellites flown between 1963 and 1966 for photoreconnaissance on Atlas-Agena D. Although there were a number of mission failures, Gambit overall was highly successful in comparison with the bungled Samos program and it returned high-value area reconnaissance of the USSR and China before giving way to KH-8 Gambit in 1967.
Rhyolite/Canyon
Rhyolite/Canyon was a series of Air Force satellites flown between 1968 and 1978 for SIGNIT intelligence on Atlas SLV-3A Agena. One Canyon mission failed when its Atlas went off course and had to be destroyed. These were the final launches of Atlas-Agena vehicles aside from the one-off Atlas F/Agena used to launch Seasat.
Vela
Vela consisted of two sets of Air Force satellites flown in 1964-65 to monitor Soviet compliance with the Nuclear Test Ban Treaty on Atlas-Agena Ds.
Snapshot
Snapshot was a one-off Air Force test of a nuclear satellite flown in 1965 on an Atlas-Agena D.
. . . this is the night-train from Chennai to Hyderabad. Duration: 15 hours - Ticket: 2 Euro!
________________________________________
Indian Railways (reporting mark IR) is an Indian state-owned enterprise, owned and operated by the Government of India through the Ministry of Railways. It is one of the world's largest railway networks comprising 115,000 km of track over a route of 65,808 km and 7,112 stations. In 2014-15, IR carried 8.397 billion passengers annually or more than 23 million passengers a day (roughly half of whom were suburban passengers) and 1058.81 million tons of freight in the year. On world level Ghaziabad is the largest manufacturer of Railway Engines. In 2014–2015 Indian Railways had revenues of ₹1634.50 billion (US$25 billion) which consists of ₹1069.27 billion (US$16 billion) from freight and ₹402.80 billion (US$6.1 billion) from passengers tickets.
Railways were first introduced to India in the year 1853 from Mumbai to Thane. In 1951 the systems were nationalised as one unit, the Indian Railways, becoming one of the largest networks in the world. IR operates both long distance and suburban rail systems on a multi-gauge network of broad, metre and narrow gauges. It also owns locomotive and coach production facilities at several places in India and are assigned codes identifying their gauge, kind of power and type of operation. Its operations cover twenty nine states and seven union territories and also provides limited international services to Nepal, Bangladesh and Pakistan.Indian Railways is the world's seventh largest commercial or utility employer, by number of employees, with over 1.334 million employees as of last published figures in 2013. As for rolling stock, IR holds over 245,267 Freight Wagons, 66,392 Passenger Coaches and 10,499 Locomotives (43 steam, 5,633 diesel and 4,823 electric locomotives). The trains have a 5 digit numbering system and runs 12,617 passenger trains and 7421 freight trains daily. As of 31 March 2013, 21,614 km (32.8%) of the total 65,808 km route length was electrified. Since 1960, almost all electrified sections on IR use 25,000 Volt AC traction through overhead catenary delivery.
HISTORY
The history of rail transport in India began in the mid-nineteenth century. The core of the pressure for building Railways In India came from London. In 1848, there was not a single kilometre of railway line in India. The country's first railway, built by the Great Indian Peninsula Railway (GIPR), opened in 1853, between Bombay and Thane. A British engineer, Robert Maitland Brereton, was responsible for the expansion of the railways from 1857 onwards. The Allahabad-Jabalpur branch line of the East Indian Railway had been opened in June 1867. Brereton was responsible for linking this with the GIPR, resulting in a combined network of 6,400 km. Hence it became possible to travel directly from Bombay to Calcutta. This route was officially opened on 7 March 1870 and it was part of the inspiration for French writer Jules Verne's book Around the World in Eighty Days. At the opening ceremony, the Viceroy Lord Mayo concluded that "it was thought desirable that, if possible, at the earliest possible moment, the whole country should be covered with a network of lines in a uniform system".
By 1875, about £95 million were invested by British companies in India. Guaranteed railways. By 1880 the network had a route mileage of about 14,500 km, mostly radiating inward from the three major port cities of Bombay, Madras and Calcutta. By 1895, India had started building its own locomotives, and in 1896, sent engineers and locomotives to help build the Uganda Railways.
In 1900, the GIPR became a government owned company. The network spread to the modern day states of Assam, Rajputhana and Madras Presidency and soon various autonomous kingdoms began to have their own rail systems. In 1905, an early Railway Board was constituted, but the powers were formally vested under Lord Curzon. It served under the Department of Commerce and Industry and had a government railway official serving as chairman, and a railway manager from England and an agent of one of the company railways as the other two members. For the first time in its history, the Railways began to make a profit.
In 1907 almost all the rail companies were taken over by the government. The following year, the first electric locomotive made its appearance. With the arrival of World War I, the railways were used to meet the needs of the British outside India. With the end of the war, the railways were in a state of disrepair and collapse. Large scale corruption by British officials involved in the running of these railways companies was rampant. Profits were never reinvested in the development of British colonial India.
In 1920, with the network having expanded to 61,220 km, a need for central management was mooted by Sir William Acworth. Based on the East India Railway Committee chaired by Acworth, the government took over the management of the Railways and detached the finances of the Railways from other governmental revenues.
The period between 1920 and 1929, was a period of economic boom; there were 66,000 km of railway lines serving the country; the railways represented a capital value of some 687 million sterling; and they carried over 620 million passengers and approximately 90 million tons of goods each year. Following the Great Depression, the railways suffered economically for the next eight years. The Second World War severely crippled the railways. Starting 1939, about 40% of the rolling stock including locomotives and coaches was taken to the Middle East, the railways workshops were converted to ammunitions workshops and many railway tracks were dismantled to help the Allies in the war. By 1946, all rail systems had been taken over by the government.
ORGANISATIONAL STRUCTURE
RAILWAY ZONES
Indian Railways is divided into 16 zones, which are further sub-divided into divisions. The number of zones in Indian Railways increased from six to eight in 1951, nine in 1966 and seventeen in 2003. Each zonal railway is made up of a certain number of divisions, each having a divisional headquarters. There are a total of sixty-eight divisions.
Each zone is headed by a general manager, who reports directly to the Railway Board. The zones are further divided into divisions, under the control of divisional railway managers (DRM). The divisional officers, of engineering, mechanical, electrical, signal and telecommunication, accounts, personnel, operating, commercial, security and safety branches, report to the respective Divisional Railway Manager and are in charge of operation and maintenance of assets. Further down the hierarchy tree are the station masters, who control individual stations and train movements through the track territory under their stations' administration.
RECRUITMENT AND TRAINING
Staff are classified into gazetted (Group 'A' and 'B') and non-gazetted (Group 'C' and 'D') employees. The recruitment of Group 'A' gazetted employees is carried out by the Union Public Service Commission through exams conducted by it. The recruitment to Group 'C' and 'D' employees on the Indian Railways is done through 20 Railway Recruitment Boards and Railway Recruitment Cells which are controlled by the Railway Recruitment Control Board (RRCB). The training of all cadres is entrusted and shared between six centralised training institutes.
ROLLING STOCK
LOCOMOTIVES
Locomotives in India consist of electric and diesel locomotives. The world's first CNG (Compressed Natural Gas) locomotives are also being used. Steam locomotives are no longer used, except in heritage trains. In India, locomotives are classified according to their track gauge, motive power, the work they are suited for and their power or model number. The class name includes this information about the locomotive. It comprises 4 or 5 letters. The first letter denotes the track gauge. The second letter denotes their motive power (Diesel or Alternating - on Electric) and the third letter denotes the kind of traffic for which they are suited (goods, passenger, Multi or shunting). The fourth letter used to denote locomotives' chronological model number. However, from 2002 a new classification scheme has been adopted. Under this system, for newer diesel locomotives, the fourth letter will denote their horsepower range. Electric locomotives don't come under this scheme and even all diesel locos are not covered. For them this letter denotes their model number as usual.In world level Ghaziabad is the largest manufacturer of Locomotive.
A locomotive may sometimes have a fifth letter in its name which generally denotes a technical variant or subclass or subtype. This fifth letter indicates some smaller variation in the basic model or series, perhaps different motors, or a different manufacturer. With the new scheme for classifying diesel locomotives (as mentioned above) the fifth item is a letter that further refines the horsepower indication in 100 hp increments: 'A' for 100 hp, 'B' for 200 hp, 'C' for 300 hp, etc. So in this scheme, a WDM-3A refers to a 3100 hp loco, while a WDM-3D would be a 3400 hp loco and WDM-3F would be 3600 hp loco.
Note: This classification system does not apply to steam locomotives in India as they have become non-functional now. They retained their original class names such as M class or WP class.
Diesel Locomotives are now fitted with Auxiliary Power Units which saves nearly 88% of Fuel during the idle time when train is not running.
GOODS WAGONS
The number of goods wagons was 205,596 on 31 March 1951 and reached the maximum number 405,183 on 31 March 1980 after which it started declining and was 239,321 on 31 March 2012. The number is far less than the requirement and the Indian Railways keeps losing freight traffic to road. Indian Railways carried 93 million tonnes of goods in 1950–51 and it increased to 1010 million tonnes in 2012–13.
However, its share in goods traffic is much lower than road traffic. In 1951, its share was 65% and the share of road was 35%. Now the shares have been reversed and the share of railways has declined to 30% and the share of road has increased to 70%.
PASSENGER COACHES
Indian railways has several types of passenger coaches.
Electric Multiple Unit (EMU) coaches are used for suburban traffic in large cities – mainly Mumbai, Chennai, Delhi, Kolkata, Pune, Hyderabad and Bangalore. These coaches numbered 7,793 on 31 March 2012. They have second class and first class seating accommodation.
The coaches used in Indian Railways are produced at Integral Coach Factory, Rail Coach Factory.Now,they are producing new LHB coaches.
Passenger coaches numbered 46,722 on 31 March 2012. Other coaches (luggage coach, parcel van, guard's coach, mail coach, etc.) numbered 6,560 on 31 March 2012.
FREIGHT
Indian Railways earns about 70% of its revenues from freight traffic (₹686.2 billion from freight and ₹304.6 billion from passengers in 2011–12). Most of its profits come from transporting freight, and this makes up for losses on passenger traffic. It deliberately keeps its passenger fares low and cross-subsidises the loss-making passenger traffic with the profit-making freight traffic.
Since the 1990s, Indian Railways has stopped single-wagon consignments and provides only full rake freight trains
Wagon types include:
BOXNHL
BOBYN
BCN
BCNHL
TECHNICAL DETAILS
TRACK AND GAUGE
Indian railways uses four gauges, the 1,676 mm broad gauge which is wider than the 1,435 mm standard gauge; the 1,000 mm metre gauge; and two narrow gauges, 762 mm and 610 mm. Track sections are rated for speeds ranging from 75 to 160 km/h.
The total length of track used by Indian Railways is about 115,000 km while the total route length of the network is 65,000 km. About 24,891 km or 38% of the route-kilometre was electrified, as of 31 March 2014.
Broad gauge is the predominant gauge used by Indian Railways. Indian broad gauge - 1,676 mm - is the most widely used gauge in India with 108,500 km of track length (94% of entire track length of all the gauges) and 59,400 km of route-kilometre (91% of entire route-kilometre of all the gauges).
In some regions with less traffic, the metre gauge (1,000 mm) is common, although the Unigauge project is in progress to convert all tracks to broad gauge. The metre gauge has about 5,000 km of track length (4% of entire track length of all the gauges) and 4,100 km of route-kilometre (7% of entire route-kilometre of all the gauges).
The Narrow gauges are present on a few routes, lying in hilly terrains and in some erstwhile private railways (on cost considerations), which are usually difficult to convert to broad gauge. Narrow gauges have 1,500 route-kilometre. The Kalka-Shimla Railway, the Kangra Valley Railway and the Darjeeling Himalayan Railway are three notable hill lines that use narrow gauge, but the Nilgiri Mountain Railway is a metre gauge track. These four rail lines will not be converted under the Unigauge project.
The share of broad gauge in the total route-kilometre has been steadily rising, increasing from 47% (25,258 route-km) in 1951 to 86% in 2012 whereas the share of metre gauge has declined from 45% (24,185 route-km) to 10% in the same period and the share of narrow gauges has decreased from 8% to 3%. About 24,891 route-km of Indian railways is electrified.
Sleepers (ties) are made up of prestressed concrete, or steel or cast iron posts, though teak sleepers are still in use on a few older lines. The prestressed concrete sleeper is in wide use today. Metal sleepers were extensively used before the advent of concrete sleepers. Indian Railways divides the country into four zones on the basis of the range of track temperature. The greatest temperature variations occur in Rajasthan.
RESEARCH AND DEVELOPMENT
Indian Railways has a full-fledged organisation known as Research Designs and Standards Organisation (RDSO), located at Lucknow for all research, designs and standardisation tasks.
In August 2013, Indian Railways entered into a partnership with Indian Institute of Technology (Madras) to develop technology to tap solar energy for lighting and air-conditioning in the coaches. This would significantly reduce the fossil fuel dependency for Indian Railways.
Recently it developed and tested the Improved Automated Fire Alarm System in Rajdhani Express Trains. It is intended that the system be applied to AC coaches of all regular trains.
CURRENT AND FUTURE DEVELOPMENTS
In recent years, Indian Railways has undertaken several initiatives to upgrade its ageing infrastructure and enhance its quality of service. The Indian government plans to invest ₹905000 crore (US$137 billion) to upgrade the railways by 2020.
TOILETS ON RAILWAYS
In 2014, Indian Railways and DRDO developed a bio-toilet to replace direct-discharge toilets, which are currently the primary type of toilet used in railway coaches. The direct discharge of human waste from trains onto the tracks corrodes rails, costing Indian Railways tens of millions of rupees a year in rail-replacement work. Flushing a bio-toilet discharges human waste into an underfloor holding tank where anaerobic bacteria remove harmful pathogens and break the waste down into neutral water and methane. These harmless by-products can then be safely discharged onto the tracks without causing corrosion or foul odours. As part of its "Swachh Rail-Swachh Bharat" ("Clean Rail-Clean India") programme, Indian Railways plans to completely phase out direct-discharge toilets on its lines by 2020-2021. As of March 2015, 17,338 bio-toilets had been installed on newly built coaches, with all new coaches to have bio-toilets from 2016; older rolling stock will be retrofitted.
LOCOMOTIVE FACTORIES
In 2015, plans were disclosed for building two locomotive factories in the state of Bihar, at Madhepura (diesel locomotives) and at Marhowra (electric locomotives). Both factories involve foreign partnerships. The diesel locomotive works will be jointly operated in a partnership with General Electric, which has invested ₹2052 crore (US$310 million) for its construction, and the electric locomotive works with Alstom, which has invested ₹1293.57 crore (US$195 million). The factories will provide Indian Railways with 800 electric locomotives of 12,000 horse power each, and a mix of 1,000 diesel locomotives of 4,500 and 6,000 horsepower each. In November 2015, further details of the ₹14656 crore (US$2 billion) partnership with GE were announced: Indian Railways and GE would engage in an 11-year joint venture in which GE would hold a majority stake of 74%. Under the terms of the joint venture, Indian Railways would purchase 100 goods locomotives a year for 10 years beginning in 2017; the locomotives would be modified versions of the GE Evolution series. The diesel locomotive works will be built by 2018; GE will import the first 100 locomotives and manufacture the remaining 900 in India from 2019, also assuming responsibility for their maintenance over a 13-year period. In the same month, a ₹20000 crore (US$3 billion) partnership with Alstom to supply 800 electric locomotives from 2018 to 2028 was announced.
LINKS TO ADJACENT COUNTRIES
EXISTING RAIL LINKS
Nepal – Break-of-gauge – Gauge conversion under uni-gauge project
Pakistan – same Broad Gauge. Thar Express to Karachi and the more famous Samjhauta Express international train from Lahore, Pakistan to Amritsar (Attari).
Bangladesh – Same Broad Gauge. The Maitri Express between Dhaka and Kolkata started in April 2008 using the Gede-Darsana route, in addition to a Freight Train service from Singhabad and Petrapole in India to Rohanpur and Benapole in Bangladesh. A second passenger link between Agartala, India and Akhaura Upazila, Bangladesh was approved by the Government of Bangladesh and India in September 2011.
UNDER CONSTRUCTUION / PROPOSED LINKS
Bhutan – railways under construction – Same gauge
Myanmar – Manipur to Myanmar (under construction)
Vietnam – On 9 April 2010, Former Union Minister of India, Shashi Tharoor announced that the central government is considering a rail link from Manipur to Vietnam via Myanmar.
Thailand – possible if Burma Railway is rebuilt.
TYPES OF PASSENGER SERVICES
Trains are classified by their average speed. A faster train has fewer stops ("halts") than a slower one and usually caters to long-distance travel.
ACCOMODATION CLASSES
Indian Railways has several classes of travel with or without airconditioning. A train may have just one or many classes of travel. Slow passenger trains have only unreserved seating class whereas Rajdhani, Duronto, Shatabdi, garib rath and yuva trains have only airconditioned classes. The fares for all classes are different with unreserved seating class being the cheapest. The fare of Rajdhani, Duronto and Shatabdi trains includes food served in the train but the fare for other trains does not include food that has to be bought separately. In long-distance trains a pantry car is usually included and food is served at the berth or seat itself. Luxury trains such as Palace on Wheels have separate dining cars but these trains cost as much as or more than a five-star hotel room.
A standard passenger rake generally has four unreserved (also called "general") compartments, two at the front and two at the end, of which one may be exclusively for ladies. The exact number of other coaches varies according to the demand and the route. A luggage compartment can also exist at the front or the back. In some mail trains a separate mail coach is attached. Lavatories are communal and feature both the Indian style as well as the Western style.
The following table lists the classes in operation. A train may not have all these classes.
1A First class AC: This is the most expensive class, where the fares are almost at par with air fare. There are eight cabins (including two coupes) in the full AC First Class coach and three cabins (including one coupe) in the half AC First Class coach. The coach has an attendant to help the passengers. Bedding is included with the fare in IR. This air conditioned coach is present only on popular routes and can carry 18 passengers (full coach) or 10 passengers (half coach). The sleeper berths are extremely wide and spacious. The coaches are carpeted, have sleeping accommodation and have privacy features like personal coupes. This class is available on broad gauge and metre gauge trains.
2A AC-Two tier: These air-conditioned coaches have sleeping berths across eight bays. Berths are usually arranged in two tiers in bays of six, four across the width of the coach and two berths longways on the other side of the corridor, with curtains along the gangway or corridor. Bedding is included with the fare. A broad gauge coach can carry 48 passengers (full coach) or 20 passengers (half coach). This class is available on broad gauge and metre gauge trains.
FC First class: Same as 1AC but without air conditioning. No bedding is available in this class. The berths are wide and spacious. There is a coach attendant to help the passengers. This class has been phased out on most of the trains and is rare to find. However narrow gauge trains to hill stations have this class.
3A AC three tier: Air conditioned coaches with 64 sleeping berths. Berths are usually arranged as in 2AC but with three tiers across the width and two longways as before giving eight bays of eight. They are slightly less well-appointed, usually no reading lights or curtained off gangways. Bedding is included with fare. It carries 64 passengers in broad gauge. This class is available only on broad gauge.
