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Made for LeLUTKA Kris Head 3.1 EvoX
The skin used is a VOGUEL Material.:
This shape fits the bodies:
- [LEGACY] Meshbody (m) Athletic Edition (1.6)
- -Belleza- Mesh Body Jake
- [Signature] Davis - Mesh Body - v1.2
(This is a exclusive and UNIQUE shape! Only 01 to be sold)
▶BUY IT HERE ALREADY SOLD OUT
COMPLETE STYLE CARD INCLUDED!!!
If you have any doubt feel free to question me in world!
The engine bay of the first production Morris Mini-Minor 621 AOK, and a familiar sight to all Mini owners during the 41 year production run of the Mini, because it hardly changed! Taking up most of the space is the 848cc four-cylinder overhead-valve push-rod A-Series petrol engine producing a mere 34bhp (37bhp gross) at 5,500 rpm maximum torque 44lb.ft at 2,900rpm. The four-speed gearbox with synchromesh on 2nd, 3rd and fourth gears and final drive is mounted under the engine in the sump. The A-Series engine with various power outputs powered all Minis from 1959-2000. The A-Series engine was launched in 1951 by the Austin Motor Company with the Austin A30.
Lets have a look around the engine at other items, the coil and distributor are mounted in front of the engine, just in front of the coil is the front offside headlight allowing easy access to replace bulbs, unlike today's modern cars! To the right of these items is the dynamo. On the right-hand side of the engine is the pressurised radiator, out of view next to the radiator is the windscreen wiper motor, also out of view near the right wing (front nearside) is the car build plate with all the information about the car including the paint code, no VIN plate 60 years ago.
Mounted on the rear of the engine is air filter in the black canister with a wing nut to allow the top to be removed. To the right on the bulkhead is the chassis number BKK 101. Underneath the air filter is the S.U. carburettor (S.U. was a subsidiary of BMC) on top of the carburettor is the piston damper, which screws off to allow the reservoir to be topped up with oil, which would be done periodically. The function of the damper was to provide an appropriate degree of enrichment for acceleration. To the left of these we can see the two hydraulic reservoirs for the braking system and clutch. To the left of the engine is the fuse and relay box, in front of this is the windscreen washer bottle. Just in case you are wondering where the battery is, that item is in the boot. In all everything is easy to get to, unlike today's modern cars!
Burlington Northern 814 (NP 7003D) has been Frisco-ized by the Oklahoma Railway Museum in Oklahoma City. Yes, it runs.
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SPONSORS:
The skin and facial hair used are the Stray Dog BEAU Skin (EvoX), available exclusively at the MAN CAVE event March round!!!
The hairbase used is the KARMAZZ Colson Hairbase V2 EVOX, available in the KARMAZZ Mainstore!!!
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Made for LeLUTKA Camden Head 4.0 EvoX
This shape fits the bodies:
- [LEGACY] Meshbody (m) Athletic Edition (1.6)
- -Belleza- Mesh Body Jake
- [ INITHIUM ] KARIO
- [Signature] Davis - Mesh Body - v1.2
- [Signature] Gianni - Mesh Body - v6.1
COMPLETE STYLECARD INCLUDED
If you have any doubt feel free to question me in world!
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Yes, this is another couple. I don't know what's going on with the baby in the stroller -- but it certainly does seem like the mother and daughter are very tightly connected.
I don't know if this bond will survive easily when the young girl grows into a teenager ... but that's another problem, for another day.
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This is the continuation of a photo-project that I began in the summer of 2008 (which you can see in this Flickr set), and continued throughout 2009, 2010, 2011, and 2012 (as shown in this Flickr set, this Flickr set, this Flickr set, this Flickr set, and this Flickr set)
): a random collection of "interesting" people in a broad stretch of the Upper West Side of Manhattan -- between 72nd Street and 104th Street, especially along Broadway and Amsterdam Avenue. These are the people in my neighborhood, aka "peeps in the 'hood."