3E AC three tier (Economy): Air conditioned coaches with sleeping berths, present in Garib Rath Trains. Berths are usually arranged as in 3AC but with three tiers across the width and three longways. They are slightly less well-appointed, usually no reading lights or curtained off gangways. Bedding is not included with fare.
CC AC chair car: An air-conditioned seater coach with a total of five seats in a row used for day travel between cities.
EC Executive class chair car: An air-conditioned coach with large spacious seats and legroom. It has a total of four seats in a row used for day travel between cities. This class of travel is only available on Shatabdi Express trains.
SL Sleeper class: The sleeper class is the most common coach on IR, and usually ten or more coaches could be attached. These are regular sleeping coaches with three berths vertically stacked. In broad gauge, it carries 72 passengers per coach.
2S Seater class: same as AC Chair car, without the air-conditioning. These may be reserved in advance or may be unreserved.
UR Unreserved: The cheapest accommodation. The seats are usually made up of pressed wood in older coaches but cushioned seats are found in new coaches. These coaches are usually over-crowded and a seat is not guaranteed. Tickets are issued in advance for a minimum journey of more than 24 hours. Tickets issued are valid on any train on the same route if boarded within 24 hours of buying the ticket.
At the rear of the train is a special compartment known as the guard's cabin. It is fitted with a transceiver and is where the guard usually gives the all clear signal before the train departs.
UNESCO WORLD HERITAGE SITES
There are two UNESCO World Heritage Sites on Indian Railways. – The Chatrapati Shivaji Terminus and the Mountain Railways of India. The latter consists of three separate railway lines located in different parts of India:
- Darjeeling Himalayan Railway, a narrow gauge railway in West Bengal.
- Nilgiri Mountain Railway, a 1,000 mm metre gauge railway in the Nilgiri Hills in Tamil Nadu.
- Kalka-Shimla Railway, a narrow gauge railway in the Shivalik mountains in Himachal Pradesh. In 2003 the railway was featured in the Guinness Book of World Records for offering the steepest rise in altitude in the space of 96 kilometre.
NOTABLE TRAINS
TOURIST TRAINS
Palace on Wheels is a specially designed luxury tourist train service, frequently hauled by a steam locomotive, for promoting tourism in Rajasthan. The train has a 7 nights & 8 days itinerary, it departs from New Delhi (Day 1), and covers Jaipur (Day 2), Sawai Madhopur and Chittaurgarh (Day 3), Udaipur (Day 4), Jaisalmer (Day 5), Jodhpur (Day 6), Bharatpur and Agra (Day 7), return to Delhi (Day 8).
Royal Rajasthan on Wheels a luxury tourist train service covers various tourist destinations in Rajasthan. The train takes tourists on a 7-day/8-night tour through Rajasthan. The train starts from New Delhi's Safdarjung railway station (Day 1), and has stops at Jodhpur (Day 2), Udaipur and Chittaurgarh (Day 3), Ranthambore National Park and Jaipur (Day 4), Khajuraho (Day 5), Varanasi and Sarnath (Day 6), Agra (Day 7) and back to Delhi (Day 8).
Maharaja Express a luxury train operated by IRCTC runs on five circuits covering more than 12 destinations across North-West and Central India, mainly centered around Rajasthan between the months of October to April.
Deccan Odyssey luxury tourist train service covers various tourist destinations in Maharashtra and Goa. The 7 Nights / 8 Days tour starts from Mumbai (Day 1) and covers Jaigad Fort, Ganapatipule and Ratnagiri (Day 2), Sindhudurg, Tarkarli and Sawantwadi (Day 3), Goa (Day 4), Kolhapur and Pune (Day 5), Aurangabad and Ellora Caves (Day 6), Ajanta Caves and Nashik (Day 7), and back to Mumbai (Day 8).
The Golden Chariot luxury train runs on two circuits Pride of the South and Splendor of the South.
Mahaparinirvan Express an a/c train service also known as Buddhist Circuit Train which is run by IRCTC to attract Buddhist pilgrims. The 7 nights/8 Days tour starts from New Delhi (Day 1) and covers Bodh Gaya (Day 2), Rajgir and Nalanda (Day 3), Varanasi and Sarnath (Day 4), Kushinagar and Lumbini (Day 5 and 6), Sravasti (Day 7), Taj Mahal (Agra) (Day 8) before returning to New Delhi on (Day 8).
OTHER TRAINS
- Samjhauta Express is a train that runs between India and Pakistan. However, hostilities between the two nations in 2001 saw the line being closed. It was reopened when the hostilities subsided in 2004. Another train connecting Khokhrapar (Pakistan) and Munabao (India) is the Thar Express that restarted operations on 18 February 2006; it was earlier closed down after the 1965 Indo-Pak war.
- Lifeline Express is a special train popularly known as the "Hospital-on-Wheels" which provides healthcare to the rural areas. This train has a carriage that serves as an operating room, a second one which serves as a storeroom and an additional two that serve as a patient ward. The train travels around the country, staying at a location for about two months before moving elsewhere.
- Fairy Queen is the oldest operating locomotive in the world today, though it is operated only for specials between Delhi and Alwar. John Bull, a locomotive older than Fairy Queen, operated in 1981 commemorating its 150th anniversary. Gorakhpur railway station also has the distinction of being the world's longest railway platform at 1,366 m. The Ghum station along the Darjeeling Toy Train route is the second highest railway station in the world to be reached by a steam locomotive. The Mumbai–Pune Deccan Queen has the oldest running dining car in IR.
- Vivek Express, between Dibrugarh and Kanyakumari, has the longest run in terms of distance and time on Indian Railways network. It covers 4,286 km in about 82 hours and 30 minutes.
- Bhopal Shatabdi Express is the fastest train in India today having a maximum speed of 160 km/h on the Faridabad–Agra section. The fastest speed attained by any train is 184 km/h in 2000 during test runs.
- Special Trains are those trains started by Indian Railways for any specific event or cause which includes Jagriti Yatra trains, Kumbh Mela Trains., emergency trains, etc.
- Double-decker AC trains have been introduced in India. The first double decker train was Pune-Mumbai Sinhagad express plying between Pune and Mumbai while the first double-decker AC train in the Indian Railways was introduced in November 2010, running between the Dhanbad and Howrah stations having 10 coaches and 2 power cars. On 16 April 2013, Indian Railways celebrated its 160 years of nationwide connectivity with a transportation of 23 million passengers in a day.
PROBLEMS AND ISSUES
Indian Railways is cash strapped and reported a loss of ₹30,000 crores (₹300bn) in the passenger segment for the year ending March 2014. Operating ratio, a key metric used by Indian railways to gauge financial health, is 91.8% in the year 2014-15. Railways carry a social obligation of over ₹20,000 crores (₹200bn $3.5bn). The loss per passenger-km increased to 23 paise by the end of March 2014. Indian Railways is left with a surplus cash of just ₹690 crores (₹6.9bn $115mn) by the end of March 2014.
It is estimated that over ₹ 5 lakh crores (₹5 trillion) (about $85 bn at 2014 exchange rates) is required to complete the ongoing projects alone. The railway is consistently losing market share to other modes of transport both in freight and passengers.
New railway line projects are often announced during the Railway Budget annually without securing additional funding for them. In the last 10 years, 99 New Line projects worth ₹ 60,000 crore (₹600bn) were sanctioned out of which only one project is complete till date, and there are four projects that are as old as 30 years, but are still not complete for one reason or another.
Sanjay Dina Patil a member of the Lok Sabha in 2014 said that additional tracks, height of platforms are still a problem and rise in tickets, goods, monthly passes has created an alarming situation where the common man is troubled.
The Postcard
A postcard bearing no publisher's name that was posted in Great Yarmouth on Thursday the 4th. September 1913 to:
Mr. A. Nimeth,
71, Pepys Road,
Wimbledon.
The unhappy message on the divided back of the card was as follows:
"Dr. Mr. N.,
This is the first fine day
I've had.
I'm returning on Saturday
afternoon - I've had enough.
Albert".
Great Yarmouth
Great Yarmouth is a seaside resort and minster town in Norfolk straddling the River Yare, 20 miles (30 km) east of Norwich. A population of 38,693 in the 2011 Census made it Norfolk's third most populous place.
Its fishing industry, mainly for herring, fell steeply after the mid-20th. century, and has all but vanished. North Sea oil from the 1960's brought an oil-rig supply industry that now services offshore natural gas rigs. More recent offshore wind power and other renewable energy have created further support services.
Yarmouth has been a seaside resort since 1760, and a gateway from the Norfolk Broads to the North Sea. Tourism was boosted when a railway opened in 1844, which gave visitors easier, cheaper access and triggered some settlement.
Wellington Pier opened in 1854 and Britannia Pier in 1858. Through the 20th. century, Yarmouth was a booming resort, with a promenade, pubs, trams, fish-and-chip shops and theatres.
There is also the Pleasure Beach, the Sea Life Centre, the Hippodrome Circus and the Time and Tide Museum, as well as a surviving Victorian seaside Winter Garden in cast iron and glass.
Great Yarmouth in the Past
The town was the site of a bridge disaster and drowning tragedy on the 2nd. May 1845, when a suspension bridge crowded with children collapsed killing 79. They had gathered to watch a clown in a barrel being pulled by geese down the river. As he passed under the bridge the weight shifted, causing the chains on the south side to snap, tipping over the bridge deck.
Great Yarmouth had an electric tramway system from 1902 to 1933. From the 1880's until the Great War, the town was a regular destination for Bass Excursions, when 15 trains would take 8000–9000 employees of Bass's Burton brewery on an annual trip to the seaside.
During the Great War, Great Yarmouth suffered the first aerial bombardment in the UK, by Zeppelin L3 on the 19th. January 1915. That same year on the 15th. August, Ernest Jehan became the first and only man to sink a steel submarine with a sail-rigged Q-ship, off the coast of Great Yarmouth.
Great Yarmouth was bombarded by the German Navy on the 24th. April 1916. The town also suffered Luftwaffe bombing during World War II because it was the last significant place Germans could drop bombs before returning home.
Nevertheless despite war damage, much is left of the old town, including the original 2,000-metre (1.2 mi) protective medieval wall, of which two-thirds has survived. Of the 18 towers, 11 are left.
On the South Quay is a 17th.-century Merchant's House, as well as Tudor, Georgian and Victorian buildings. Behind South Quay is a maze of alleys and lanes known as 'The Rows'. Originally there were 145. Despite bombing, several have remained.
Great Yarmouth was badly affected by the North Sea flood of 1953. More recent flooding has also been a problem, with four floods in 2006, the worst being in September. Torrential rain caused drains to block and an Anglian Water pumping station to break down. This caused flash flooding in which 90 properties were flooded up to a depth of 5 ft (1.5 m).
Great Yarmouth Sights and Amenities
The Tollhouse with its dungeons, dating from the late 13th. century, is one of Britain's oldest former jails and oldest civic buildings. Major sections of the medieval town walls survive around the parish cemetery and in parts of the old town.
Great Yarmouth Minster (The Minster Church of St Nicholas, founded in the 12th. century as an act of penance) stands in Church Plain, just off the market place. It is the third-largest parish church in England, after Beverley Minster in East Yorkshire and Christchurch Priory in Dorset.
Church Plain also has the 17th.-century timber-framed house, in which Anna Sewell (1820–1878), author of Black Beauty, was born.
The market place, one of the largest in England, has been operating since the 13th. century. It is also home to the town's shopping sector and the famous Yarmouth chip stalls. The smaller area south of the market is used as a performance area for community events.
The Scroby Sands Wind Farm of 30 generators is within sight of the seafront. Also visible are grey seals during their breeding season. The country's only full-time circus, the Hippodrome Circus, is just off the seafront.
The Two Piers
Great Yarmouth has two piers, Britannia Pier (which is Grade II listed) and Wellington Pier. The theatre building on the latter was demolished in 2005 and reopened in 2008 as a family entertainment centre, including a ten-pin bowling alley overlooking the beach.
Britannia Pier holds the Britannia Theatre, which during the summer has featured acts such as Jim Davidson, the comedian Jethro, Basil Brush, Cannon and Ball, Chubby Brown, the Chuckle Brothers and the Searchers. It is one of the few end-of-the pier theatres surviving in England.
The Winter Gardens
The Grade II listed Winter Gardens building sits next to the Wellington Pier. The cast iron, framed glass structure was shipped by barge from Torquay in 1903, purportedly without the loss of a single pane of glass. Over the years, it has been used as ballroom, roller skating rink and beer garden.
In the 1990's it was converted into a nightclub by Jim Davidson, and has since been used as a family leisure venue. It is currently (2020) closed. In the meantime it has been named by the Victorian Society as a heritage building at risk of disrepair.
The Marine Parade
Great Yarmouth's seafront, known as 'The Golden Mile' attracts millions of visitors each year to its sandy beaches, indoor and outdoor attractions and amusement arcades.
Great Yarmouth's Marine Parade has twelve Amusement Arcades within 2 square miles.Their names draw heavily on Las Vegas and include: The Flamingo, Circus Circus, The Golden Nugget, The Mint, The Silver Slipper, The Showboat, Magic City, Quicksilver and The Gold Rush.
In addition to the two piers, tourist attractions on Marine Parade include Joyland, Pirates' Cove Adventure Golf, Yesterday's World, the Marina Centre, Retroskate, the Arnold Palmer Putting Green, the Sea Life Centre, Merrivale Model Village and the Pleasure Beach and Gardens.
The Venetian Waterways
In August 2019, the Venetian Waterways and gardens re-opened. The waterways, running parallel to the main beach, were a feature constructed as a work-creation scheme in 1926–1928, consisting of canals and formal gardens, with rowing boats, pedalos and gondolas.
The waterways had been allowed to silt up, decay and become abandoned. With a grant from the Heritage Lottery Fund of £1.7 m and the labour of volunteers, the flowerbeds have been restored with 20,000 plants, and the 1920's cafe has been restored. That and the boat hire are being run by a social enterprise.
The Nelson Monument
The South Denes area is home to the Grade I listed Norfolk Naval Pillar, known locally as the Britannia Monument or Nelson's Monument. This tribute to Nelson was completed in 1819, 24 years before the completion of Nelson's Column in London. The monument, designed by William Wilkins, shows Britannia standing atop a globe holding an olive branch in her right hand and a trident in her left.
There is a popular assumption in the town that the statue of Britannia was supposed to face out to sea but now faces inland due to a mistake during construction, although it is thought she is meant to face Nelson's birthplace at Burnham Thorpe.
The monument was originally planned to mark Nelson's victory at the Battle of the Nile, but fund-raising was not completed until after his death, and it was instead dedicated to England's greatest naval hero. It is currently surrounded by an industrial estate but there are plans to improve the area.
Charles Dickens
Charles Dickens used Great Yarmouth as a key location in his novel David Copperfield and described the town as 'The finest place in the universe'. The author stayed at the Royal Hotel on the Marine Parade while writing the novel.
Great Yarmouth Museums
The Norfolk Nelson Museum on South Quay houses the Ben Burgess collection of Nelson memorabilia and is the only dedicated Nelson museum in Britain, other than one in Monmouth. Its several galleries look at Nelson's life and personality, and at what life was like for men who sailed under him.
The Time and Tide Museum in Blackfriars Road was nominated in the UK Museums Awards in 2005. It was built as part of a regeneration of the south of the town in 2003. Its location in an old herring smokery harks back to the town's status as a major fishing port.
Sections of the historic town wall stand opposite the museum, next to the Great Yarmouth Potteries, part of which is housed in another former smoke house. The town wall is among the most complete medieval town walls in the country, with 11 of the 18 original turrets still standing.
Other museums in the town include the National Trust's Elizabethan House, the Great Yarmouth Row Houses, managed by English Heritage, and the privately owned Blitz and Pieces, based on the Home Front during World War II.
Ernst August Wagner and a Mass Murder
So what else happened on the day that Albert posted the card?
Well, on the 4th. September 1913, Ernst August Wagner, a schoolteacher in the German village of Mühlhausen in Württemberg, murdered his wife, four local children and eleven other adults, after setting fires in different locations.
Mickey Cohen, American Gangster
The day also marked the birth in Brooklyn of Mickey Cohen, American gangster.
Meyer Harris "Mickey" Cohen was based in Los Angeles and boss of the Cohen crime family. He also had strong ties to the Italian-American Mafia from the 1930's through to the 1960's.
Mickey Cohen - The Early Years
Mickey Cohen was born into an Orthodox Jewish family living in the Brownsville section of Brooklyn. His mother Fanny, who had become widowed in September 1914, had emigrated from Kiev, Ukraine. Soon, however, Fanny moved her family to the Boyle Heights neighborhood of Los Angeles.
At the age of 6, Mickey was selling newspapers on the street. In 1922, petty crime landed Mickey in reform school.
As a teenager, Cohen began boxing in illegal prizefights in Los Angeles. In 1929, the 15-year-old moved from Los Angeles to Cleveland, Ohio, to train as a professional boxer. His first professional boxing match was on the 8th. April 1930, against Patsy Farr in Cleveland.
In a match on the 12th. June 1931, Cohen fought and lost against World Featherweight Champion Tommy Paul, having been knocked out cold after 2:20 into the first round. It was during this round he earned the moniker "Gangster Mickey Cohen".
During Prohibition, Cohen moved to Chicago and became involved in organized crime, working as an enforcer for the Chicago Outfit, where he briefly met Al Capone. During this period Cohen was arrested for his role in the deaths of several gangsters in a card game that went wrong.
After a brief time in prison, Cohen was released and began running card games and other illegal gambling operations. He later became an associate of Capone's younger brother, Mattie Capone. While working for Jake Guzik, Cohen was forced to flee Chicago after an argument with a rival gambler.
Mickey Cohen - The Later Years
In 1939, Cohen arrived in Los Angeles to work under "Bugsy" Siegel. During their association, Cohen helped set up the Flamingo Hotel in Las Vegas and ran its sports book operation. He also was instrumental in setting up the race wire, which was essential to Vegas betting. During this time, Cohen met prostitute Lavon Weaver, and the couple married in 1940.
In 1947, Siegel was murdered due to his mismanagement of the Flamingo Hotel, most likely because he was skimming money. According to one account, Cohen reacted violently to Siegel's murder.
Entering the Hotel Roosevelt, where he believed the killers were staying, Cohen fired rounds from his two .45 caliber semi-automatic handguns into the lobby ceiling and demanded that the assassins meet him outside in 10 minutes. However, no one appeared, and Cohen was forced to flee when the police arrived.
Cohen faced many attempts on his life, including the bombing of his home on posh Moreno Avenue in Brentwood. He converted his house into a fortress, installing floodlights, alarm systems, and a well-equipped arsenal kept, as he often joked, next to his 200 tailor-made suits.
Cohen briefly hired bodyguard Johnny Stompanato before Stompanato was killed by Cheryl Crane, the daughter of actress Lana Turner. Cohen bought a cheap coffin for Stompanato's funeral, and then gave to the press Turner's love letters to Stompanato.
By the mid-1950's Cohen had become an international celebrity. He ran floral shops, paint stores, nightclubs, casinos, gas stations, a men's haberdashery, and even drove an ice cream van on San Vicente Boulevard in the Brentwood section of Los Angeles.
Imprisonment of Mickey Cohen
In 1961, Cohen was convicted of tax evasion and sent to Alcatraz. He was the only prisoner ever bailed out of Alcatraz; his bond was signed by U.S. Supreme Court Chief Justice Earl Warren.
After his appeals failed, Cohen was sent to a federal prison in Atlanta, Georgia. His heavily armored Cadillac from this period was confiscated by the Los Angeles Police Department, and is now on display at the Southward Car Museum in New Zealand.
On August 14, 1963, during his time at the Atlanta Federal Penitentiary, inmate Burl Estes McDonald attempted to kill Cohen with a lead pipe.
In 1972, Cohen was released from the penitentiary, where he had spoken out against prison abuse. He had been misdiagnosed with an ulcer, which turned out to be stomach cancer. After undergoing surgery, he continued touring the United States and made television appearances.
Death of Mickey Cohen
Cohen died of stomach cancer aged 62 in his sleep on the 29th. July 1976, and is interred in the Hillside Memorial Park Cemetery in Culver City, California.
LEGAL NOTICE | protected work • All Rights reserved! © B. Egger photographer retains ownership and all copyrights in this work.
No use of this image is allowed without photographer’s express prior permission and subject to compensation • no work-for-hire
► licence | please contact me before to obtain prior a license and to buy the rights to use and publish this photo. A licensing usage agreed upon with Bernard Egger is the only usage granted. more..
photographer | ▻ Bernard Egger profile.. • collections.. • sets..
classic sports cars | vintage motorcycles | Oldtimer Grand Prix
location | Oppenberg-Straße, Styria 💚 Austria
📷 | 2004 BMW R 1200 CL :: rumoto images
----
If a photographer can’t feel what he is looking at, then he is never going to get others to feel anything when they look at his pictures.
:: Bernard Egger, BMW motorcycles, rumoto images, カメラマン, Мотоциклы и байкеры, 摩托, バイク, austroclassic, classic, Classic-Motorrad, Faszination, historic, historique, historisch, klassik, Leidenschaft,Cruiser, Moto, motocyclisme, Motorcycle, Motorcycles, Motorrad, Motorräder, Motorbike, Motocicletă, Мотоцикл, Motorcykel, Mootorratas, Moottoripyörä, Motosiklèt, Motorkerékpár, Motocikls, Motociklas, Motorsykkel, Motocykl, Motocicleta, Motocykel, Motosiklet, Motorrad-Klassik, passion, storiche, vintage, R 1200 CL, 1200CL, german, BMW, Boxer, german, Irdning, Ennstal, Grimming, Steiermark, Styria, Austria, Autriche, holidays, vacanze, Touring, Tours, Reisen, travelling, Pürgg, Trautenfels, Schloss Pichlarn, countryside, Woodcliff Lake, New Jersey, Phoenix, Euro, Montana Stiletto, luxury, touring-cruiser, luxury-touring, long-distance, Telelever, Paralever, Monolever, ABS, riding, ride, Pearl Silver Metallic, MoDiTec, diagnostic, drivetrain, top box, Topcase,
----
Woodcliff Lake, New Jersey, August 2002 ...
Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.
Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.
Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.
Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.
The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.
The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).
The R 1200 CL Engine: Gearing For The Long Haul
BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.
While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.
In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.
The CL Chassis: Wheeled Luggage Never Worked This Well
Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.
Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.
The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.
All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.
The CL Bodywork: Dressed To The Nines
Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).
The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.
Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.
Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.
Options & Accessories: More Personal Than A Monogram
Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.
Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.
----
☆ Bernard Egger :: rumoto images
differs from all the turkeys out there
TEIGN C Damen Stan 1405
IMO: - N/A
MMSI: 235082804
Call Sign: MWBM9
AIS Vessel Type: Dredger
GENERAL
DAMEN YARD NUMBER: 503705
Avelingen-West 20
4202 MS Gorinchem
The Netherlands
Phone: +31 (0)183 63 99 11
info@damen.com
DELIVERY DATE August 2001
BASIC FUNCTIONS Towing, mooring, pushing and dredging operations
FLAG United Kingdom [GB]
OWNED Teignmouth Harbour Commission
CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch
DIMENSIONS
LENGTH 14.40 m
BEAM 4.73 m
DEPTH AT SIDES 205 m
DRAUGHT AFT 171 m
DISPLACEMENT 48 ton
TANK CAPACITIES
Fuel oil 6.9 m³
PERFORMANCES (TRIALS)
BOLLARD PULL AHEAD 8.0 ton
SPEED 9.8 knots
PROPULSION SYSTEM
MAIN ENGINE 2x Caterpillar 3406C TA/A
TOTAL POWER 477 bmW (640i hp) at 1800 rpm
GEARBOX 2x Twin Disc MG 5091/3.82:1
PROPELLERS Bronze fixed pitch propeller
KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings
ENGINE CONTROL Kobelt
STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator
AUXILIARY EQUIPMENT
BILGE PUMP Sterling SIH 20, 32 m/hr
BATTERY SETS 2x 24V, 200 Ah + change over facility
COOLING SYSTEM Closed cooling system
ALARM SYSTEM Engines, gearboxes and bilge alarms
FRESH WATER PRESSURE SET Speck 24V
DECK LAY-OUT
ANCHORS 2x 48 kg Pool (HHP)
CHAIN 70 m, Ø 13mm, shortlink U2
ANCHOR WINCH Hand-operated
TOWING HOOK Mampaey, 15.3 ton SWL
COUPLING WINCH
PUSHBOW Cylindrical nubber fender Ø 380 mm
ACCOMMODATION
The wheelhouse ceiling and sides are insulated with mineral wool and
panelled. The wheelhouse floor is covered with rubber/synthetic floor
covering, make Bolidt, color blue The wheelhouse has one
helmsman seat, a bench and table with chair Below deck two berths, a
kitchen unit and a toilet space are arranged.
NAUTICAL AND COMMUNICATION EQUIPMENT
SEARCHLIGHT Den Haan 170 W 24 V
VHF RADIO Sailor RT 2048 25 W
NAVIGATION Navigation lights incl towing and pilot lights
Teignmouth Harbour Commission
The Harbour Commission is a Trust Port created by Statute.
The principal Order is the Teignmouth Harbour Order 1924
as amended by the Teignmouth Harbour Revision Order 2003
IMAGES | in touch with our passion...
* classic sports cars & classic motorcycles | the best european gallery there is...
* motorsport | 1000 Miglia - Ennstal-Classic - Erzbergrodeo - Red Bull photofiles
* landscapes & tourism | alpine and mediterranean landscapes - Europe
* panoramic shots | professional 3D multi row VR technic - 360° round shots
* Nikon-FX-Format | at the heart of the professional HQ image
view any of the most interesting photos... - our collections... and our sets...
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
motorcycle passion, historical motorcycles, Motorcycle, Zweirad, Kraftrad, Мотоциклы и байкеры, 摩托車, バイク, Motorbike, Motorrad, Moto, eu-moto, BMW, german, deutsche Motorräder, Boxer, european, Europe, Germany,
B. Egger's :: eu-moto - m o t o r c y c l e - p h o t o - g r o u p s
• MOTORCYCLE PHOTOS :: eu-moto - best photos there are...
• Oldtimer GRAND-PRIX Motorcycles • classic motorcycle racer
• IGFC Formel Classic • Salzburgring event photos
• CLASSIC VINTAGE MOTORCYCLES :: eu-moto - old iron
• TRIAL MOTORCYCLES... :: eu-moto
• ERZBERGRODEO • thoughest Enduro race
• RED BULL photofiles :: eu-moto
• BERGPREIS Tauplitzalm • Bad Mitterndorf, Styria
• BERGPREIS Planneralm • Donnersbach, Styria
• AMVC • Ausseerland Motor Veteranen Club
• STEYR PUCH • Vehicles ... and any more...
- - - - -
Woodcliff Lake, New Jersey, August 2002 ... Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.
Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.
Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.
Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.
The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.
The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).
The R 1200 CL Engine: Gearing For The Long Haul
BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.
While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.
In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.
The CL Chassis: Wheeled Luggage Never Worked This Well
Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.
Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.
The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.
All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.
The CL Bodywork: Dressed To The Nines
Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).
The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.
Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.
Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.
Options & Accessories: More Personal Than A Monogram
Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.
Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.
- - - - -
from the Hanna Herald:
Jackie Gold-Irwin
Hanna Herald, Wednesday, Dec 21, 2011
Months shy of it's 99th birthday the New National Hotel shut it's doors.
When it first opened on March 17, 1913 the building was state of the art. Three stories tall with 64 bedrooms, private electric lighting systems and plumbing and heating, the building was hailed as the "finest hotel" throughout the prairies in the Hanna Herald.
Its paint is now faded and chipped, its rooms long ago boarded up, until the only part of the hotel that remained in active use was the bar on the main floor.
In 1913 the Herald noted that the "L-shaped saloon, occupying the front portion of the west wing is one of the finest to be seen in Alberta."
In the early days there were two bars in the building. One for ladies and their escorts, and the other for the men to enjoy some downtime.
By 1967 the wall was torn down to create one large bar after changes to the provincial liquor laws.
Known as the Four Corners in the tourism industry, the intersection the National was built on contains all original buildings, and was once considered the "hub" of the financial district.
Opening night in 1913 saw guests turning up for "a grand ball" which was thrown by the management at the time.
The whole hotel was opened up to allow people to view the facility from top to bottom.
"Visitors for a distance expressed their surprise at seeing so magnificent a hotel in so young a town as Hanna," the paper noted.
"The building is a most substantial and modern structure and compares favourably with any hotel in the western provinces outside those of the larger cities, and does credit to this bustling young Alberta town."
At the time of construction the building had electricity throughout as well as an electric fire alarm system, which consisted of two eight inch gongs that rang simultaneously if need be.
There was even a call system that connected each room with the clerks office on the main floor, and plumbing and heating costing upwards of $5,000. A lot of money back then.
"The water supply is forced to all parts of the building by means of a pneumatic pressure tank which carries 100lbs of pressure regularly although as high as 350lbs may easily be obtained."
Less than a year after it opened the National switched hands, the second in a long line of new owners.
"Messrs Severyns and Staples purchased the building, and were considered "experienced" hotel men having been in the business for a number of years.
They purchased the building for approximately $75,000 according to the Herald in November 1913.
"The old management did everything possible for the comfort of the guests and the new proprietors, being experienced men, will give the public the same treatment," read the Herald.
The old owner of the National went on to start a new hotel at the corner of Main Street and Railway Ave, which would later become known as the Seymour Hotel.
The owner of the New National wasn't available for comment, however past patrons of the facility noted that it was sad to see the business slip away.
"It was sad to see the Nash close... there were a lot of good times had by all in there and lots of memories," noted Lindsey Godziuk on the Hanna Herald Facebook site.
She also noted that she feared the building would become another empty shell, like others that line Main Street.
. . . this is the night-train from Chennai to Hyderabad.
Duration: 15 hours - Ticket: 2 Euro!
________________________________________
Indian Railways (reporting mark IR) is an Indian state-owned enterprise, owned and operated by the Government of India through the Ministry of Railways. It is one of the world's largest railway networks comprising 115,000 km of track over a route of 65,808 km and 7,112 stations. In 2014-15, IR carried 8.397 billion passengers annually or more than 23 million passengers a day (roughly half of whom were suburban passengers) and 1058.81 million tons of freight in the year. On world level Ghaziabad is the largest manufacturer of Railway Engines. In 2014–2015 Indian Railways had revenues of ₹1634.50 billion (US$25 billion) which consists of ₹1069.27 billion (US$16 billion) from freight and ₹402.80 billion (US$6.1 billion) from passengers tickets.
Railways were first introduced to India in the year 1853 from Mumbai to Thane. In 1951 the systems were nationalised as one unit, the Indian Railways, becoming one of the largest networks in the world. IR operates both long distance and suburban rail systems on a multi-gauge network of broad, metre and narrow gauges. It also owns locomotive and coach production facilities at several places in India and are assigned codes identifying their gauge, kind of power and type of operation. Its operations cover twenty nine states and seven union territories and also provides limited international services to Nepal, Bangladesh and Pakistan.Indian Railways is the world's seventh largest commercial or utility employer, by number of employees, with over 1.334 million employees as of last published figures in 2013. As for rolling stock, IR holds over 245,267 Freight Wagons, 66,392 Passenger Coaches and 10,499 Locomotives (43 steam, 5,633 diesel and 4,823 electric locomotives). The trains have a 5 digit numbering system and runs 12,617 passenger trains and 7421 freight trains daily. As of 31 March 2013, 21,614 km (32.8%) of the total 65,808 km route length was electrified. Since 1960, almost all electrified sections on IR use 25,000 Volt AC traction through overhead catenary delivery.
HISTORY
The history of rail transport in India began in the mid-nineteenth century. The core of the pressure for building Railways In India came from London. In 1848, there was not a single kilometre of railway line in India. The country's first railway, built by the Great Indian Peninsula Railway (GIPR), opened in 1853, between Bombay and Thane. A British engineer, Robert Maitland Brereton, was responsible for the expansion of the railways from 1857 onwards. The Allahabad-Jabalpur branch line of the East Indian Railway had been opened in June 1867. Brereton was responsible for linking this with the GIPR, resulting in a combined network of 6,400 km. Hence it became possible to travel directly from Bombay to Calcutta. This route was officially opened on 7 March 1870 and it was part of the inspiration for French writer Jules Verne's book Around the World in Eighty Days. At the opening ceremony, the Viceroy Lord Mayo concluded that "it was thought desirable that, if possible, at the earliest possible moment, the whole country should be covered with a network of lines in a uniform system".
By 1875, about £95 million were invested by British companies in India. Guaranteed railways. By 1880 the network had a route mileage of about 14,500 km, mostly radiating inward from the three major port cities of Bombay, Madras and Calcutta. By 1895, India had started building its own locomotives, and in 1896, sent engineers and locomotives to help build the Uganda Railways.
In 1900, the GIPR became a government owned company. The network spread to the modern day states of Assam, Rajputhana and Madras Presidency and soon various autonomous kingdoms began to have their own rail systems. In 1905, an early Railway Board was constituted, but the powers were formally vested under Lord Curzon. It served under the Department of Commerce and Industry and had a government railway official serving as chairman, and a railway manager from England and an agent of one of the company railways as the other two members. For the first time in its history, the Railways began to make a profit.
In 1907 almost all the rail companies were taken over by the government. The following year, the first electric locomotive made its appearance. With the arrival of World War I, the railways were used to meet the needs of the British outside India. With the end of the war, the railways were in a state of disrepair and collapse. Large scale corruption by British officials involved in the running of these railways companies was rampant. Profits were never reinvested in the development of British colonial India.
In 1920, with the network having expanded to 61,220 km, a need for central management was mooted by Sir William Acworth. Based on the East India Railway Committee chaired by Acworth, the government took over the management of the Railways and detached the finances of the Railways from other governmental revenues.
The period between 1920 and 1929, was a period of economic boom; there were 66,000 km of railway lines serving the country; the railways represented a capital value of some 687 million sterling; and they carried over 620 million passengers and approximately 90 million tons of goods each year. Following the Great Depression, the railways suffered economically for the next eight years. The Second World War severely crippled the railways. Starting 1939, about 40% of the rolling stock including locomotives and coaches was taken to the Middle East, the railways workshops were converted to ammunitions workshops and many railway tracks were dismantled to help the Allies in the war. By 1946, all rail systems had been taken over by the government.
ORGANISATIONAL STRUCTURE
RAILWAY ZONES
Indian Railways is divided into 16 zones, which are further sub-divided into divisions. The number of zones in Indian Railways increased from six to eight in 1951, nine in 1966 and seventeen in 2003. Each zonal railway is made up of a certain number of divisions, each having a divisional headquarters. There are a total of sixty-eight divisions.
Each zone is headed by a general manager, who reports directly to the Railway Board. The zones are further divided into divisions, under the control of divisional railway managers (DRM). The divisional officers, of engineering, mechanical, electrical, signal and telecommunication, accounts, personnel, operating, commercial, security and safety branches, report to the respective Divisional Railway Manager and are in charge of operation and maintenance of assets. Further down the hierarchy tree are the station masters, who control individual stations and train movements through the track territory under their stations' administration.
RECRUITMENT AND TRAINING
Staff are classified into gazetted (Group 'A' and 'B') and non-gazetted (Group 'C' and 'D') employees. The recruitment of Group 'A' gazetted employees is carried out by the Union Public Service Commission through exams conducted by it. The recruitment to Group 'C' and 'D' employees on the Indian Railways is done through 20 Railway Recruitment Boards and Railway Recruitment Cells which are controlled by the Railway Recruitment Control Board (RRCB). The training of all cadres is entrusted and shared between six centralised training institutes.
ROLLING STOCK
LOCOMOTIVES
Locomotives in India consist of electric and diesel locomotives. The world's first CNG (Compressed Natural Gas) locomotives are also being used. Steam locomotives are no longer used, except in heritage trains. In India, locomotives are classified according to their track gauge, motive power, the work they are suited for and their power or model number. The class name includes this information about the locomotive. It comprises 4 or 5 letters. The first letter denotes the track gauge. The second letter denotes their motive power (Diesel or Alternating - on Electric) and the third letter denotes the kind of traffic for which they are suited (goods, passenger, Multi or shunting). The fourth letter used to denote locomotives' chronological model number. However, from 2002 a new classification scheme has been adopted. Under this system, for newer diesel locomotives, the fourth letter will denote their horsepower range. Electric locomotives don't come under this scheme and even all diesel locos are not covered. For them this letter denotes their model number as usual.In world level Ghaziabad is the largest manufacturer of Locomotive.
A locomotive may sometimes have a fifth letter in its name which generally denotes a technical variant or subclass or subtype. This fifth letter indicates some smaller variation in the basic model or series, perhaps different motors, or a different manufacturer. With the new scheme for classifying diesel locomotives (as mentioned above) the fifth item is a letter that further refines the horsepower indication in 100 hp increments: 'A' for 100 hp, 'B' for 200 hp, 'C' for 300 hp, etc. So in this scheme, a WDM-3A refers to a 3100 hp loco, while a WDM-3D would be a 3400 hp loco and WDM-3F would be 3600 hp loco.
Note: This classification system does not apply to steam locomotives in India as they have become non-functional now. They retained their original class names such as M class or WP class.
Diesel Locomotives are now fitted with Auxiliary Power Units which saves nearly 88% of Fuel during the idle time when train is not running.
GOODS WAGONS
The number of goods wagons was 205,596 on 31 March 1951 and reached the maximum number 405,183 on 31 March 1980 after which it started declining and was 239,321 on 31 March 2012. The number is far less than the requirement and the Indian Railways keeps losing freight traffic to road. Indian Railways carried 93 million tonnes of goods in 1950–51 and it increased to 1010 million tonnes in 2012–13.
However, its share in goods traffic is much lower than road traffic. In 1951, its share was 65% and the share of road was 35%. Now the shares have been reversed and the share of railways has declined to 30% and the share of road has increased to 70%.
PASSENGER COACHES
Indian railways has several types of passenger coaches.
Electric Multiple Unit (EMU) coaches are used for suburban traffic in large cities – mainly Mumbai, Chennai, Delhi, Kolkata, Pune, Hyderabad and Bangalore. These coaches numbered 7,793 on 31 March 2012. They have second class and first class seating accommodation.
The coaches used in Indian Railways are produced at Integral Coach Factory, Rail Coach Factory.Now,they are producing new LHB coaches.