As I indicated when I first started this project six years ago, I don't like to intrude on people's privacy, so I normally use a zoom telephoto lens in order to photograph them while they're still 50-100 feet away from me; but that means I have to continue focusing my attention on the people and activities half a block away, rather than on what's right in front of me. Sometimes I find an empty bench on a busy street corner, and just sit quietly for an hour, watching people hustling past on the other side of the street; they're almost always so busy listening to their iPod, or talking on their cellphone, or daydreaming about something, that they never look up and see me aiming my camera in their direction.
I've also learned that, in many cases, the opportunities for an interesting picture are very fleeting -- literally a matter of a couple of seconds, before the person(s) in question move on, turn away, or stop doing whatever was interesting. So I've learned to keep my camera switched on, and not worry so much about zooming in for a perfectly-framed picture ... after all, once the digital image is uploaded to my computer, it's pretty trivial to crop out the parts unrelated to the main subject. Indeed, some of my most interesting photos have been so-called "hip shots," where I don't even bother to raise the camera up to my eye; I just keep the zoom lens set to the maximum wide-angle aperture, point in the general direction of the subject, and take several shots. As long as I can keep the shutter speed fairly high (which sometimes requires a fairly high ISO setting), I can usually get some fairly crisp shots -- even if the subject is walking in one direction, and I'm walking in the other direction, while I'm snapping the photos.
With only a few exceptions, I've generally avoided photographing bums, drunks, crazies, and homeless people. There are plenty of them around, and they would certainly create some dramatic pictures; but they generally don't want to be photographed, and I don't want to feel like I'm taking advantage of them. There have been a few opportunities to take some "sympathetic" pictures of such people, which might inspire others to reach out and help them. This is one example, and here is another example.
The other thing I've noticed, while carrying on this project for the past six years, is that while there are lots of interesting people to photograph, there are far, far, far more people who are not so interesting. They're probably fine people, and they might even be more interesting than the ones I've photographed ... unfortunately, there was just nothing memorable about them. They're all part of this big, crowded city; but for better or worse, there are an awful lot that you won't see in these Flickr sets of mine...
Some background:
The VF-1 was developed by Stonewell/Bellcom/Shinnakasu for the U.N. Spacy by using alien Overtechnology obtained from the SDF-1 Macross alien spaceship. It was preceded into production by an aerodynamic proving version of its airframe, the VF-X. Unlike all later VF vehicles, the VF-X was strictly a jet aircraft, built to demonstrate that a jet fighter with the features necessary to convert to Battroid mode was aerodynamically feasible.
After the VF-X's testing was finished, an advanced concept atmospheric-only prototype, the VF-0 Phoenix, was flight-tested from 2005 to 2007 and briefly served as an active-duty fighter from 2007 to the VF-1's rollout in late 2008, while the bugs were being worked out of the full-up VF-1 prototype (VF-X-1).
The space-capable VF-1's combat debut was on February 7, 2009, during the Battle of South Ataria Island - the first battle of Space War I, and was the mainstay fighter of the U.N. Spacy for the entire conflict. Introduced in 2008, the VF-1 would be out of frontline service just five years later.
The VF-1 proved to be an extremely capable craft, successfully combating a variety of Zentradi mecha even in most sorties which saw UN Spacy forces significantly outnumbered. The versatility of the Valkyrie design enabled the variable fighter to act as both large-scale infantry and as air/space superiority fighter. The signature skills of U.N. Spacy ace pilot Maximilian Jenius exemplified the effectiveness of the variable systems as he near-constantly transformed the Valkyrie in battle to seize advantages of each mode as combat conditions changed from moment to moment. The basic VF-1 was deployed in four minor variants (designated A, D, J, and S) and its success was increased by continued development of various enhancements including the GBP-1S "Armored" Valkyrie and FAST Pack "Super" Valkyrie weapon systems.