Passenger coaches numbered 46,722 on 31 March 2012. Other coaches (luggage coach, parcel van, guard's coach, mail coach, etc.) numbered 6,560 on 31 March 2012.
FREIGHT
Indian Railways earns about 70% of its revenues from freight traffic (₹686.2 billion from freight and ₹304.6 billion from passengers in 2011–12). Most of its profits come from transporting freight, and this makes up for losses on passenger traffic. It deliberately keeps its passenger fares low and cross-subsidises the loss-making passenger traffic with the profit-making freight traffic.
Since the 1990s, Indian Railways has stopped single-wagon consignments and provides only full rake freight trains
Wagon types include:
BOXNHL
BOBYN
BCN
BCNHL
TECHNICAL DETAILS
TRACK AND GAUGE
Indian railways uses four gauges, the 1,676 mm broad gauge which is wider than the 1,435 mm standard gauge; the 1,000 mm metre gauge; and two narrow gauges, 762 mm and 610 mm. Track sections are rated for speeds ranging from 75 to 160 km/h.
The total length of track used by Indian Railways is about 115,000 km while the total route length of the network is 65,000 km. About 24,891 km or 38% of the route-kilometre was electrified, as of 31 March 2014.
Broad gauge is the predominant gauge used by Indian Railways. Indian broad gauge - 1,676 mm - is the most widely used gauge in India with 108,500 km of track length (94% of entire track length of all the gauges) and 59,400 km of route-kilometre (91% of entire route-kilometre of all the gauges).
In some regions with less traffic, the metre gauge (1,000 mm) is common, although the Unigauge project is in progress to convert all tracks to broad gauge. The metre gauge has about 5,000 km of track length (4% of entire track length of all the gauges) and 4,100 km of route-kilometre (7% of entire route-kilometre of all the gauges).
The Narrow gauges are present on a few routes, lying in hilly terrains and in some erstwhile private railways (on cost considerations), which are usually difficult to convert to broad gauge. Narrow gauges have 1,500 route-kilometre. The Kalka-Shimla Railway, the Kangra Valley Railway and the Darjeeling Himalayan Railway are three notable hill lines that use narrow gauge, but the Nilgiri Mountain Railway is a metre gauge track. These four rail lines will not be converted under the Unigauge project.
The share of broad gauge in the total route-kilometre has been steadily rising, increasing from 47% (25,258 route-km) in 1951 to 86% in 2012 whereas the share of metre gauge has declined from 45% (24,185 route-km) to 10% in the same period and the share of narrow gauges has decreased from 8% to 3%. About 24,891 route-km of Indian railways is electrified.
Sleepers (ties) are made up of prestressed concrete, or steel or cast iron posts, though teak sleepers are still in use on a few older lines. The prestressed concrete sleeper is in wide use today. Metal sleepers were extensively used before the advent of concrete sleepers. Indian Railways divides the country into four zones on the basis of the range of track temperature. The greatest temperature variations occur in Rajasthan.
RESEARCH AND DEVELOPMENT
Indian Railways has a full-fledged organisation known as Research Designs and Standards Organisation (RDSO), located at Lucknow for all research, designs and standardisation tasks.
In August 2013, Indian Railways entered into a partnership with Indian Institute of Technology (Madras) to develop technology to tap solar energy for lighting and air-conditioning in the coaches. This would significantly reduce the fossil fuel dependency for Indian Railways.
Recently it developed and tested the Improved Automated Fire Alarm System in Rajdhani Express Trains. It is intended that the system be applied to AC coaches of all regular trains.
CURRENT AND FUTURE DEVELOPMENTS
In recent years, Indian Railways has undertaken several initiatives to upgrade its ageing infrastructure and enhance its quality of service. The Indian government plans to invest ₹905000 crore (US$137 billion) to upgrade the railways by 2020.
TOILETS ON RAILWAYS
In 2014, Indian Railways and DRDO developed a bio-toilet to replace direct-discharge toilets, which are currently the primary type of toilet used in railway coaches. The direct discharge of human waste from trains onto the tracks corrodes rails, costing Indian Railways tens of millions of rupees a year in rail-replacement work. Flushing a bio-toilet discharges human waste into an underfloor holding tank where anaerobic bacteria remove harmful pathogens and break the waste down into neutral water and methane. These harmless by-products can then be safely discharged onto the tracks without causing corrosion or foul odours. As part of its "Swachh Rail-Swachh Bharat" ("Clean Rail-Clean India") programme, Indian Railways plans to completely phase out direct-discharge toilets on its lines by 2020-2021. As of March 2015, 17,338 bio-toilets had been installed on newly built coaches, with all new coaches to have bio-toilets from 2016; older rolling stock will be retrofitted.
LOCOMOTIVE FACTORIES
In 2015, plans were disclosed for building two locomotive factories in the state of Bihar, at Madhepura (diesel locomotives) and at Marhowra (electric locomotives). Both factories involve foreign partnerships. The diesel locomotive works will be jointly operated in a partnership with General Electric, which has invested ₹2052 crore (US$310 million) for its construction, and the electric locomotive works with Alstom, which has invested ₹1293.57 crore (US$195 million). The factories will provide Indian Railways with 800 electric locomotives of 12,000 horse power each, and a mix of 1,000 diesel locomotives of 4,500 and 6,000 horsepower each. In November 2015, further details of the ₹14656 crore (US$2 billion) partnership with GE were announced: Indian Railways and GE would engage in an 11-year joint venture in which GE would hold a majority stake of 74%. Under the terms of the joint venture, Indian Railways would purchase 100 goods locomotives a year for 10 years beginning in 2017; the locomotives would be modified versions of the GE Evolution series. The diesel locomotive works will be built by 2018; GE will import the first 100 locomotives and manufacture the remaining 900 in India from 2019, also assuming responsibility for their maintenance over a 13-year period. In the same month, a ₹20000 crore (US$3 billion) partnership with Alstom to supply 800 electric locomotives from 2018 to 2028 was announced.
LINKS TO ADJACENT COUNTRIES
EXISTING RAIL LINKS
Nepal – Break-of-gauge – Gauge conversion under uni-gauge project
Pakistan – same Broad Gauge. Thar Express to Karachi and the more famous Samjhauta Express international train from Lahore, Pakistan to Amritsar (Attari).
Bangladesh – Same Broad Gauge. The Maitri Express between Dhaka and Kolkata started in April 2008 using the Gede-Darsana route, in addition to a Freight Train service from Singhabad and Petrapole in India to Rohanpur and Benapole in Bangladesh. A second passenger link between Agartala, India and Akhaura Upazila, Bangladesh was approved by the Government of Bangladesh and India in September 2011.
UNDER CONSTRUCTUION / PROPOSED LINKS
Bhutan – railways under construction – Same gauge
Myanmar – Manipur to Myanmar (under construction)
Vietnam – On 9 April 2010, Former Union Minister of India, Shashi Tharoor announced that the central government is considering a rail link from Manipur to Vietnam via Myanmar.
Thailand – possible if Burma Railway is rebuilt.
TYPES OF PASSENGER SERVICES
Trains are classified by their average speed. A faster train has fewer stops ("halts") than a slower one and usually caters to long-distance travel.
ACCOMODATION CLASSES
Indian Railways has several classes of travel with or without airconditioning. A train may have just one or many classes of travel. Slow passenger trains have only unreserved seating class whereas Rajdhani, Duronto, Shatabdi, garib rath and yuva trains have only airconditioned classes. The fares for all classes are different with unreserved seating class being the cheapest. The fare of Rajdhani, Duronto and Shatabdi trains includes food served in the train but the fare for other trains does not include food that has to be bought separately. In long-distance trains a pantry car is usually included and food is served at the berth or seat itself. Luxury trains such as Palace on Wheels have separate dining cars but these trains cost as much as or more than a five-star hotel room.
A standard passenger rake generally has four unreserved (also called "general") compartments, two at the front and two at the end, of which one may be exclusively for ladies. The exact number of other coaches varies according to the demand and the route. A luggage compartment can also exist at the front or the back. In some mail trains a separate mail coach is attached. Lavatories are communal and feature both the Indian style as well as the Western style.
The following table lists the classes in operation. A train may not have all these classes.
1A First class AC: This is the most expensive class, where the fares are almost at par with air fare. There are eight cabins (including two coupes) in the full AC First Class coach and three cabins (including one coupe) in the half AC First Class coach. The coach has an attendant to help the passengers. Bedding is included with the fare in IR. This air conditioned coach is present only on popular routes and can carry 18 passengers (full coach) or 10 passengers (half coach). The sleeper berths are extremely wide and spacious. The coaches are carpeted, have sleeping accommodation and have privacy features like personal coupes. This class is available on broad gauge and metre gauge trains.
2A AC-Two tier: These air-conditioned coaches have sleeping berths across eight bays. Berths are usually arranged in two tiers in bays of six, four across the width of the coach and two berths longways on the other side of the corridor, with curtains along the gangway or corridor. Bedding is included with the fare. A broad gauge coach can carry 48 passengers (full coach) or 20 passengers (half coach). This class is available on broad gauge and metre gauge trains.
FC First class: Same as 1AC but without air conditioning. No bedding is available in this class. The berths are wide and spacious. There is a coach attendant to help the passengers. This class has been phased out on most of the trains and is rare to find. However narrow gauge trains to hill stations have this class.
3A AC three tier: Air conditioned coaches with 64 sleeping berths. Berths are usually arranged as in 2AC but with three tiers across the width and two longways as before giving eight bays of eight. They are slightly less well-appointed, usually no reading lights or curtained off gangways. Bedding is included with fare. It carries 64 passengers in broad gauge. This class is available only on broad gauge.
3E AC three tier (Economy): Air conditioned coaches with sleeping berths, present in Garib Rath Trains. Berths are usually arranged as in 3AC but with three tiers across the width and three longways. They are slightly less well-appointed, usually no reading lights or curtained off gangways. Bedding is not included with fare.
CC AC chair car: An air-conditioned seater coach with a total of five seats in a row used for day travel between cities.
EC Executive class chair car: An air-conditioned coach with large spacious seats and legroom. It has a total of four seats in a row used for day travel between cities. This class of travel is only available on Shatabdi Express trains.
SL Sleeper class: The sleeper class is the most common coach on IR, and usually ten or more coaches could be attached. These are regular sleeping coaches with three berths vertically stacked. In broad gauge, it carries 72 passengers per coach.
2S Seater class: same as AC Chair car, without the air-conditioning. These may be reserved in advance or may be unreserved.
UR Unreserved: The cheapest accommodation. The seats are usually made up of pressed wood in older coaches but cushioned seats are found in new coaches. These coaches are usually over-crowded and a seat is not guaranteed. Tickets are issued in advance for a minimum journey of more than 24 hours. Tickets issued are valid on any train on the same route if boarded within 24 hours of buying the ticket.
At the rear of the train is a special compartment known as the guard's cabin. It is fitted with a transceiver and is where the guard usually gives the all clear signal before the train departs.
UNESCO WORLD HERITAGE SITES
There are two UNESCO World Heritage Sites on Indian Railways. – The Chatrapati Shivaji Terminus and the Mountain Railways of India. The latter consists of three separate railway lines located in different parts of India:
- Darjeeling Himalayan Railway, a narrow gauge railway in West Bengal.
- Nilgiri Mountain Railway, a 1,000 mm metre gauge railway in the Nilgiri Hills in Tamil Nadu.
- Kalka-Shimla Railway, a narrow gauge railway in the Shivalik mountains in Himachal Pradesh. In 2003 the railway was featured in the Guinness Book of World Records for offering the steepest rise in altitude in the space of 96 kilometre.
NOTABLE TRAINS
TOURIST TRAINS
Palace on Wheels is a specially designed luxury tourist train service, frequently hauled by a steam locomotive, for promoting tourism in Rajasthan. The train has a 7 nights & 8 days itinerary, it departs from New Delhi (Day 1), and covers Jaipur (Day 2), Sawai Madhopur and Chittaurgarh (Day 3), Udaipur (Day 4), Jaisalmer (Day 5), Jodhpur (Day 6), Bharatpur and Agra (Day 7), return to Delhi (Day 8).
Royal Rajasthan on Wheels a luxury tourist train service covers various tourist destinations in Rajasthan. The train takes tourists on a 7-day/8-night tour through Rajasthan. The train starts from New Delhi's Safdarjung railway station (Day 1), and has stops at Jodhpur (Day 2), Udaipur and Chittaurgarh (Day 3), Ranthambore National Park and Jaipur (Day 4), Khajuraho (Day 5), Varanasi and Sarnath (Day 6), Agra (Day 7) and back to Delhi (Day 8).
Maharaja Express a luxury train operated by IRCTC runs on five circuits covering more than 12 destinations across North-West and Central India, mainly centered around Rajasthan between the months of October to April.
Deccan Odyssey luxury tourist train service covers various tourist destinations in Maharashtra and Goa. The 7 Nights / 8 Days tour starts from Mumbai (Day 1) and covers Jaigad Fort, Ganapatipule and Ratnagiri (Day 2), Sindhudurg, Tarkarli and Sawantwadi (Day 3), Goa (Day 4), Kolhapur and Pune (Day 5), Aurangabad and Ellora Caves (Day 6), Ajanta Caves and Nashik (Day 7), and back to Mumbai (Day 8).
The Golden Chariot luxury train runs on two circuits Pride of the South and Splendor of the South.
Mahaparinirvan Express an a/c train service also known as Buddhist Circuit Train which is run by IRCTC to attract Buddhist pilgrims. The 7 nights/8 Days tour starts from New Delhi (Day 1) and covers Bodh Gaya (Day 2), Rajgir and Nalanda (Day 3), Varanasi and Sarnath (Day 4), Kushinagar and Lumbini (Day 5 and 6), Sravasti (Day 7), Taj Mahal (Agra) (Day 8) before returning to New Delhi on (Day 8).
OTHER TRAINS
- Samjhauta Express is a train that runs between India and Pakistan. However, hostilities between the two nations in 2001 saw the line being closed. It was reopened when the hostilities subsided in 2004. Another train connecting Khokhrapar (Pakistan) and Munabao (India) is the Thar Express that restarted operations on 18 February 2006; it was earlier closed down after the 1965 Indo-Pak war.
- Lifeline Express is a special train popularly known as the "Hospital-on-Wheels" which provides healthcare to the rural areas. This train has a carriage that serves as an operating room, a second one which serves as a storeroom and an additional two that serve as a patient ward. The train travels around the country, staying at a location for about two months before moving elsewhere.
- Fairy Queen is the oldest operating locomotive in the world today, though it is operated only for specials between Delhi and Alwar. John Bull, a locomotive older than Fairy Queen, operated in 1981 commemorating its 150th anniversary. Gorakhpur railway station also has the distinction of being the world's longest railway platform at 1,366 m. The Ghum station along the Darjeeling Toy Train route is the second highest railway station in the world to be reached by a steam locomotive. The Mumbai–Pune Deccan Queen has the oldest running dining car in IR.
- Vivek Express, between Dibrugarh and Kanyakumari, has the longest run in terms of distance and time on Indian Railways network. It covers 4,286 km in about 82 hours and 30 minutes.
- Bhopal Shatabdi Express is the fastest train in India today having a maximum speed of 160 km/h on the Faridabad–Agra section. The fastest speed attained by any train is 184 km/h in 2000 during test runs.
- Special Trains are those trains started by Indian Railways for any specific event or cause which includes Jagriti Yatra trains, Kumbh Mela Trains., emergency trains, etc.
- Double-decker AC trains have been introduced in India. The first double decker train was Pune-Mumbai Sinhagad express plying between Pune and Mumbai while the first double-decker AC train in the Indian Railways was introduced in November 2010, running between the Dhanbad and Howrah stations having 10 coaches and 2 power cars. On 16 April 2013, Indian Railways celebrated its 160 years of nationwide connectivity with a transportation of 23 million passengers in a day.
PROBLEMS AND ISSUES
Indian Railways is cash strapped and reported a loss of ₹30,000 crores (₹300bn) in the passenger segment for the year ending March 2014. Operating ratio, a key metric used by Indian railways to gauge financial health, is 91.8% in the year 2014-15. Railways carry a social obligation of over ₹20,000 crores (₹200bn $3.5bn). The loss per passenger-km increased to 23 paise by the end of March 2014. Indian Railways is left with a surplus cash of just ₹690 crores (₹6.9bn $115mn) by the end of March 2014.
It is estimated that over ₹ 5 lakh crores (₹5 trillion) (about $85 bn at 2014 exchange rates) is required to complete the ongoing projects alone. The railway is consistently losing market share to other modes of transport both in freight and passengers.
New railway line projects are often announced during the Railway Budget annually without securing additional funding for them. In the last 10 years, 99 New Line projects worth ₹ 60,000 crore (₹600bn) were sanctioned out of which only one project is complete till date, and there are four projects that are as old as 30 years, but are still not complete for one reason or another.
Sanjay Dina Patil a member of the Lok Sabha in 2014 said that additional tracks, height of platforms are still a problem and rise in tickets, goods, monthly passes has created an alarming situation where the common man is troubled.
WIKIPEDIA
TEIGN C Damen Stan 1405
IMO: - N/A
MMSI: 235082804
Call Sign: MWBM9
AIS Vessel Type: Dredger
GENERAL
DAMEN YARD NUMBER: 503705
Avelingen-West 20
4202 MS Gorinchem
The Netherlands
Phone: +31 (0)183 63 99 11
info@damen.com
DELIVERY DATE August 2001
BASIC FUNCTIONS Towing, mooring, pushing and dredging operations
FLAG United Kingdom [GB]
OWNED Teignmouth Harbour Commission
CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch
DIMENSIONS
LENGTH 14.40 m
BEAM 4.73 m
DEPTH AT SIDES 205 m
DRAUGHT AFT 171 m
DISPLACEMENT 48 ton
TANK CAPACITIES
Fuel oil 6.9 m³
PERFORMANCES (TRIALS)
BOLLARD PULL AHEAD 8.0 ton
SPEED 9.8 knots
PROPULSION SYSTEM
MAIN ENGINE 2x Caterpillar 3406C TA/A
TOTAL POWER 477 bmW (640i hp) at 1800 rpm
GEARBOX 2x Twin Disc MG 5091/3.82:1
PROPELLERS Bronze fixed pitch propeller
KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings
ENGINE CONTROL Kobelt
STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator
AUXILIARY EQUIPMENT
BILGE PUMP Sterling SIH 20, 32 m/hr
BATTERY SETS 2x 24V, 200 Ah + change over facility
COOLING SYSTEM Closed cooling system
ALARM SYSTEM Engines, gearboxes and bilge alarms
FRESH WATER PRESSURE SET Speck 24V
DECK LAY-OUT
ANCHORS 2x 48 kg Pool (HHP)
CHAIN 70 m, Ø 13mm, shortlink U2
ANCHOR WINCH Hand-operated
TOWING HOOK Mampaey, 15.3 ton SWL
COUPLING WINCH
PUSHBOW Cylindrical nubber fender Ø 380 mm
ACCOMMODATION
The wheelhouse ceiling and sides are insulated with mineral wool and
panelled. The wheelhouse floor is covered with rubber/synthetic floor
covering, make Bolidt, color blue The wheelhouse has one
helmsman seat, a bench and table with chair Below deck two berths, a
kitchen unit and a toilet space are arranged.