After the end of Space War I, the VF-1A continued to be manufactured both in the Sol system (notably on the Lunar facility Apollo Base) and throughout the UNG space colonies. Although the VF-1 would eventually be replaced as the primary VF of the UN Spacy by the more capable, but also much bigger, VF-4 Lightning III in 2020, a long service record and continued production after the war proved the lasting worth of the design.
The VF-1 was without doubt the most recognizable variable fighter of Space War I and was seen as a vibrant symbol of the U.N. Spacy even into the first year of the New Era 0001 in 2013. At the end of 2015 the final rollout of the VF-1 was celebrated at a special ceremony, commemorating this most famous of variable fighters.
The VF-1 Valkryie was built from 2006 to 2013 with a total production of 5,459 VF-1 variable fighters with several variants (VF-1A = 5,093, VF-1D = 85, VF-1J = 49, VF-1S = 30, VF-1G = 12, VE-1 = 122, VT-1 = 68)
However, the fighter remained active in many second line units and continued to show its worthiness years later, e. g. through Milia Jenius who would use her old VF-1 fighter in defense of the colonization fleet - 35 years after the type's service introduction!
Equipment Type: all-environment variable fighter and tactical combat battroid
Government: U.N. Spacy, U.N. Navy, U.N. Space Air Force
Accommodation: pilot only in Marty & Beck Mk-7 zero/zero ejection seat
Dimensions:
Fighter Mode:
Length 14.23 meters
Wingspan 14.78 meters (fully extended)
Height 3.84 meters
Battroid Mode:
Height 12.68 meters
Width 7.3 meters
Length 4.0 meters
Empty weight: 13.25 metric tons;
Standard T-O mass: 18.5 metric tons;
MTOW: 37.0 metric tons
Power Plant:
2x Shinnakasu Heavy Industry/P&W/Roice FF-2001 thermonuclear reaction turbine engines, output 650 MW each, rated at 11,500 kg in standard or in overboost (225.63 kN x 2)
4 x Shinnakasu Heavy Industry NBS-1 high-thrust vernier thrusters (1 x counter reverse vernier thruster nozzle mounted on the side of each leg nacelle/air intake, 1 x wing thruster roll control system on each wingtip);
18 x P&W LHP04 low-thrust vernier thrusters beneath multipurpose hook/handles
Performance:
Battroid Mode: maximum walking speed 160 km/h
Fighter Mode: at 10,000 m Mach 2.71; at 30,000+ m Mach 3.87
g limit: in space +7
Thrust-to-weight ratio: empty 3.47; standard T-O 2.49; maximum T-O 1.24
Design Features: 3-mode variable transformation; variable geometry wing; vertical take-off and landing; control-configurable vehicle; single-axis thrust vectoring; three "magic hand" manipulators for maintenance use; retractable canopy shield for Battroid mode and atmospheric reentry; option of GBP-1S system, atmospheric-escape booster, or FAST Pack system
Transformation:
Standard time from Fighter to Battroid (automated): under 5 sec.
Min time from Fighter to Battroid (manual): 0.9 sec.
Armament:
1 x internal Mauler RÖV-20 anti-aircraft laser cannon, firing 6,000 pulses per minute
1 x Howard GU-11 55 mm three-barrel Gatling gun pod with 200 rds fired at 1,200 rds/min
4 x underwing hard points for a wide variety of ordnance, including
12x AMM-1 hybrid guided multipurpose missiles (3/point), or
12x MK-82 LDGB conventional bombs (3/point), or
6x RMS-1 large anti-ship reaction missiles (2/outboard point, 1/inboard point), or
4x UUM-7 micro-missile pods (1/point) each carrying 15 x Bifors HMM-01 micro-missiles, or a combination of above load-outs
Optional Armament:
Shinnakasu Heavy Industry GBP-1S ground-combat protector weapon system, or
Shinnakasu Heavy Industry FAST Pack augmentative space weapon system
The kit and its assembly:
This is one more 1:100 Bandai VF-1, IMHO a design masterpiece created by Shoji Kawamori and one of my favorite mecha designs ever, because it was created as an late 70ies style jet fighter that could transform into a robot in a secondary role, a simple, purposeful military vehicle.