NAUTICAL AND COMMUNICATION EQUIPMENT
SEARCHLIGHT Den Haan 170 W 24 V
VHF RADIO Sailor RT 2048 25 W
NAVIGATION Navigation lights incl towing and pilot lights
Teignmouth Harbour Commission
The Harbour Commission is a Trust Port created by Statute.
The principal Order is the Teignmouth Harbour Order 1924
as amended by the Teignmouth Harbour Revision Order 2003
LEGAL NOTICE © protected work • All Rights reserved! © Egger photographer retains ownership and all copyrights in this work.
No use of this image is allowed without photographer’s express prior permission and subject to compensation • no work-for-hire
► licence | please contact me before to obtain prior a license and to buy the rights to use and publish this photo. A licensing usage agreed upon with Bernard Egger is the only usage granted. more..
photographer | ▻ Bernard Egger profile.. • collections.. • sets..
classic sports cars | vintage motorcycles | Oldtimer Grand Prix
location | Styria 💚 AT
📷 | 2004 BMW R 1200 CL :: rumoto images
If a photographer can’t feel what he is looking at, then he is never going to get others to feel anything when they look at his pictures.
----
Woodcliff Lake, New Jersey, August 2002 ...
Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.
Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.
Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.
Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.
The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.
The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).
The R 1200 CL Engine: Gearing For The Long Haul
BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.
While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.
In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.
The CL Chassis: Wheeled Luggage Never Worked This Well
Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.
Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.
The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.
All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.
The CL Bodywork: Dressed To The Nines
Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).
The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.
Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.
Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.
Options & Accessories: More Personal Than A Monogram
Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.
Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.
----
☆ Bernard Egger :: rumoto images
differs from all the turkeys out there
The skill of the sign writer has to be admired; not only getting all the curving brushstrokes smooth, but setting out the sign on a large surface in the first place. And choosing a colour to match the alarm system!
LEGAL NOTICE | protected work • All Rights reserved © B. Egger photographer retains ownership and all copyrights in this work.
licence | please contact me before to obtain prior a license and to buy the rights to use and publish this photo. ▻ more..
photographer | ▻ Bernard Egger profile.. • collections.. • sets..
classic sports cars | vintage motorcycles | Oldtimer Grand Prix
location | Soelk Pass, Styria 💚 Austria
📷 | 2004 BMW R 1200 CL :: rumoto images # 5879
If a photographer can’t feel what he is looking at, then he is never going to get others to feel anything when they look at his pictures.
:: Bernard Egger, 写真家, カメラマン, 摄影师, rumoto images, фото, rфотограф, motoring, photography, Fotográfico, stunning, supershot, action, emotion, emotions, Faszination, classic, Classic-Motorrad, Leidenschaft, passion, Maschine, Moto, motocyclisme, Motorcycle, Motorcycles, Motorrad, Motorräder, Motorbike, Мотоциклы и байкеры, fine art, 摩托, バイク, 오토바이, Motocicletă, Мотоцикл, รถจักรยานยนต์, 摩托车, Motorcykel, Mootorratas, Moottoripyörä, Motosiklèt, Motorkerékpár, Motocikls, Motociklas, Motorsykkel, Motocykl, Motocicleta, Motocykel, Motosiklet, Sölkpaß, Soelk Pass, Styria, Austria, Австрия, Europe, BMW, BMW Motorcycles, Boxer, R1200CL, Cruiser, Tours, touring, travelling, Reisen, Motorradtour, alpine roads, Alpen, The Alps, Les Alpes, Le Alpi, Mountain Road, Bergstraße, Alpenpass,
---
Woodcliff Lake, New Jersey, August 2002 ...
Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.
Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.
Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.
Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.
The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.
The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).
The R 1200 CL Engine: Gearing For The Long Haul
BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.
While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.
In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.
The CL Chassis: Wheeled Luggage Never Worked This Well
Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.
Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.
The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.
All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.
The CL Bodywork: Dressed To The Nines
Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).
The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.
Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.
Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.
Options & Accessories: More Personal Than A Monogram
Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.
Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.
- - - - -
Der Luxus-Cruiser zum genußvollen Touren.
Die Motorradwelt war überrascht, als BMW Motorrad 1997 die R 1200 C, den ersten Cruiser in der Geschichte des Hauses, vorstellte. Mit dem einzigartigen Zweizylinder-Boxermotor und einem unverwechselbar eigenständigen Design gelang es auf Anhieb, sich in diesem bis dato von BMW nicht besetzten Marktsegment erfolgreich zu positionieren. Bisher wurden neben dem Basismodell R 1200 C Classic die technisch nahezu identischen Modellvarianten Avantgarde und Independent angeboten, die sich in Farbgebung, Designelementen und Ausstattungsdetails unterscheiden.
Zur Angebotserweiterung und zur Erschließung zusätzlicher Potenziale, präsentiert BMW Motorrad für das Modelljahr 2003 ein neues Mitglied der Cruiserfamilie, den Luxus-Cruiser R 1200 CL. Er wird seine Weltpremiere im September in München auf der INTERMOT haben und voraussichtlich im Herbst 2002 auf den Markt kommen. Der Grundgedanke war, Elemente von Tourenmotorrädern auf einen Cruiser zu übertragen und ein Motorrad zu entwickeln, das Eigenschaften aus beiden Fahrzeuggattungen aufweist.
So entstand ein eigenständiges Modell, ein Cruiser zum genussvollen Touren, bei dem in Komfort und Ausstattung keine Wünsche offen bleiben.
Als technische Basis diente die R 1200 C, von der aber im wesentlichen nur der Motor, der Hinterradantrieb, der Vorderrahmen, der Tank und einige Ausstattungsumfänge übernommen wurden. Ansonsten ist das Motorrad ein völlig eigenständiger Entwurf und in weiten Teilen eine Neuentwicklung.
Fahrgestell und Design:
Einzigartiges Gesicht, optische Präsenz und Koffer integriert.
Präsenz, kraftvoller Auftritt und luxuriöser Charakter, mit diesen Worten lässt sich die Wirkung der BMW R 1200 CL kurz und treffend beschreiben. Geprägt wird dieses Motorrad von der lenkerfesten Tourenverkleidung, deren Linienführung sich in den separaten seitlichen Verkleidungsteilen am Tank fortsetzt, so dass in der Seitenansicht fast der Eindruck einer integrierten Verkleidung entsteht. Sie bietet dem Fahrer ein hohes Maß an Komfort durch guten Wind- und Wetterschutz.
Insgesamt vier in die Verkleidung integrierte Scheinwerfer, zwei für das Abblendlicht und zwei für das Fernlicht, geben dem Motorrad ein unverwechselbares, einzigartiges Gesicht und eine beeindruckende optische Wirkung, die es so bisher noch bei keinem Motorrad gab. Natürlich sorgen die vier Scheinwerfer auch für eine hervorragende Fahrbahnausleuchtung.
Besonders einfallsreich ist die aerodynamische Gestaltung der Verkleidungsscheibe mit ihrem wellenartig ausgeschnittenen oberen Rand. Sie leitet die Strömung so, dass der Fahrer wirkungsvoll geschützt wird. Gleichzeitig kann man aber wegen des Einzugs in der Mitte ungehindert über die Scheibe hinwegschauen und hat somit unabhängig von Nässe und Verschmutzung der Scheibe ein ungestörtes Sichtfeld auf die Straße.
Zur kraftvollen Erscheinung des Motorrades passt der Vorderradkotflügel, der seitlich bis tief zur Felge heruntergezogen ist. Er bietet guten Spritzschutz und unterstreicht zusammen mit dem voluminösen Vorderreifen die Dominanz der Frontpartie, die aber dennoch Gelassenheit und Eleganz ausstrahlt.
Der gegenüber den anderen Modellen flacher gestellte Telelever hebt den Cruisercharakter noch mehr hervor. Der Heckbereich wird bestimmt durch die integrierten, fest mit dem Fahrzeug verbundenen Hartschalenkoffer und das abnehmbare Topcase auf der geschwungenen Gepäckbrücke, die zugleich als Soziushaltegriff dient. Koffer und Topcase sind jeweils in Fahrzeugfarbe lackiert und bilden somit ein harmonisches Ganzes mit dem Fahrzeug.
Akzente setzen auch die stufenförmig angeordneten breiten Komfortsitze für Fahrer und Beifahrer mit der charakteristischen hinteren Abstützung. Luxus durch exklusive Farben, edle Oberflächen und Materialien.
Die R 1200 CL wird zunächst in drei exklusiven Farben angeboten: perlsilber-metallic und capriblau-metallic mit jeweils schwarzen Sitzen und mojavebraun-metallic mit braunem Sitzbezug (wahlweise auch in schwarz). Die Eleganz der Farben wird unterstützt durch sorgfältige Materialauswahl und perfektes Finish von Oberflächen und Fugen. So ist zum Beispiel die Gepäckbrücke aus Aluminium-Druckguß gefertigt und in weissaluminium lackiert, der Lenker verchromt und die obere Instrumentenabdeckung ebenfalls weissaluminiumfarben lackiert. Die Frontverkleidung ist vollständig mit einer Innenabdeckung versehen, und die Kniepads der seitlichen Verkleidungsteile sind mit dem gleichen Material wie die Sitze überzogen.
All dies unterstreicht den Anspruch auf Luxus und Perfektion.
Antrieb jetzt mit neuem, leiserem Sechsganggetriebe - Boxermotor unverändert.
Während der Boxermotor mit 1170 cm³ unverändert von der bisherigen R 1200 C übernommen wurde - auch die Leistungsdaten sind mit 45 kW (61 PS) und 98 Nm Drehmoment bei 3 000 min-1 gleich geblieben -, ist das Getriebe der R 1200 CL neu. Abgeleitet von dem bekannten Getriebe der anderen Boxermodelle hat es jetzt auch sechs Gänge und wurde grundlegend überarbeitet. Als wesentliche Neuerung kommt eine sogenannte Hochverzahnung zum Einsatz. Diese sorgt für einen "weicheren" Zahneingriff und reduziert erheblich die Laufgeräusche der Verzahnung.
Der lang übersetzte, als "overdrive" ausgelegte, sechste Gang erlaubt drehzahlschonendes Fahren auf langen Etappen in der Ebene und senkt dort Verbrauch und Geräusch. Statt eines Schalthebels gibt es eine Schaltwippe für Gangwechsel mit einem lässigen Kick. Schaltkomfort, Geräuscharmut, niedrige Drehzahlen und dennoch genügend Kraft - Eigenschaften, die zum Genusscharakter des Fahrzeugs hervorragend passen.
Dass auch die R 1200 CL, wie jedes seit 1997 neu eingeführte BMW Motorrad weltweit, serienmäßig über die jeweils modernste Abgasreinigungstechnologie mit geregeltem Drei-Wege-Katalysator verfügt, muss fast nicht mehr erwähnt werden. Es ist bei BMW zur Selbstverständlichkeit geworden.
Fahrwerkselemente für noch mehr Komfort - Telelever neu und hinteres Federbein mit wegabhängiger Dämpfung.
Ein cruisertypisches Merkmal ist die nach vorn gestreckte Vorderradführung mit flachem Winkel zur Fahrbahn und großem Nachlauf. Dazu wurde für die R 1200 CL der nach wie vor einzigartige BMW Telelever neu ausgelegt.
Die Gabelholme stehen weiter auseinander, um dem bulligen, 150 mm breiten Vorderradreifen Platz zu bieten.
Für die Hinterradfederung kommt ein Federbein mit wegabhängiger Dämpfung zum Einsatz, das sich durch hervorragende Komforteigenschaften auszeichnet. Der Gesamtfederweg wuchs um 20 mm gegenüber den anderen Cruisermodellen auf jetzt 120 mm. Die Federbasisverstellung zur Anpassung an den Beladungszustand erfolgt hydraulisch über ein bequem zugängliches Handrad.
Hinterradschwinge optimiert und Heckrahmen neu.
Die Hinterradschwinge mit Hinterachsgehäuse, der BMW Monolever, wurde verstärkt und zur Aufnahme einer größeren Hinterradbremse angepasst.
Der verstärkte Heckrahmen ist vollständig neu, um Trittbretter, Kofferhalter, Gepäckbrücke und die neuen Sitze sowie die modifizierte Seitenstütze aufnehmen zu können. Der Vorderrahmen aus Aluminiumguss wurde mit geringfügigen Modifikationen von der bisherigen R 1200 C übernommen.
Räder aus Aluminiumguss, Sitze, Trittbretter und Lenker - alles neu.
Der optische Eindruck eines Motorrades wird ganz wesentlich auch von den Rädern bestimmt. Die R 1200 CL hat avantgardistisch gestaltete neue Gussräder aus Aluminium mit 16 Zoll (vorne) beziehungsweise 15 Zoll (hinten) Felgendurchmesser, die voluminöse Reifen im Format 150/80 vorne und 170/80 hinten aufnehmen.
Die Sitze sind für Fahrer und Beifahrer getrennt ausgeführt, um den unterschiedlichen Bedürfnissen gerecht zu werden. So ist der breite Komfortsattel für den Fahrer mit einer integrierten Beckenabstützung versehen und bietet einen hervorragenden Halt. Die Sitzhöhe beträgt 745 mm. Der Sitz für den Passagier ist ebenfalls ganz auf Bequemlichkeit ausgelegt und etwas höher als der Fahrersitz angeordnet. Dadurch hat der Beifahrer einen besseren Blick am Fahrer vorbei und kann beim Cruisen die Landschaft ungestört genießen.
Großzügige cruisertypische Trittbretter für den Fahrer tragen zum entspannten Sitzen bei. Die Soziusfußrasten, die von der K 1200 LT abgeleitet sind, bieten ebenfalls sehr guten Halt und ermöglichen zusammen mit dem günstigen Kniebeugewinkel auch dem Beifahrer ein ermüdungsfreies Touren.
Der breite, verchromte Lenker vermittelt nicht nur Cruiser-Feeling; Höhe und Kröpfungswinkel sind so ausgelegt, dass auch auf langen Fahrten keine Verspannungen auftreten. Handhebel und Schalter mit der bewährten und eigenständigen BMW Bedienlogik wurden unverändert von den anderen Modellen übernommen.
HighTech bei den Bremsen - BMW EVO-Bremse und als Sonderausstattung Integral ABS.
Sicherheit hat bei BMW traditionell höchste Priorität. Deshalb kommt bei der R 1200 CL die schon in anderen BMW Motorrädern bewährte EVO-Bremse am Vorderrad zum Einsatz, die sich durch eine verbesserte Bremsleistung auszeichnet. Auf Wunsch gibt es das einzigartige BMW Integral ABS, dem Charakter des Motorrades entsprechend in der Vollintegralversion. Das heißt, unabhängig ob der Hand- oder Fußbremshebel betätigt wird, immer wirkt die Bremskraft optimal auf beide Räder. Im Vorderrad verzögert eine Doppel-Scheibenbremse mit 305 mm Scheibendurchmesser und im Hinterrad die von der K 1200 LT übernommene Einscheiben-Bremsanlage mit einem Scheibendurchmesser von 285 mm.
Fortschrittliche Elektrik: Vierfach-Scheinwerfer, wartungsarme Batterie und elektronischer Tachometer.
Vier Scheinwerfer, je zwei für das Abblend- und Fernlicht, geben dem Motorrad von vorne ein einzigartiges prägnantes Gesicht. Durch die kreuzweise Anordnung - die Abblendscheinwerfer sitzen nebeneinander und die Fernscheinwerfer dazwischen und übereinander - wird eine hohe Signalwirkung bei Tag und eine hervorragende Fahrbahnausleuchtung bei Dunkelheit erzielt.
Neu ist die wartungsarme, komplett gekapselte Gel-Batterie, bei der kein Wasser mehr nachgefüllt werden muss. Eine zweite Steckdose ist serienmäßig. Die Instrumente sind ebenfalls neu. Drehzahlmesser und Tachometer sind elektronisch und die Zifferblätter neu gestaltetet, ebenso die Analoguhr.
Umfangreiche Sonderausstattung für Sicherheit, Komfort und individuellen Luxus.
Die Sonderausstattung der R 1200 CL ist sehr umfangreich und reicht vom BMW Integral ABS für sicheres Bremsen über Komfortausstattungen wie Temporegelung, heizbare Lenkergriffe und Sitzheizung bis hin zu luxuriöser Individualisierung mit Softtouchsitzen, Chrompaket und fernbedientem Radio mit CD-Laufwerk.
Let's get Yvette Fielding & Derek Acorah and have a seance...
What a laugh!! Derek Acorah couldn't make contact with the other side of a bedside table!!
If you have never seen it, "Most Haunted" is a TV show on Living TV in the UK where a film crew spend the night in a supposedly haunted place... They have seances, tip tables, wander around with beepy machines and other crap..
Then they turn off the lights and sit around making each other jump.
The funniest one was when three women were sat in a room screaming at a flashing red light.... It was a motion sensor for the alarm system.
DESCRIPTION:32.60m (107ft) Large Volume Sailing Yacht
DATE LAUNCHED:1991
LENGTH:32.60m (107ft)
BEAM:7.60m (24'11"ft)
DRAFT:3m (9'10"ft)
LOCATION:Auckland, New Zealand
BROKER:Clive Bennett
PRICE:USD 5 million
General Description:
Superyacht Eclipse: Eclipse is a 32.60m (107ft) large volume sailing yacht built by the Award winning Yard of Alloy Yachts in New Zealand and launched in 1991. This luxury vessel's sophisticated exterior design and engineering are by the renowned Dubois Naval Architects. With a recent major Refit the Yacht is presented in "as new" condition including new interior, new carbon Southern Spars mast, boom and much more. Additionally all technical areas have been either upgraded or refitted.
Eclipse is now ready for ‘sail away’ for worldwide cruising.
Price now Reduced as owner has recently launched a new Alloy Yachts vessel which also incorporates many of the ‘Eclipse’ features.
Accommodation
There is accommodation for Owner plus additional six guests in three cabins with ensuites. Owner’s stateroom has full width with queen size bed, seating area and en suite bathroom. Forward to port, cabin with double bed, settee and en suite bathroom. To starboard cabins with twin beds and en suite shower room. Forward of the engine room are the crew cabins with accommodation for four (or five) in one double cabin and one twin bunk cabin, each with en suite shower room. Crew mess area is also designed to convert into a single cabin with pipe cot.
Main Engine: MTU Model: 12V 183TA 61 HP: 600; KW: 447
Bow & Stern thrusters 70hp Richfields the Bow is telescopic and the stern is in a tunnel
Navigation:
Equipment including Autopilot: Simrad AP 50, Robinson control head and feedback system - New 2011
Compass/Gyro: Plastimo 150, Tokimel ES110 Gyro interfaced to all electronics - New 2011
GPS / plotter: Furuno WAAS Navigator DGPS 37, Magellan 3000 - New 2011
Radars: Furuno 96 Mile Black Box RADAR BB FAR 2117 New 2011
Furuno 48 Mile RADAR 1945 - New 2011
Displays: 2 x Planar 21.3 LCD with active Matrix, TFT, 1600 x 1200 High
Res Flat Screen Monitors - New 2011
Electronic Charts: Nobeltec Admiral 7.6 (Entire World Portfolio) with weather overlay, interfaced with comms systems and Fleet 77 New 2011 Log: B & G Super Halcyon System New - 2011
Depth sounder: B & G Super Halcyon System - New 2011
Wind speed + direction: B & G Super Halcyon System - New2011
Close-hauled and running: B & G Super Halcyon System - New 2011
Rudder indicator: VDO
Communication including:
Telephone: Panasonic Super Hybrid PABX, Telular SX4E GSM
VHF radio: Telephone:Simrad VHF RS87 (New 2011), 3x Icom handheld
SSB radio: telephone:Skanti TRP
Satcom:Sailor: / Thrane & Thrane FleetBroadBand 500 - New 2011
Sailor / Thrane & Thrane Imarsat C - New 2011
Computers: Advantech ARK-3390-1S6A1E with Transcend 2.5 Solid State Drive & LG Super Multi External DVD Rewriter - New 2011
Displays: 2 x Planar 21.3 LCD with active Matrix, TFT, 1600 x 1200 High
Res Flat Screen Monitors - New 2011
Alarm System: Custom Omron PLC alarm Monitoring System made for ECLIPSE
Mechanical Equipment:
Water Maker: Matrix Silver “A” 1000gpd
Air conditioning & heating: Marine Air with 2 compressors for all cabins
Electrical Equipment
Inverter: Lattronics 24v-110v
Batteries: 32 x 2V AGM, 4,000 amp hours
Battery charger:4 x Rectifier Technologies
Shore power:36KW A-SEA, 200-600V, 3phase Worldwide capability. A-SEA shore power electronics upgrade 2011.
Galley Equipment
Refrigerator: 2 x Hoshizaki
Freezer: 1 x Hoshizaki
Deep freezer:1 x Custom
Bottle cooler: 1 x Custom
Stove: Bosch 5 Burner Cooktop
Microwave: Kitchenaid
Oven:2 x Bosch
Dish washer: Miele
Washing machine: Miele
Dryer: Miele
Safety Equipment
Life raft: 2 x RFD 8 person
Life jackets: 12
Bilge alarm
Fire extinguishing system: Wormwald CO2 Automatic and Manual for engine room
Fire extinguishers: 8
EPIRB: ACR 406 Cospas RLB
Entertainment
TV: 1 x Sony 40 inch Flatscreen (Saloon) 1 x Sony 40 inch Flatscreen (Owners cabin) 2 x Sony 32inch Flatscreens (Guest cabins)
Audio/Video :
12 Terabyte iMuse Entertainment System with touch screen remotes, Space for 500 DVD’s and 2000 CD’s ,available to all cabins via RTI Technologies - Upgraded 2011
New Coastal 24 EURO Sat TV System.
Tenders & Toys
Tenders: 1 x 4.2m Zodiac RIB w/ 100hp Yamaha, 1 x 2.8m fold up Zodiax w/ 9hp Yamaha
Sailing dinghies: 2 x Laser dinghies
Diving gear: 6 tanks, masks and snorkels
4 x single man kayaks
2 x water skis
Additional facilities and upgrades:
2010/2011 Refit - major upgrades: New BSI Nitronic Standing Rigging complete including chain plate tangs and pins.
New OYS Stainless Steel Backstay and Boom Vang hydraulic rams.
New Reckmann Hydraulic Furl Motors on Genoa & Staysail including sail Foils. New Spectra and Dyneema Running Rigging complete.
New Aramid Running Backstays and 10 tonne Harken Flying check stay blocks.
New Doyle Stratis, Mainsail, Genoa & Staysail.
New Doyle Nylon, Black Gennaker. Complete Interior Paint in Mirotone.
Complete Headliner & lighting refurbishment.
New Teak panels on bulkheads with Madronna Burl and Silver Ash inlays / dado lines. New Teak and Silver Ash Sole through aft area steps and hallway.
New Carpets in Saloon and Cabins.
New Saloon & Cabin Sofa coverings.
New Saloon & Cabin soft furnishings.
New Sound Dampening acoustic tiles applied in bilges with full paint throughout.
ASEA Shore power upgrade.
New Marine Air Air-conditioning Chiller Plants and associated pumps and pipework. New Interior Air-conditioning Air-Handlers throughout entire vessel.
New Pilothouse Nav Station & Dash in Teak & Madronna Burl.
New Helm Station Monitor: ICP Electronics Inc. Industrial / Commercial 15 LCD DVI / VGA Flat Screen Monitor.
Furuno AIS FA-150 Universal AIS. Ericsson W35 GSM Quad Band. National WiFi LM124 Amplifier Brother Fax / Printer / Scanner MFC-685CW 2 x Pacific Micro Systems Data Multiplexas DM1210N 2 x Pacific Micro Systems Expanders DD20 Network Technologies Inc. 8 Port Video Matrix Switch Veemux. Adtran Netvanta 24 Port Ethernet Switch 1224 STR. Advantech ARK-3390-1S6A1E with Transcend 2.5 Solid State Drive & LG Super Multi External DVD Rewriter
**
Historically significant yacht, Alloy Yahts first yacht over 100'. With the first carbon-fibre mast and an efficient fully-battened mainsail, 32.6m Esprit featured the transfer of technology from America’s Cup design into the superyacht cruising domain.
TEIGN C Damen Stan 1405
IMO: - N/A
MMSI: 235082804
Call Sign: MWBM9
AIS Vessel Type: Dredger
GENERAL
DAMEN YARD NUMBER: 503705
Avelingen-West 20
4202 MS Gorinchem
The Netherlands
Phone: +31 (0)183 63 99 11
info@damen.com
DELIVERY DATE August 2001
BASIC FUNCTIONS Towing, mooring, pushing and dredging operations
FLAG United Kingdom [GB]
OWNED Teignmouth Harbour Commission
CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch
DIMENSIONS
LENGTH 14.40 m
BEAM 4.73 m
DEPTH AT SIDES 205 m
DRAUGHT AFT 171 m
DISPLACEMENT 48 ton
TANK CAPACITIES
Fuel oil 6.9 m³
PERFORMANCES (TRIALS)
BOLLARD PULL AHEAD 8.0 ton
SPEED 9.8 knots
PROPULSION SYSTEM
MAIN ENGINE 2x Caterpillar 3406C TA/A
TOTAL POWER 477 bmW (640i hp) at 1800 rpm
GEARBOX 2x Twin Disc MG 5091/3.82:1
PROPELLERS Bronze fixed pitch propeller
KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings
ENGINE CONTROL Kobelt
STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator
AUXILIARY EQUIPMENT
BILGE PUMP Sterling SIH 20, 32 m/hr
BATTERY SETS 2x 24V, 200 Ah + change over facility
COOLING SYSTEM Closed cooling system
ALARM SYSTEM Engines, gearboxes and bilge alarms
FRESH WATER PRESSURE SET Speck 24V
DECK LAY-OUT
ANCHORS 2x 48 kg Pool (HHP)
CHAIN 70 m, Ø 13mm, shortlink U2
ANCHOR WINCH Hand-operated
TOWING HOOK Mampaey, 15.3 ton SWL
COUPLING WINCH
PUSHBOW Cylindrical nubber fender Ø 380 mm
ACCOMMODATION
The wheelhouse ceiling and sides are insulated with mineral wool and
panelled. The wheelhouse floor is covered with rubber/synthetic floor
covering, make Bolidt, color blue The wheelhouse has one
helmsman seat, a bench and table with chair Below deck two berths, a
kitchen unit and a toilet space are arranged.
NAUTICAL AND COMMUNICATION EQUIPMENT
SEARCHLIGHT Den Haan 170 W 24 V
VHF RADIO Sailor RT 2048 25 W
NAVIGATION Navigation lights incl towing and pilot lights
Teignmouth Harbour Commission
The Harbour Commission is a Trust Port created by Statute.
The principal Order is the Teignmouth Harbour Order 1924
as amended by the Teignmouth Harbour Revision Order 2003
TEIGN C Damen Stan 1405
IMO: - N/A
MMSI: 235082804
Call Sign: MWBM9
AIS Vessel Type: Dredger
GENERAL
DAMEN YARD NUMBER: 503705
Avelingen-West 20
4202 MS Gorinchem
The Netherlands
Phone: +31 (0)183 63 99 11
info@damen.com
DELIVERY DATE August 2001
BASIC FUNCTIONS Towing, mooring, pushing and dredging operations
FLAG United Kingdom [GB]
OWNED Teignmouth Harbour Commission
CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch
DIMENSIONS
LENGTH 14.40 m
BEAM 4.73 m
DEPTH AT SIDES 205 m
DRAUGHT AFT 171 m
DISPLACEMENT 48 ton
TANK CAPACITIES
Fuel oil 6.9 m³
PERFORMANCES (TRIALS)
BOLLARD PULL AHEAD 8.0 ton
SPEED 9.8 knots
PROPULSION SYSTEM
MAIN ENGINE 2x Caterpillar 3406C TA/A
TOTAL POWER 477 bmW (640i hp) at 1800 rpm
GEARBOX 2x Twin Disc MG 5091/3.82:1
PROPELLERS Bronze fixed pitch propeller
KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings
ENGINE CONTROL Kobelt
STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator
AUXILIARY EQUIPMENT
BILGE PUMP Sterling SIH 20, 32 m/hr
BATTERY SETS 2x 24V, 200 Ah + change over facility
COOLING SYSTEM Closed cooling system
ALARM SYSTEM Engines, gearboxes and bilge alarms
FRESH WATER PRESSURE SET Speck 24V
DECK LAY-OUT
ANCHORS 2x 48 kg Pool (HHP)
CHAIN 70 m, Ø 13mm, shortlink U2
ANCHOR WINCH Hand-operated
TOWING HOOK Mampaey, 15.3 ton SWL
COUPLING WINCH
PUSHBOW Cylindrical nubber fender Ø 380 mm
ACCOMMODATION
The wheelhouse ceiling and sides are insulated with mineral wool and
panelled. The wheelhouse floor is covered with rubber/synthetic floor
covering, make Bolidt, color blue The wheelhouse has one
helmsman seat, a bench and table with chair Below deck two berths, a
kitchen unit and a toilet space are arranged.
NAUTICAL AND COMMUNICATION EQUIPMENT
SEARCHLIGHT Den Haan 170 W 24 V
VHF RADIO Sailor RT 2048 25 W
NAVIGATION Navigation lights incl towing and pilot lights
Teignmouth Harbour Commission
The Harbour Commission is a Trust Port created by Statute.
The principal Order is the Teignmouth Harbour Order 1924
as amended by the Teignmouth Harbour Revision Order 2003
All rights reserved © 2008 Bernard Egger :: rumoto images
Usage of our photographs is defined by the laws of copyright
NO RELEASE ! NO Creative Commons license | NO flickr API |
Canon EOS 40D - Tokina AT-X Fisheye 10-17 F3.5-4.5 DX -
1/125s, f/8, 13 mm, ISO100 +/- 0EV, 2008-07-16 15:48
- - - - -
BMW R 1200 CL - Woodcliff Lake, New Jersey, August 2002 ... Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.
Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.
Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.
Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.
The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.
The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).
The R 1200 CL Engine: Gearing For The Long Haul
BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.
While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.
In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.
The CL Chassis: Wheeled Luggage Never Worked This Well
Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.
Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.
The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.
All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.
The CL Bodywork: Dressed To The Nines
Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).
The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.
Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.
Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.
Options & Accessories: More Personal Than A Monogram
Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.
Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.
- - - - -
This 1899 Gamewell Fire Alarm System was telegraphic. Located in the Michigan Firehouse Museum in Ypsilanti, Michigan.
All rights reserved © 2008 Бернхард Эггер :: ru-moto images
Usage of our photographs is defined by the laws of copyright
NO RELEASE ! NO Creative Commons license | NO flickr API |
▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀▀
►my profile... |►collections.. |►sets.. |►facebook |►R 1200 CL
★ classic sports cars ★ motorcycles sports events ★ Mille Miglia | Ennstal-Classic ★ motorsports ★ Oldtimer GrandPrix ☆ Fine Art ★
Todos los derechos reservados • Tous droits réservés • Todos os direitos reservados • Все права защищены • Tutti i diritti riservati
► AGHET - The turkish genocide of the Armenians ◄
more: en.wikipedia.org/ - www.armenian-genocide.org
Canon EOS 40D - Tokina AT-X Fisheye 10-17 F3.5-4.5 DX -
1/60s, f/4, 14 mm, ISO100 +/- 0EV, 2008-07-10 12:51
- - - - -
BMW R 1200 CL - Woodcliff Lake, New Jersey, August 2002 ... Some people consider a six-day cruise as the perfect vacation. Other's might agree, as long as the days are marked by blurred fence posts and dotted lines instead of palm trees and ocean waves. For them, BMW introduces the perfect alternative to a deck chair - the R 1200 CL.
Motorcyclists were taken aback when BMW introduced its first cruiser in 1997, but the R 1200 C quickly rose to become that year's best-selling BMW. The original has since spawned several derivatives including the Phoenix, Euro, Montana and Stiletto. This year, BMW's cruiser forms the basis for the most radical departure yet, the R 1200 CL. With its standard integral hard saddlebags, top box and distinctive handlebar-mounted fairing, the CL represents twin-cylinder luxury-touring at its finest, a completely modern luxury touring-cruiser with a touch of classic BMW.
Although based on the R 1200 C, the new CL includes numerous key changes in chassis, drivetrain, equipment and appearance, specifically designed to enhance the R 1200's abilities as a long-distance mount. While it uses the same torquey, 1170cc 61-hp version of BMW's highly successful R259 twin, the CL backs it with a six-speed overdrive transmission. A reworked Telelever increases the bike's rake for more-relaxed high-speed steering, while the fork's wider spacing provides room for the sculpted double-spoke, 16-inch wheel and 150/80 front tire. Similarly, a reinforced Monolever rear suspension controls a matching 15-inch alloy wheel and 170/80 rear tire. As you'd expect, triple disc brakes featuring BMW's latest EVO front brake system and fully integrated ABS bring the bike to a halt at day's end-and set the CL apart from any other luxury cruiser on the market.
Yet despite all the chassis changes, it's the new CL's visual statement that represents the bike's biggest break with its cruiser-mates. With its grip-to-grip sweep, the handlebar-mounted fairing evokes classic touring bikes, while the CL's distinctive quad-headlamps give the bike a decidedly avant-garde look - in addition to providing standard-setting illumination. A pair of frame-mounted lowers extends the fairing's wind coverage and provides space for some of the CL's electrics and the optional stereo. The instrument panel is exceptionally clean, surrounded by a matte gray background that matches the kneepads inset in the fairing extensions. The speedometer and tachometer flank a panel of warning lights, capped by the standard analog clock. Integrated mirror/turnsignal pods extend from the fairing to provide further wind protection. Finally, fully integrated, color-matched saddlebags combine with a standard top box to provide a steamer trunk's luggage capacity.
The CL's riding position blends elements of both tourer and cruiser, beginning with a reassuringly low, 29.3-inch seat height. The seat itself comprises two parts, a rider portion with an integral lower-back rest, and a taller passenger perch that includes a standard backrest built into the top box. Heated seats, first seen on the K 1200 LT, are also available for the CL to complement the standard heated grips. A broad, flat handlebar places those grips a comfortable reach away, and the CL's floorboards allow the rider to shift position easily without compromising control. Standard cruise control helps melt the miles on long highway stints. A convenient heel/toe shifter makes for effortless gearchanges while adding exactly the right classic touch.
The R 1200 CL backs up its cruiser origins with the same superb attention to cosmetics as is shown in the functional details. In addition to the beautifully finished bodywork, the luxury cruiser boasts an assortment of chrome highlights, including valve covers, exhaust system, saddlebag latches and frame panels, with an optional kit to add even more brightwork. Available colors include Pearl Silver Metallic, Capri Blue Metallic and Mojave Brown Metallic, this last with a choice of black or brown saddle (other colors feature black).
The R 1200 CL Engine: Gearing For The Long Haul
BMW's newest tourer begins with a solid foundation-the 61-hp R 1200 C engine. The original, 1170cc cruiser powerplant blends a broad powerband and instantaneous response with a healthy, 72 lb.-ft. of torque. Like its forebear, the new CL provides its peak torque at 3000 rpm-exactly the kind of power delivery for a touring twin. Motronic MA 2.4 engine management ensures that this Boxer blends this accessible power with long-term reliability and minimal emissions, while at the same time eliminating the choke lever for complete push-button simplicity. Of course, the MoDiTec diagnostic feature makes maintaining the CL every bit as simple as the other members of BMW's stable.
While tourers and cruisers place similar demands on their engines, a touring bike typically operates through a wider speed range. Consequently, the R 1200 CL mates this familiar engine to a new, six-speed transmission. The first five gear ratios are similar to the original R 1200's, but the sixth gear provides a significant overdrive, which drops engine speed well under 3000 rpm at 60 mph. This range of gearing means the CL can manage either responsive in-town running or relaxed freeway cruising with equal finesse, and places the luxury cruiser right in the heart of its powerband at touring speeds for simple roll-on passes.
In addition, the new transmission has been thoroughly massaged internally, with re-angled gear teeth that provide additional overlap for quieter running. Shifting is likewise improved via a revised internal shift mechanism that produces smoother, more precise gearchanges. Finally, the new transmission design is lighter (approximately 1 kg.), which helps keep the CL's weight down to a respectable 679 lbs. (wet). The improved design of this transmission will be adopted by other Boxer-twins throughout the coming year.
The CL Chassis: Wheeled Luggage Never Worked This Well
Every bit as unique as the CL's Boxer-twin drivetrain is the bike's chassis, leading off-literally and figuratively-with BMW's standard-setting Telelever front suspension. The CL's setup is identical in concept and function to the R 1200 C's fork, but shares virtually no parts with the previous cruiser's. The tourer's wider, 16-inch front wheel called for wider-set fork tubes, so the top triple clamp, fork bridge, fork tubes and axle have all been revised, and the axle has switched to a full-floating design. The aluminum Telelever itself has been further reworked to provide a slightly more raked appearance, which also creates a more relaxed steering response for improved straight-line stability. The front shock has been re-angled and its spring and damping rates changed to accommodate the new bike's suspension geometry, but is otherwise similar to the original R 1200 C's damper.
Similarly, the R 1200 CL's Monolever rear suspension differs in detail, rather than concept, from previous BMW cruisers. Increased reinforcing provides additional strength at the shock mount, while a revised final-drive housing provides mounts for the new rear brake. But the primary rear suspension change is a switch to a shock with travel-related damping, similar to that introduced on the R 1150 GS Adventure. This new shock not only provides for a smoother, more controlled ride but also produces an additional 20mm travel compared to the other cruisers, bringing the rear suspension travel to 4.72 inches.
The Telelever and Monolever bolt to a standard R 1200 C front frame that differs only in detail from the original. The rear subframe, however, is completely new, designed to accommodate the extensive luggage system and passenger seating on the R 1200 CL. In addition to the permanently affixed saddlebags, the larger seats, floor boards, top box and new side stand all require new mounting points.
All this new hardware rolls on completely restyled double-spoke wheels (16 x 3.5 front/15 x 4.0 rear) that carry wider, higher-profile (80-series) touring tires for an extremely smooth ride. Bolted to these wheels are larger disc brakes (12.0-inch front, 11.2-inch rear), with the latest edition of BMW's standard-setting EVO brakes. A pair of four-piston calipers stop the front wheel, paired with a two-piston unit-adapted from the K 1200 LT-at the rear. In keeping with the bike's touring orientation, the new CL includes BMW's latest, fully integrated ABS, which actuates both front and rear brakes through either the front hand lever or the rear brake pedal.