I’ve built more than a dozen of these kits over the last 25 years, so I know it pretty well, especially its weaknesses. But the small Valkyries, originally manufactured by IMAI and now still on sale through Bandai (they pop up every 5 years when another Macross anniversary occurs…) are simple and easy to modify, and to me a kind of clean canvas for weird and colorful ideas. The VF-1 carries a huge creative potential.
This VF-1A was built almost OOB. I just made some minor mods, partly based on the design benchmark (see below). These include a pilot figure for the cockpit – actually a modified, HO (1:87) scale sitting soldier from Roco Minitanks; 1:100 pilot figures are hard to find, but I found that these squatted figures fill the cockpit and the relatively flat seat pretty well. A few characteristic blade antennae (four under the lower front fuselage and two behind the cockpit) were added.
Since this VF-1A was to be displayed in flight, the landing gear could be omitted and the covers mounted in closed position. The underwing ordnance was omitted and the pylons’ attachment points faired over. The handgun, hanging under the fuselage in flight mode, was replaced by a smoke generator and an associate tank - actually a drop tank from an Airfix 1:72 Saab Viggen. It also holds an adapter for a scratch-built display, which is taller and less obvious than the OOB offering.
Painting and markings:
This is where the actual work took place – and this Canadian VF-1 is a personal interpretation of a fictional custom Valkyrie profiles by CrazyCanuck, posted at macross.net in the fan art section (check
www.macross2.net/m3/forfansonly/crazycanuck/layouts-snowb... for reference).
There’s hardly a livery that does not suit the elegant VF-1, and I found the Snowbirds scheme very pleasing. I also liked the idea that the VF-1 would be used all over the world, with national adaptations like a Royal Navy(!) variant backed by official publications and source books. So, why not a Canadian Valkyrie?
For easy painting the kit was built in separate section (cockpit, fuselage with wings and butterfly tail, legs, head and the smoke generator), and the use of white AND red –together with yellow IMHO the most challenging tone to work with on models – scared me.
Due to the kit’s tininess I painted everything by brush with enamels. The basic tones are Humbrol 130 and 19, the latter turned out to be a very good representation of the Snowbirds’ deep scarlet red tone.
The cheatline all long the VF-1, literally from nose to feet, was created with decals. Most come from an 1:72 Snowbirds CL-141 Tutor sheet from Victoria productions in Canada (excellent stuff!), part of the trim had to be improvised and extended with generic blue and white decal sheet.
In contrast to the CrazyCanuck illustration, I decided to add Macross insignia instead of Canadian roundels – keeping in line with similar “nationalized” VF-1s in official source books. Some Canadian symbols like the flags on the fins, the roundels in the round depressions at the ankles and the huge Canadian flag on the starboard wing (a personal addition, the maple leaf is a decal while the rest was done with paint) were adopted, though, and they suit the Valkyrie well.
After basis painting was done I followed the engraved panel lines with a fine, very soft pencil. An experiment, because I just wanted a subtle emphasis esp. on the white surfaces, not the 2D/comic-style full black panel lines of former builds.
No other weathering was done, since this VF-1 was to look clean and bright. Finally, everything was sealed with a coat of gloss acrylic varnish, and the characteristic clear parts (visor on the head, position lights on the legs, laser muzzles, position lights) were laid out with acrylic silver and filled out with various shades of clear paint. Just small things, but they enhance the overall impression of the simple model kit a lot.
After a long time it’s a good feeling to build an VF-1 again, and creating a rather bright one was fun, even though the paint job was challenging. But patience and clever improvisation paid out: that Snowbird really stands out, the Snowbirds livery suits the VF-1 well! :-D
River Toad (Phrynoidis aspera). This is the second largest of the Bufo genus in the region, after the Giant River Toad Phrynoidis juxtaspera. Females can reach a maximum size of 12 cm (snout-to-vent); with the addition of powerful back legs this toad can appear very large indeed.