The CL Bodywork: Dressed To The Nines
Although all these mechanical changes ensure that the new R 1200 CL works like no other luxury cruiser, it's the bike's styling and bodywork that really set it apart. Beginning with the bike's handlebar-mounted fairing, the CL looks like nothing else on the road, but it's the functional attributes that prove its worth. The broad sweep of the fairing emphasizes its aerodynamic shape, which provides maximum wind protection with a minimum of buffeting. Four headlamps, with their horizontal/vertical orientation, give the CL its unique face and also create the best illumination outside of a baseball stadium (the high-beams are borrowed from the GS).
The M-shaped windshield, with its dipped center section, produces exceptional wind protection yet still allows the rider to look over the clear-plastic shield when rain or road dirt obscure the view. Similarly, clear extensions at the fairing's lower edges improve wind protection even further but still allow an unobstructed view forward for maneuvering in extremely close quarters. The turnsignal pods provide further wind coverage, and at the same time the integral mirrors give a clear view to the rear.
Complementing the fairing, both visually and functionally, the frame-mounted lowers divert the wind blast around the rider to provide further weather protection. Openings vent warm air from the frame-mounted twin oil-coolers and direct the heat away from the rider. As noted earlier, the lowers also house the electronics for the bike's optional alarm system and cruise control. A pair of 12-volt accessory outlets are standard.
Like the K 1200 LT, the new R 1200 CL includes a capacious luggage system as standard, all of it color-matched and designed to accommodate rider and passenger for the long haul. The permanently attached saddlebags include clamshell lids that allow for easy loading and unloading. Chrome bumper strips protect the saddlebags from minor tipover damage. The top box provides additional secure luggage space, or it can be simply unbolted to uncover an attractive aluminum luggage rack. An optional backrest can be bolted on in place of the top box. Of course, saddlebags and top box are lockable and keyed to the ignition switch.
Options & Accessories: More Personal Than A Monogram
Given BMW's traditional emphasis on touring options and the cruiser owner's typical demands for customization, it's only logical to expect a range of accessories and options for the company's first luxury cruiser. The CL fulfills those expectations with a myriad of options and accessories, beginning with heated or velour-like Soft Touch seats and a low windshield. Electronic and communications options such as an AM/FM/CD stereo, cruise control and onboard communication can make time on the road much more pleasant, whether you're out for an afternoon ride or a cross-country trek - because after all, nobody says you have to be back in six days. Other available electronic features include an anti-theft alarm, which also disables the engine.
Accessories designed to personalize the CL even further range from cosmetic to practical, but all adhere to BMW's traditional standards for quality and fit. Chrome accessories include engine-protection and saddlebag - protection hoops. On a practical level, saddlebag and top box liners simplify packing and unpacking. In addition to the backrest, a pair of rear floorboards enhance passenger comfort even more.
- - - - -
These three views show Brylaine Optare Solo types operating the IntoTown Services at Boston on a wet and dull mid January Market Day. Part of the route used by these services runs along pedestrianised Wide Bargate and whilst traversing this section the vehicles travel at walking pace and in addition to their hazard warning lights they are also fitted with an audible alarm system.
Also taken on Market Place with the tower of St Botolph’s Church in the background, more commonly known as the Boston Stump, is this rear view of Brylaine Optare Solo YJ08 PHY which is working an IT1 journey.
TEIGN C Damen Stan 1405
IMO: - N/A
MMSI: 235082804
Call Sign: MWBM9
AIS Vessel Type: Dredger
GENERAL
DAMEN YARD NUMBER: 503705
Avelingen-West 20
4202 MS Gorinchem
The Netherlands
Phone: +31 (0)183 63 99 11
info@damen.com
DELIVERY DATE August 2001
BASIC FUNCTIONS Towing, mooring, pushing and dredging operations
FLAG United Kingdom [GB]
OWNED Teignmouth Harbour Commission
CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch
DIMENSIONS
LENGTH 14.40 m
BEAM 4.73 m
DEPTH AT SIDES 205 m
DRAUGHT AFT 171 m
DISPLACEMENT 48 ton
TANK CAPACITIES
Fuel oil 6.9 m³
PERFORMANCES (TRIALS)
BOLLARD PULL AHEAD 8.0 ton
SPEED 9.8 knots
PROPULSION SYSTEM
MAIN ENGINE 2x Caterpillar 3406C TA/A
TOTAL POWER 477 bmW (640i hp) at 1800 rpm
GEARBOX 2x Twin Disc MG 5091/3.82:1
PROPELLERS Bronze fixed pitch propeller
KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings
ENGINE CONTROL Kobelt
STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator
AUXILIARY EQUIPMENT
BILGE PUMP Sterling SIH 20, 32 m/hr
BATTERY SETS 2x 24V, 200 Ah + change over facility
COOLING SYSTEM Closed cooling system
ALARM SYSTEM Engines, gearboxes and bilge alarms
FRESH WATER PRESSURE SET Speck 24V
DECK LAY-OUT
ANCHORS 2x 48 kg Pool (HHP)
CHAIN 70 m, Ø 13mm, shortlink U2
ANCHOR WINCH Hand-operated
TOWING HOOK Mampaey, 15.3 ton SWL
COUPLING WINCH
PUSHBOW Cylindrical nubber fender Ø 380 mm
ACCOMMODATION
The wheelhouse ceiling and sides are insulated with mineral wool and
panelled. The wheelhouse floor is covered with rubber/synthetic floor
covering, make Bolidt, color blue The wheelhouse has one
helmsman seat, a bench and table with chair Below deck two berths, a
kitchen unit and a toilet space are arranged.
NAUTICAL AND COMMUNICATION EQUIPMENT
SEARCHLIGHT Den Haan 170 W 24 V
VHF RADIO Sailor RT 2048 25 W
NAVIGATION Navigation lights incl towing and pilot lights
Teignmouth Harbour Commission
The Harbour Commission is a Trust Port created by Statute.
The principal Order is the Teignmouth Harbour Order 1924
as amended by the Teignmouth Harbour Revision Order 2003
TEIGN C Damen Stan 1405
IMO: - N/A
MMSI: 235082804
Call Sign: MWBM9
AIS Vessel Type: Dredger
GENERAL
DAMEN YARD NUMBER: 503705
Avelingen-West 20
4202 MS Gorinchem
The Netherlands
Phone: +31 (0)183 63 99 11
info@damen.com
DELIVERY DATE August 2001
BASIC FUNCTIONS Towing, mooring, pushing and dredging operations
FLAG United Kingdom [GB]
OWNED Teignmouth Harbour Commission
CASSCATION: Bureau Veritas 1 HULL MACH Seagoing Launch
DIMENSIONS
LENGTH 14.40 m
BEAM 4.73 m
DEPTH AT SIDES 205 m
DRAUGHT AFT 171 m
DISPLACEMENT 48 ton
TANK CAPACITIES
Fuel oil 6.9 m³
PERFORMANCES (TRIALS)
BOLLARD PULL AHEAD 8.0 ton
SPEED 9.8 knots
PROPULSION SYSTEM
MAIN ENGINE 2x Caterpillar 3406C TA/A
TOTAL POWER 477 bmW (640i hp) at 1800 rpm
GEARBOX 2x Twin Disc MG 5091/3.82:1
PROPELLERS Bronze fixed pitch propeller
KORT NOZZELS Van de Giessen 2x 1000 mm with stainless steel innerings
ENGINE CONTROL Kobelt
STEERING GEAR 2x 25 mm single plate Powered hydraulic 2x 45, rudder indicator
AUXILIARY EQUIPMENT
BILGE PUMP Sterling SIH 20, 32 m/hr
BATTERY SETS 2x 24V, 200 Ah + change over facility
COOLING SYSTEM Closed cooling system
ALARM SYSTEM Engines, gearboxes and bilge alarms
FRESH WATER PRESSURE SET Speck 24V
DECK LAY-OUT
ANCHORS 2x 48 kg Pool (HHP)
CHAIN 70 m, Ø 13mm, shortlink U2
ANCHOR WINCH Hand-operated
TOWING HOOK Mampaey, 15.3 ton SWL
COUPLING WINCH
PUSHBOW Cylindrical nubber fender Ø 380 mm
ACCOMMODATION
The wheelhouse ceiling and sides are insulated with mineral wool and
panelled. The wheelhouse floor is covered with rubber/synthetic floor
covering, make Bolidt, color blue The wheelhouse has one
helmsman seat, a bench and table with chair Below deck two berths, a
kitchen unit and a toilet space are arranged.
NAUTICAL AND COMMUNICATION EQUIPMENT
SEARCHLIGHT Den Haan 170 W 24 V
VHF RADIO Sailor RT 2048 25 W
NAVIGATION Navigation lights incl towing and pilot lights
Teignmouth Harbour Commission
The Harbour Commission is a Trust Port created by Statute.
The principal Order is the Teignmouth Harbour Order 1924
as amended by the Teignmouth Harbour Revision Order 2003
Carlin, Sara and Ingrid leave the beach next to the hotel in the black Zodiac Nomad 3.1 RIB boat with the dead guerrilla and return to the main boat.
The Zodiac is then hoisted aboard the main boat. Once on board Carlin gets a status report from Charmaine and from Purple. Both report no activity and no indication that we have been detected by Cuban authorities. Carlin tells Charmaine to deactivate the electronic countermeasures for the hotel security and alarm systems.
Then the main boat and the support Zodiac leave Havana and Cuban international waters heading back to the refuelling trawler 40 miles off Cuba.
The Postcard
A postally unused carte postale bearing an image of two chimera high up on the facade of Notre Dame Cathedral in Paris.
The publisher's name does not appear on the card.
The Notre-Dame Fire
On the 15th. April 2019, fire broke out in the attic beneath the cathedral's roof at 18:18. At 18:20 the fire alarm sounded and guards evacuated the cathedral. A guard was sent to investigate, but to the wrong location – the attic of the adjoining sacristy – where he found no fire. About fifteen minutes later the error was discovered, but by the time guards had climbed the three hundred steps to the cathedral attic the fire was well advanced.
The alarm system was not designed to automatically notify the fire brigade, which was summoned at 18:51 after the guards had returned. Firefighters arrived within ten minutes.
Fighting the Notre-Dame Fire
More than 400 firefighters were engaged. A hundred government employees along with police and municipal workers moved precious artefacts to safety via a human chain.
The fire was primarily fought from inside the structure, which was more dangerous for personnel, but reduced potential damage to the cathedral - applying water from outside risked deflecting flames and hot gases (at temperatures up to 800 °C) inwards. Deluge guns were used at lower-than-usual pressures to minimise damage to the cathedral and its contents. Water was supplied by pump-boat from the Seine.
Aerial firefighting was not used because water dropped from heights could have caused structural damage, and heated stone can crack if suddenly cooled. Helicopters were also not used because of dangerous updrafts, but drones were used for visual and thermal imaging, and robots for visual imaging and directing water streams. Molten lead falling from the roof posed a special hazard for firefighters.
By 18:52, smoke was visible from the outside; flames appeared within the next ten minutes. The spire of the cathedral collapsed at 19:50, creating a draft that slammed all the doors and sent a fireball through the attic. Firefighters then retreated from within the attic.
Shortly before the spire fell, the fire had spread to the wooden framework inside the north tower, which supported eight very large bells. Had the bells fallen, it was thought that the damage done as they fell could have collapsed the towers, and with them the entire cathedral.
At 20:30, firefighters abandoned attempts to extinguish the roof and concentrated on saving the towers, fighting from within and between the towers. By 21:45 the fire was under control.
Adjacent apartment buildings were evacuated due to concern about possible collapse, but on the 19th. April the fire brigade ruled out that risk. One firefighter and two police officers were injured.
Damage to Notre-Dame
Most of the wood/metal roof and the spire of the cathedral was destroyed, with about one third of the roof remaining. The remnants of the roof and spire fell atop the stone vault underneath, which forms the ceiling of the cathedral's interior. Some sections of this vaulting collapsed in turn, allowing debris from the burning roof to fall to the marble floor below, but most sections remained intact due to the use of rib vaulting, greatly reducing damage to the cathedral's interior and objects within.
The cathedral contained a large number of artworks, religious relics, and other irreplaceable treasures, including a crown of thorns said to be the one Jesus wore at his crucifixion. Other items were a purported piece of the cross on which Jesus was crucified, the Tunic of St. Louis, a pipe organ by Aristide Cavaillé-Coll, and the 14th.-century Virgin of Paris statue.
Some artwork had been removed in preparation for the renovations, and most of the cathedral's sacred relics were held in the adjoining sacristy, which the fire did not reach; all the cathedral's relics survived. Many valuables that were not removed also survived.
Lead joints in some of the 19th.-century stained-glass windows melted, but the three major rose windows, dating back to the 13th. century, were undamaged. Several pews were destroyed, and the vaulted arches were blackened by smoke, though the cathedral's main cross and altar survived, along with the statues surrounding it.
Some paintings, apparently only smoke-damaged, are expected to be transported to the Louvre for restoration. The rooster-shaped reliquary atop the spire was found damaged but intact among the debris. The three pipe organs were not significantly damaged. The largest of the cathedral's bells, the bourdon, was also not damaged. The liturgical treasury of the cathedral and the "Grands Mays" paintings were moved to safety.
Environmental Damage
Airparif said that winds rapidly dispersed the smoke, carrying it away aloft along the Seine corridor. It did not find elevated levels of particulate air pollution at monitoring stations nearby. The Paris police stated that there was no danger from breathing the air around the fire.
The burned-down roof had been covered with over 400 metric tons of lead. Settling dust substantially raised surface lead levels in some places nearby, notably the cordoned-off area and places left open during the fire. Wet cleaning for surfaces and blood tests for children and pregnant women were recommended in the immediate area.
People working on the cathedral after the fire did not initially take the lead precautions required for their own protection; materials leaving the site were decontaminated, but some clothing was not, and some precautions were not correctly followed; as a result, the worksite failed some inspections and was temporarily shut down.
There was also more widespread contamination; testing, clean-up, and public health advisories were delayed for months, and the neighbourhood was not decontaminated for four months, prompting widespread criticism.
Reactions to the Notre-Dame Fire
President of France Emmanuel Macron, postponing a speech to address the Yellow Vests Movement planned for that evening, went to Notre-Dame and gave a brief address there. Numerous world religious and government leaders extended condolences.
Through the night of the fire and into the next day, people gathered along the Seine to hold vigils, sing and pray.
White tarpaulins over metal beams were quickly rigged to protect the interior from the elements. Nettings protect the de-stabilised exterior.
The following Sunday at Saint-Eustache Church, the Archbishop of Paris, Michel Aupetit, honoured the firefighters with the presentation of a book of scriptures saved from the fire.
Investigation Into The Notre-Dame Fire
On the 16th. April, the Paris prosecutor said that there was no evidence of a deliberate act.
The fire has been compared to the similar 1992 Windsor Castle fire and the Uppark fire, among others, and has raised old questions about the safety of similar structures and the techniques used to restore them. Renovation works increase the risk of fire, and a police source reported that they are looking into whether such work had caused this incident.
The renovations presented a fire risk from sparks, short-circuits, and heat from welding (roof repairs involved cutting, and welding lead sheets resting on timber). Normally, no electrical installations were allowed in the roof space due to the extreme fire risk.
The roof framing was of very dry timber, often powdery with age. After the fire, the architect responsible for fire safety at the cathedral acknowledged that the rate at which fire might spread had been underestimated, and experts said it was well known that a fire in the roof would be almost impossible to control.
Of the firms working on the restoration, a Europe Echafaudage team was the only one working there on the day of the fire; the company said no soldering or welding was underway before the fire. The scaffolding was receiving electrical supply for temporary elevators and lighting.
The roofers, Le Bras Frères, said it had followed procedure, and that none of its personnel were on site when the fire broke out. Time-lapse images taken by a camera installed by them showed smoke first rising from the base of the spire.
On the 25th. April, the structure was considered safe enough for investigators to enter. They unofficially stated that they were considering theories involving malfunction of electric bell-ringing apparatus, and cigarette ends discovered on the renovation scaffolding.
Le Bras Frères confirmed its workers had smoked cigarettes, contrary to regulations, but denied that a cigarette butt could have started the fire. The Paris prosecutor's office announced on the 26th. June that no evidence had been found to suggest a criminal motive.
The security employee monitoring the alarm system was new on the job, and was on a second eight-hour shift that day because his relief had not arrived. Additionally, the fire security system used confusing terminology in its referencing parts of the cathedral, which contributed to the initial confusion as to the location of the fire.
As of September, five months after the fire, investigators thought the cause of the fire was more likely an electrical fault than a cigarette. Determining the exact place in which the fire started was expected to take a great deal more time and work. By the 15th. April 2020, investigators stated:
"We believe the fire to have been
started by either a cigarette or a
short circuit in the electrical system".
Reconstruction of Notre-Dame Cathedral
On the night of the fire Macron said that the cathedral, which is owned by the state, would be rebuilt, and launched an international fundraising campaign. France's cathedrals have been owned by the state since 1905, and are not privately insured.
The heritage conservation organisation Fondation du Patrimoine estimated the damage in the hundreds of millions of euros, but losses from the fire are not expected to substantially impact the private insurance industry.
European art insurers stated that the cost would be similar to ongoing renovations at the Palace of Westminster in London, which currently is estimated to be around €7 billion.
This cost does not include damage to any of the artwork or artefacts within the cathedral. Any pieces on loan from other museums would have been insured, but the works owned by the cathedral would not have been insurable.
While Macron hoped the cathedral could be restored in time for the 2024 Paris Summer Olympics, architects expect the work could take from twenty to forty years, as any new structure would need to balance restoring the look of the original building, using wood and stone sourced from the same regions used in the original construction, with the structural reinforcement required for preventing a similar disaster in the future.
There is discussion of whether to reconstruct the cathedral in modified form. Rebuilding the roof with titanium sheets and steel trusses has been suggested; other options include rebuilding in the original lead and wood, or rebuilding with modern materials not visible from the outside (like the reinforced concrete trusses at Reims Cathedral).
Another option would be to use a combination of restored old elements and newly designed ones. Chartres Cathedral was rebuilt with wrought iron trusses and copper sheeting after an 1836 fire.
French prime minister Édouard Philippe announced an architectural design competition for a new spire that would be:
"Adapted to the techniques
and the challenges of our era."
The spire replacement project has gathered a variety of designs and some controversy, particularly its legal exemption from environmental and heritage rules. After the design competition was announced, the French senate amended the government's restoration bill to require the roof to be restored to how it was before the fire.
On the 16th. July, 95 days after the fire, the law that will govern the restoration of the cathedral was finally approved by the French parliament. It recognises its UNESCO World Heritage Site status and the need to respect existing international charters and practices, to:
"Preserve the historic, artistic and architectural
history of the monument, and to limit any
derogations to the existing heritage, planning,
environmental and construction codes to a
minimum".
On the 15th. April 2020, Germany offered to restore some of the large clerestory windows located far above eye level with three expert tradesmen who specialize in rebuilding cathedrals. Monika Grütters, Germany's Commissioner for Culture was quoted as saying that her country would shoulder the costs.