The species inhabits lowland primary and secondary forests, and at night it may be found amongst rocks and sandbanks by streams and rivers. It is identified by its large size and broad head.
It ranges from Myanmar through Thailand and Peninsular Malaysia to Sumatra, Java and Borneo. The absence of fast-flowing rivers means it is absent from Singapore.
Photo by Nick Dobbs, Telaga Tujah, Langkawi, Malaysia 19-12-2023
This little racer was cobbled together from the scrap yard with a singular goal: achieve maximum thrust with minimum mass, with no regard for the safety of the pilot. It is little more than an engine large enough for a medium-sized cargo ship attached to a lawn chair. Sitting in the pilot's seat is a mistake that no one will ever make twice.
Built for the Xenoball Run collab at Brickfair NoVA 2024.
Sanya – Dunhuang - Beijing
A Crossing China 4x4 self-drive 28days
18~22. April 2014
Sanya – Guilin – Kaili - Kunming - Dali - Litang - Qinghai lake - Dunhuang - Xi'an – Beijing
USD: $26000~$36000. / per person - whole journey
Minimum 2 people / one vehicle ~ Maximum 20 people / ten vehicles.
Check in: Guest House International Dadonghai. Sanya. Hainan. China
Booking time: 28th Nov. 2013 - 10th April 2014
Require Now for details:
Email: chinaecotour@gmail.com china-ecotour@hotmail.com
Mobile: +86 18687230299 Skype: zhaofan2808 QQ Chat: 1053600257
www.colour-cn.com www.ecotourchina.com
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With this China a crossing Self-drive 4X4/4WD vehicle journey, we will start from the southern most of China – Dadonghai beach at Sanya city.
The whole journey you will have the only chance to exploring China the whole country on vehicle through to view almost every minority groups of China and whole country’s Geographic landforms.
Ecotour China will going to arrange the vehicles which you will going to drive the whole journey through China. You may ask us for which kind of vehicle.
We will have the vehicle like this on this self-drive journey:
Mitsubishi Pajero, Hyundai, Great wall Hover, Jeep.
If you need another brand car, please let me know and we will going to check it for your.
But also is possible that if you want drive your own car – then you have to ship it into China by your own, but we may going to help with the shipment arrangement for you, please let us know if you will need our help for that.
For booking this journey, we will need documents from every member as:
1. copy of first page of your passport.
2. copy of your driver’s license.
3. your full name and date of birth.
4. an entry fee as deposit of the payment – USD / Euro of $500.
5. You may make your own team with your friends or your family members on the vehicle which you will going to drive with.
Day by day itinerary
Day01,
Sanya of Hainan – Southern China. Meet and arrange whole vehicles ready.
Day02,
Sanya – Yazhou ancient town – Dongfang – Changhua ancient town – Danzhou - Haikou.
Day03,
Haikou – take ferry to Hai’an – Beihai – Yangshuo.
Day04,
Yangshuo – Longsheng rice terraces – Zhaoxing Dong villages – Xijiang Miao village.
Day05,
Xijiang – Kaili – Gejia people - Guiyang – Suoga Long horn Miao.
Day06,
Suoga –Dongchuan red earth.
Day07,
Dongchuan – Stone forest – Dali.
Day08,
Dali, around the Er’hai lake.
Day09,
Dali – Shaxi – Lijiang.
Day10,
Lijiang - Tiger leaping gorge – Baishuitai (Limestone terraces) – ShangriLa.
Day11,
Visit Songtsam monastery – Xiangcheng – Daocheng – Yading.
Day12,
Yading – Litang.
Day13,
Litang – Kangding.
Day14,
Kangding – Huanglong - Jiuzhaigou.
Day15,
Jiuzhaigou - Nuo’ErGai – Xiahe.