As of the 30th. November all of the tangled scaffolding was removed from the spire area, and was therefore no longer a threat to the building.
The world will now have to wait for Notre-Dame de Paris to be restored to its former magnificence.
BMW 330d Estate West Midlands Police BX58 MVH (F302).
attending Loomis security Ford Transit van in Birmingham City Centre whose panic alarm system was going off... "warning, this vehicle is being attacked, call the police!" said the calmly spoken female recording, but it was a false alarm.
also, notice how low it is sitting on its suspension, especially at the rear.
July 2010
Terra cotta detail over main door on the Tulsa Fire Alarm Building, 1010 East 8th Street, Tulsa, Oklahoma. Dragons are a recurring motif in the decorative program of this Art Deco Monument. The central figure was called an "Adonis-type male". He is holding Gamewell alarm tapes. Gamewell was the maker of the alarm system first used by the Fire ALarm building. The central figure is flanked by two firemen in helmets. Building listed on National Register of Historic Places (#03000879).
4/16/22 - Crystal Lake, Illinois
No injuries were reported after an extra-alarm fire ripped through a large banquet and conference center in Crystal Lake early Saturday morning, leaving it a total loss.
The Crystal Lake Fire Rescue Department responded around 1:24 a.m. Saturday to an activated fire alarm at D’Andrea Banquets and Conference Center, 4419 Northwest Highway.
Two minutes later, a McHenry County sheriff’s deputy reported smoke showing from the building, according to Crystal Lake Fire Chief Paul DeRaedt.
The alarm was quickly upgraded to a working structure fire, which brought additional fire crews to the scene.
The first fire unit arrived on the scene at 1:32 a.m. and attempted to make entry into the building.
Firefighters had to back out due to an impending roof collapse, DeRaedt said. The building was unoccupied at the time of the fire.
Fire crews fought the fire from the exterior of the structure.
A request for mutual aid through the Mutual Aid Box Alarm System (MABAS) was initiated to the second alarm moments later.
DeRaedt said the fire had quickly spread through multiple areas within the wood-framed building.
Several ladder trucks with hose streams were established around the perimeter of the building to control the fire.
The fire was declared under control just before 5:15 a.m.
The building was not equipped with a fire sprinkler system, DeRaedt said. There were no injuries to any firefighters.
The building is considered a total loss and the building’s owners were at the scene and working with fire investigators.
The cause of the fire remains under investigation by Crystal Lake Fire Rescue investigators, other area fire investigators and Crystal Lake police investigators.
“Due to the collapse of portions of the roof, it will be some time before a cause can be determined,” DeRaedt said.
Article Source: Lake & McHenry County Scanner
Pottsville PA West End No. 7
1937 Ahrens-Fox
500 GPM
#9027 Model: V-C
The first enclosed body fire engine in the United States was built in 1935. Within a few years many apparatus manufacturers had tried their hand at building at least one. This particular machine had a wood framed body that was manufactured by the Kelly Auto Body Co. which was located within walking distance of the Ahrens-Fox factory. Pottsville is a fascinating town to visit if you're a fire buff.
There are numerous volunteer fire companies, an active Gamewell alarm system and plenty of freshly brewed beer! The Pottsville F.D. web site is: www.pottsvillefire.com/
Firefighters have been heading back to college in Wisbech to take up a unique training opportunity at the College of West Anglia.
The crew from Wisbech Fire Station turned the former C Block at the college site, on Ramnoth Road, into a training ground during the past few months to deliver challenging exercise scenarios to test firefighters from across the county.
The site was chosen as it is due for demolition over the coming months and at the time of proposal was not being used. It was also a large and complicated design with many unusual features that offered the chance to conduct many different training scenarios for Cambridgeshire Fire and Rescue Service staff.
Staff from Wisbech Fire Station and the College of West Anglia health and safety department worked closely together to ensure that guidelines and procedures were put in place to enable the use of the college buildings and to provide extremely valuable training opportunities for firefighters from Wisbech and other stations across Cambridgeshire.
Wisbech Station Commander Brett Mills said: “The day crew identified an excellent training opportunity using their local knowledge and networking. This supported vital critical safety training for both whole-time and on-call firefighters. I would like to thank Firefighter Gary Reach, Crew Commander Clive Griffin from Cambridgeshire Fire and Rescue Service, and Richard Heron and Amanda Marshall from the College Of West Anglia for their hard work in organising this and continuing the excellent partnership working between CFRS and CWA.”
Various different ladder drills were conducted around the buildings as it offered different conditions and opportunities that cannot be replicated in the firefighters’ usual drill yard. Breathing apparatus search and rescue drills were also conducted inside the building during both day and night time sessions.
The buildings were also used to hold an on-call training support day to provide further training for firefighters from across Cambridgeshire. During these sessions firefighters wore obscuration masks to replicate heavy smoke logging of the building without the college fire alarm system being affected.
The College of West Anglia is one of the largest providers of education and training in Norfolk and Cambridgeshire with an exceptional track record of developing the skills and talents of its students.
The Wisbech campus was transformed over the summer of 2015, following extensive investment to improve its facilities in the form of a £6.5million flagship learning building. This adds to the £7.2million technology centre, which opened in April 2013. Older buildings such as the C Block are now set for demolition as they are no longer fit for purpose.
The 1400m2 new teaching centre which opened in September, and 2000 m2 of refurbished space with its state-of-the-art teaching and IT facilities, is host to health & social care, hair & beauty in their brand new salons, foundation studies, computing, and uniformed and public services courses. There are also new facilities for teaching in English, maths and ESOL (English for speakers of other languages). The new main atrium entrance and reception area, teamed with the expansion of the restaurant, social areas and learning resource centre, is now a welcoming hub for students and staff alike.
Mark Reavell, Executive Director Partnerships at CWA, said: “We were pleased to be able offer the old buildings to the fire service for them to use as part of their training. It is understandably difficult for them to get access to facilities to carry out this sort of simulated exercise and it all seemed to work out perfectly prior to the start of demolition. We will however be pleased to see the old buildings disappear forever!"
Kathmandu Durbar Square (Nepali: वसन्तपुर दरवार क्षेत्र, Basantapur Darbar Kshetra) in front of the old royal palace of the former Kathmandu Kingdom is one of three Durbar (royal palace) Squares in the Kathmandu Valley in Nepal, all of which are UNESCO World Heritage Sites.
Several buildings in the Square collapsed due to a major earthquake on 25 April 2015. Durbar Square was surrounded with spectacular architecture and vividly showcases the skills of the Newar artists and craftsmen over several centuries. The Royal Palace was originally at Dattaraya square and was later moved to the Durbar square.
The Kathmandu Durbar Square held the palaces of the Malla and Shah kings who ruled over the city. Along with these palaces, the square surrounds quadrangles, revealing courtyards and temples. It is known as Hanuman Dhoka Durbar Square, a name derived from a statue of Hanuman, the monkey devotee of Lord Ram, at the entrance of the palace.
CONTENTS
HISTORY AND CONSTRUCTION
The preference for the construction of royal palaces at this site dates back to as early as the Licchavi period in the third century. Even though the present palaces and temples have undergone repeated and extensive renovations and nothing physical remains from that period. Names like Gunapo and Gupo, which are the names referred to the palaces in the square in early scriptures, imply that the palaces were built by Gunakamadev, a King ruling late in the tenth-century. When Kathmandu City became independent under the rule of King Ratna Malla (1484–1520), the palaces in the square became the Royal Palaces for its Malla Kings. When Prithvi Narayan Shah invaded the Kathmandu Valley in 1769, he favored the Kathmandu Durbar Square for his palace. Other subsequent Shah kings continued to rule from the square until 1896 when they moved to the Narayan Hiti Palace.
The square is still the center of important royal events like the coronation of King Birendra Bir Bikram Shah in 1975 and King Gyanendra Bir Bikram Shah in 2001.
Though there are no written archives stating the history of Kathmandu Durbar Square, construction of the palace in the square is credited to Sankharadev (1069–1083). As the first king of the independent Kathmandu City, Ratna Malla is said to have built the Taleju temple in the Northern side of the palace in 1501. For this to be true then the temple would have had to have been built in the vihara style as part of the palace premise surrounding the Mul Chok courtyard for no evidence of a separate structure that would match this temple can be found within the square.
Construction of the Karnel Chok is not clearly stated in any historical inscriptions; although, it is probably the oldest among all the courtyards in the square. The Bhagavati Temple, originally known as a Narayan Temple, rises above the mansions surrounding it and was added during the time of Jagajaya Malla in the early eighteenth century. The Narayan idol within the temple was stolen so Prithvi Narayan Shah replaced it with an image of Bhagavati, completely transforming the name of the temple.
The oldest temples in the square are those built by Mahendra Malla (1560–1574). They are the temples of Jagannath, Kotilingeswara Mahadev, Mahendreswara, and the Taleju Temple. This three-roofed Taleju Temple was established in 1564, in a typical Newari architectural style and is elevated on platforms that form a pyramid-like structure. It is said that Mahendra Malla, when he was residing in Bhaktapur, was highly devoted to the Taleju Temple there; the Goddess being pleased with his devotion gave him a vision asking him to build a temple for her in the Kathmandu Durbar Square. With a help of a hermit, he designed the temple to give it its present form and the Goddess entered the temple in the form of a bee.
His successors Sadasiva (1575–1581), his son, Shiva Simha (1578–1619), and his grandson, Laksmi Narsingha (1619–1641), do not seem to have made any major additions to the square. During this period of three generations the only constructions to have occurred were the establishment of Degutale Temple dedicated to Goddess Mother Taleju by Shiva Simha and some enhancement in the royal palace by Laksminar Simha.
UNDER PRATAP MALLA
In the time of Pratap Malla, son of Laksminar Simha, the square was extensively developed. He was an intellectual, a pious devotee, and especially interested in arts. He called himself a Kavindra, king of poets, and boasted that he was learned in fifteen different languages. A passionate builder, following his coronation as a king, he immediately began enlargements to his royal palace, and rebuilt some old temples and constructed new temples, shrines and stupas around his kingdom.During the construction of his palace, he added a small entrance in the traditional, low and narrow Newari style. The door was elaborately decorated with carvings and paintings of deities and auspicious sings and was later transferred to the entrance of Mohan Chok. In front of the entrance he placed the statue of Hanuman thinking that Hanuman would strengthen his army and protect his home. The entrance leads to Nasal Chok, the courtyard where most royal events such as coronation, performances, and yagyas, holy fire rituals, take place. It was named after Nasadya, the God of Dance, and during the time of Pratap Malla the sacred mask dance dramas performed in Nasal Chok were widely famed. In one of these dramas, it is said that Pratap Malla himself played the role of Lord Vishnu and that the spirit of the Lord remained in the king's body even after the play. After consulting his Tantric leaders, he ordered a stone image of Lord Vishnu in his incarnation as Nara Simha, the half-lion and half-human form, and then transferred the spirit into the stone. This fine image of Nara Simha made in 1673 still stands in the Nasal Chok. In 1650, he commissioned for the construction of Mohan Chok in the palace. This chok remained the royal residential courtyard for many years and is believed to store a great amount of treasure under its surface. Pratap Malla also built Sundari Chok about this time. He placed a slab engraved with lines in fifteen languages and proclaimed that he who can understand the inscription would produce the flow of milk instead of water from Tutedhara, a fountain set in the outer walls of Mohan Chok. However elaborate his constructions may have been, they were not simply intended to emphasize his luxuries but also his and the importance of others' devotion towards deities. He made extensive donations to temples and had the older ones renovated. Next to the palace, he built a Krishna temple, the Vamsagopala, in an octagonal shape in 1649. He dedicated this temple to his two Indian wives, Rupamati and Rajamati, as both had died during the year it was built. In Mohan Chok, he erected a three roofed Agamachem temple and a unique temple with five superimposing roofs. After completely restoring the Mul Chok, he donated to the adjoining Taleju Temple. To the main temple of Taleju, he donated metal doors in 1670. He rebuilt the Degutale Temple built by his grandfather, Siva Simha, and the Taleju Temple in the palace square. As a substitute to the Indreswara Mahadeva Temple in the distant village of Panauti he built a Shiva temple, Indrapura, near his palace in the square. He carved hymns on the walls of the Jagannath Temple as prayers to Taleju in the form of Kali.
At the southern end of the square, near Kasthamandap at Maru, which was the main city crossroads for early traders, he built another pavilion named Kavindrapura, the mansion of the king of poets. In this mansion he set an idol of dancing Shiva, Nasadyo, which today is highly worshipped by dancers in the Valley.
In the process of beautifying his palace, he added fountains, ponds, and baths. In Sundari Chok, he established a low bath with a golden fountain. He built a small pond, the Naga Pokhari, in the palace adorned with Nagakastha, a wooden serpent, which is said he had ordered stolen from the royal pond in the Bhaktapur Durbar Square. He restored the Licchavi stone sculptures such as the Jalasayana Narayana, the Kaliyadamana, and the Kala Bhairav. An idol of Jalasayana Narayana was placed in a newly created pond in the Bhandarkhal garden in the eastern wing of the palace. As a substitute to the idol of Jalasayana Narayana in Buddhanilkantha, he channeled water from Buddhanilkantha to the pond in Bhandarkhal due bestow authenticity. The Kalyadana, a manifestation of Lord Krishna destroying Kaliya, a water serpent, is placed in Kalindi Chok, which is adjacent to the Mohan Chok. The approximately ten-feet-high image of terrifyingly portrayed Kal Bhairav is placed near the Jagannath Temple. This image is the focus of worship in the chok especially during Durga Puja.
With the death of Pratap Malla in 1674, the overall emphasis on the importance of the square came to a halt. His successors retained relatively insignificant power and the prevailing ministers took control of most of the royal rule. The ministers encountered little influence under these kings and, increasingly, interest of the arts and additions to the square was lost on them. They focused less on culture than Pratap Malla during the three decades that followed his death, steering the city and country more towards the arenas of politics and power, with only a few minor constructions made in the square. These projects included Parthivendra Malla building a temple referred to as Trailokya Mohan or Dasavatara, dedicated to Lord Vishnu in 1679. A large statue of Garuda, the mount of Lord Vishnu, was added in front of it a decade later. Parthivendra Malla added a pillar with image of his family in front of the Taleju Temple.
Around 1692, Radhilasmi, the widowed queen of Pratap Malla, erected the tall temples of Shiva known as Maju Deval near the Garuda image in the square. This temple stands on nine stepped platforms and is one of the tallest buildings in the square. Then her son, Bhupalendra Malla, took the throne and banished the widowed queen to the hills. His death came early at the age of twenty one and his widowed queen, Bhuvanalaksmi, built a temple in the square known as Kageswara Mahadev. The temple was built in the Newari style and acted as a substitute for worship of a distant temple in the hills. After the earthquake in 1934, the temple was restored with a dome roof, which was alien to the Newari architecture.
Jayaprakash Malla, the last Malla king to rule Kathmandu, built a temple for Kumari and Durga in her virginal state. The temple was named Kumari Bahal and was structured like a typical Newari vihara. In his house resides the Kumari, a girl who is revered as the living goddess. He also made a chariot for Kumari and in the courtyard had detailed terra cotta tiles of that time laid down.
UNDER THE SHAH DYNASTY
During the Shah dynasty that followed, the Kathmandu Durbar Square saw a number of changes. Two of the most unique temples in the square were built during this time. One is the Nautale, a nine-storied building known as Basantapur Durbar. It has four roofs and stands at the end of Nasal Chok at the East side of the palace. It is said that this building was set as a pleasure house. The lower three stories were made in the Newari farmhouse style. The upper floors have Newari style windows, sanjhya and tikijhya, and some of them are slightly projected from the wall. The other temple is annexed to the Vasantapur Durbar and has four-stories. This building was initially known as Vilasamandira, or Lohom Chok, but is now commonly known as Basantapur or Tejarat Chok. The lower floors of the Basantapur Chok display extensive woodcarvings and the roofs are made in popular the Mughal style. Archives state that Prthivi Narayan Shah built these two buildings in 1770.
Rana Bahadur Shah was enthroned at the age of two. Bahadur Shah, the second son of Prithvi Narayan Shah, ruled as a regent for his young nephew Rana Bahadur Shah for a close to a decade from 1785 to 1794 and built a temple of Shiva Parvati in the square. This one roofed temple is designed in the Newari style and is remarkably similar to previous temples built by the Mallas. It is rectangular in shape, and enshrines the Navadurga, a group of goddesses, on the ground floor. It has a wooden image of Shiva and Parvati at the window of the upper floor, looking out at the passersby in the square. Another significant donation made during the time of Rana Bahadur Shah is the metal-plated head of Swet Bhairav near the Degutale Temple. It was donated during the festival of Indra Jatra in 1795, and continues to play a major role during the festival every year. This approximately twelve feet high face of Bhairav is concealed behind a latticed wooden screen for the rest of the year. The following this donation Rana Bahadur donated a huge bronze bell as an offering to the Goddess Taleju. Together with the beating of the huge drums donated by his son Girvan Yudha, the bell was rung every day during the daily ritual worship to the goddess. Later these instruments were also used as an alarm system. However, after the death of his beloved third wife Kanimati Devi due to smallpox, Rana Bahadur Shah turned mad with grief and had many images of gods and goddesses smashed including the Taleju statue and bell, and Sitala, the goddess of smallpox.
In 1908, a palace, Gaddi Durbar, was built using European architectural designs. The Rana Prime Ministers who had taken over the power but not the throne of the country from the Shahs Kings from 1846 to 1951 were highly influenced by European styles. The Gaddi Durbar is covered in white plaster, has Greek columns and adjoins a large audience hall, all foreign features to Nepali architecture. The balconies of this durbar were reserved for the royal family during festivals to view the square below.
Some of the parts of the square like the Hatti Chok near the Kumari Bahal in the southern section of the square were removed during restoration after the devastating earthquake in 1934. While building the New Road, the southeastern part of the palace was cleared away, leaving only fragments in places as reminders of their past. Though decreased from its original size and attractiveness from its earlier seventeenth-century architecture, the Kathmandu Durbar Square still displays an ancient surrounding that spans abound five acres of land. It has palaces, temples, quadrangles, courtyards, ponds, and images that were brought together over three centuries of the Malla, the Shah, and the Rana dynasties. It was destroyed in the April 2015 Nepal earthquake.
VISITING
Kathmandu's Durbar Square is the site of the Hanuman Dhoka Palace Complex, which was the royal Nepalese residence until the 19th century and where important ceremonies, such as the coronation of the Nepalese monarch, took place. The palace is decorated with elaborately-carved wooden windows and panels and houses the King Tribhuwan Memorial Museum and the Mahendra Museum. It is possible to visit the state rooms inside the palace.
Time and again the temples and the palaces in the square have gone through reconstruction after being damaged by natural causes or neglect. Presently there are less than ten quadrangles in the square. The temples are being preserved as national heritage sites and the palace is being used as a museum. Only a few parts of the palace are open for visitors and the Taleju temples are only open for people of Hindu and Buddhist faiths.
At the southern end of Durbar Square is one of the most curious attractions in Nepal, the Kumari Chok. This gilded cage contains the Raj Kumari, a girl chosen through an ancient and mystical selection process to become the human incarnation of the Hindu mother goddess, Durga. She is worshiped during religious festivals and makes public appearances at other times for a fee paid to her guards.
WIKIPEDIA