Day16,
Xiahe – Labrangsi – cross grassland to Bao’an - Kanbora national park – Gui De.
Day17,
Gui De – Qinghai lake.
Day18,
Qinghai lake – Dachaidan (camp on the desert).
Day19,
Dachaidan – Dunhuang. (desert area).
Day20,
Dunhuang, rest day.
Day21,
Dunhuang – Jiuquan - Zhangye.
Day22,
Zhangye – Wuwei - Lanzhou.
Day23,
Lanzhou – Tianshui – Xi’an.
Day24,
Xi’an – Pingyao ancient town.
Day25,
Pingyao – Taiyuan - Beijing.
Day26,
Beijing, Sightseeing.
Day27,
Beijing, sightseeing and shopping.
Day28,
Beijing, depart on your homeward.
The end of this great self-drive 4X4/4WD journey.
Price in USD: $26000~$36000. / per person - whole Journey
Full package will includes:
1. Self-drive vehicle - 4X4 / 4WD + assistant driver.
2. Leading car + driver.
3. will arrange to use foreign driver’s license to get a Chinese temporary license.
4. Gas, highway toll, Spare tire, professional car kits.
5. Hotels +all meals as breakfast, lunch, dinner.
6. English (other language available) speaking assistant service.
7. Tent, sleeping bag, mat, outdoor stove, cooking gear.
8. picnic food, fruit, bottled water.
9. Doctor, Emergency pack, medicine.
10. arrangement service charge.
Specifications
Engine
• VR-series twin-turbocharged 3.8-liter V6.
• 480 hp @ 6,800 rpm. 430 lb-ft torque @ 3,200–5,200 rpm.
• Dual overhead camshafts with variable intake-valve timing.
• Cast aluminum cylinder block with high-endurance/low-friction plasma-sprayed bores.
• IHI twin turbochargers, one per cylinder bank.
• Pressurized lubrication system with thermostatically controlled cooling.
Drivetrain
• ATTESA ET-S All-Wheel Drive (AWD) with independent rear-mounted transaxle integrating transmission, differential and AWD transfer case.
• Rigid, lightweight carbon-composite driveshaft between engine and transaxle.
• Electronic traction control plus 1.5-way mechanically locking rear differential.
• Vehicle Dynamics Control (VDC-R) with three driver-selectable settings: Normal (for daily driving, controls brakes and engine output), R-Mode (for ultimate performance, utilizes AWD torque distribution for additional vehicle stability) and Off (driver does not want the help of the system).
• Hill Start Assist prevents rollback when starting on an incline.
DisclaimerVDC-R cannot prevent accidents due to abrupt steering, carelessness, or dangerous driving techniques. Always drive safely.
Transmission
• 6-speed Dual Clutch Transmission with three driver-selectable modes: Normal (for maximum smoothness and efficiency), Snow (for gentler starting and shifting on slippery surfaces), and R mode (for maximum performance with fastest shifts).
• Fully automatic shifting or full sequential manual control via gearshift or steering wheel-mounted paddle shifters.
• Dual clutch design changes gears in less than 0.5 second (0.2 second in R mode).
• Downshift Rev Matching (DRM).
• Predictive pre-shift control (in R mode) based on throttle position, vehicle speed, braking and other information.
Wheels and Tires
• 20 x 9.5" (front) and 20 x 10.5" (rear) super-lightweight forged-aluminum wheels with Gunmetal Gray finish.
• Exclusively developed nitrogen-filled Bridgestone® RE070A high-capacity run-flat summer tires, 255/40R20 front and 285/35R20 rear.
• Tire Pressure Monitoring System (TPMS).
• Optional exclusively developed nitrogen-filled Dunlop® run-flat all-season tires, 255/40R20 front and 285/35R20 rear (includes Bright Silver wheels).
Brakes
• Brembo® 4-wheel disc brakes with 4-wheel Antilock Braking System (ABS), Brake Assist, Electronic Brakeforce Distribution and Preview Braking.
• Two-piece floating-rotor 15-inch front and rear discs with diamond-pattern internal ventilation.
• 6-piston front/4-piston rear monoblock calipers.
Steering
• Rack-and-pinion steering with vehicle-speed-sensitive power assist.
• 2.6 steering-wheel turns lock-to-lock.
Suspension
• 4-wheel independent suspension with Bilstein® DampTronic system with three driver-selectable modes: Normal/Sport (for automatic electronic control of damping), Comfort (for maximum ride comfort), and R mode (engages maximum damping rate for high-performance cornering).
• Electronically controlled variable-rate shock absorbers. High-accuracy progressive-rate coil springs.
• Front double-wishbone/rear multi-link configuration with aluminum members and rigid aluminum subframes.
• Hollow front and rear stabilizer bars.
Body/Chassis
• Exclusive Premium Midship platform with jig-welded hybrid unibody.
• Aluminum hood, trunk and door skins. Die-cast aluminum door structures.
• Carbon-reinforced front crossmember/radiator support.
Back to Top
Standard Features
Exterior
• Wide-beam headlights with High Intensity Discharge (HID) low beams.
• LED taillights and brake lights.
• Dual heated power mirrors.
• Flush-mounted aluminum door handles.
• Body-color rear spoiler with integrated center high-mounted stop light.
• UV-reducing tinted glass.
Audio/Navigation/Performance Monitor
• Digital Bose® audio system with AM/FM/in-dash 6-CD changer and 11 speakers including dual subwoofers.
• HDD Music Box system, including hard drive with 9.4 GB for audio storage.
• MP3, WMA and DVD audio capable. In-dash Compact Flash card reader.
• HDD-based GPS navigation with touch screen.
• Driver-configurable performance monitor, developed with Sony® Polyphony, with graphical readouts of vehicle data and driving data displayed on a total of 11 screens.
• 7-inch WVGA high-resolution color-LCD display for audio, navigation and performance monitor.
Interior
• Automatic Temperature Control (ATC).
• Electronic analog instrument cluster with multi-function trip computer and digital gear indicator.
• Power front windows with one-touch auto-up/down feature.
• Intelligent Key system with pushbutton start. Power door locks.
• Cruise control.
• Tilt/telescoping steering column.
• Bluetooth® Hands-free phone system with voice recognition.
Seating/Appointments
• Leather upholstered front seats with perforated Alcantara inserts.
• 8-way power front seats with entry/exit switch for rear-seat passengers.
• Driver-shaped bucket seat.
• Dual individual rear seats.
• Heated front seats.
• Leather-wrapped steering wheel and shift knob.
• Drilled aluminum pedals.
Safety/Security
• Nissan Advanced Air Bag System (AABS) with dual-stage supplemental front air bags, seat belt sensors and occupant-classification sensor.
• Driver and front-passenger side-impact supplemental air bags and roof-mounted curtain supplemental air bags.
• Front seat belts with pretensioners and load limiters.
• Nissan Vehicle Immobilizer System.
• Vehicle Security System.
Sparky has reached Maximum Ear Velocity at Ecola State Park while in a parking space. In between down pours the wind was typically Strong,
Special market like this one opposite shuk Mahane Yehuda for Sukkot. Arba minim stands for the four plants mentioned in the Torah which are essential for the Jewish holiday of Sukkot (Tabernacles). Buying the four plants isn't an easy task. Each element has to meet very high standards. the four plants are identified as: the etrog – the fruit of a citron tree. The lulav – a ripe, green, closed frond from a date palm tree. The hadass - boughs with leaves from the myrtle tree and the aravah – branches with leaves from the willow tree.
Each of the species derserves very close (i.e. maximum) examination. It can take up to several hours to find the perfect etrog.
The Carnage symbiote was born with dangerous and deadly abilities well before the Secret Crisis.
Cletus Kasady is a homicidal psychopath with the alien bonded in his blood. Now combined with technology stolen from Reed Richard's lab the alien symbiote can grow to enormous size and possesses incredible strength.
This new and deadly and shape-shifting form endows Carnage with the ability to project a web-like substance from any part of the mech including the formation of weapons making Maximum Carnage the ultimate mech killer.
Built for FBTB's Mech Madness.
Me and Henry went out this morning to watch the solar eclipse. The clouds sabotaged it, unfortunately...
We went out on the ice-roads in Luleå Archipelago, to get a good view. But as you can see, it was cloudy... There was a solar eclipse right after the sun rised over the horizon. The solar disc was in shadow, by the moon, with a maximum of 80% .
We were out there on the ice for more than 2 hours. This is the best shot I got . It was a bit cold to stand there, -22C.
Also known as the Great Laurel, these fantastic blossoms occur on the typical thick and continuous understory growths throughout the rainforest in the Southern Appalachian highlands.
Taken @ M. Earnshaw Street, Sampaloc, Manila - January 15, 2011
GV FLORIDA TRANSPORT, INC.
Bus Number: B1 (Bullet 1)
Classification: Airconditioned Provincial Operation Bus
Coachbuilder: Del Monte Motor Works, Corporation
Chassis: Hino RM2PSS
Model: DMMC Aero Extreme
Engine: Hino P11C-TE
Bore & Stroke: 122 mm x 155 mm
Displacement: 641.825 cu. inches (10,531 cc / 10.5 Liters)
Cylinders: Inline-6
Aspiration: Turbocharged
Power Output: 320.55 bhp (325 PS - metric hp / 239.04 kW) @ 2,100 rpm
Torque Output: 1,040.56 lb.ft (1,411 N.m) @ 1,100 rpm
Transmission: 6-Speed Forward, 1-Speed Reverse
Maximum Speed: 87.00 mph (140 km/hr) - [estimated]
Layout: Rear-Mounted Engine Rear-Wheel Drive
Airconditioning Unit: Overhead Unit
Suspension: Air-Suspension
Seating Configuration: 2x1
Seating Capacity: 29 Passengers
Fuel Tank Capacity: 105.560 Gallons (400 Liters)
Overall length: 38.99 feet (11.89 Meters)
Overall width: 8.09 feet (2.47 Meters)
Wheel Base: 19.69 feet (6.00 Meters)
Gross Vehicle Weight: 37,536 lbs. (17,000 kg)
* Specifications are subjected for verification and may be changed without prior notice...
The Manned Maneuvering Unit (MMU) is an astronaut propulsion unit that was used by NASA on three Space Shuttle missions in 1984. The MMU allowed the astronauts to perform untethered extravehicular spacewalks at a distance from the shuttle. The MMU was used in practice to retrieve a pair of faulty communications satellites, Westar VI and Palapa B2. Following the third mission the unit was retired from use. A smaller successor, the Simplified Aid For EVA Rescue (SAFER), was first flown in 1994, and is intended for emergency use only.
The MMU was used on three Shuttle missions in 1984. It was first tested on February 7 during mission STS-41-B by astronauts Bruce McCandless II and Robert L. Stewart. Two months later, during mission STS-41-C, astronauts James van Hoften and George Nelson attempted to use the MMU to capture the Solar Maximum Mission satellite and to bring it into the orbiter's payload bay for repairs and servicing. The plan was to use an astronaut-piloted MMU to grapple the SMM with the Trunion Pin Attachment Device (TPAD) mounted between the hand controllers of the MMU, null its rotation rates, and allow the Shuttle to bring it into the Shuttle's payload bay for stowage. Three attempts to grapple the satellite using the TPAD failed. The TPAD jaws could not lock onto Solar Max because of an obstructing grommet on the satellite not included in the blueprints for the satellite. This led to an improvised plan which nearly ended the satellite's mission. The improvisation had the MMU astronaut use his hands to grab hold of an SMM solar array and null the rates by a push from MMU's thrusters. Instead, this attempt induced higher rates and in multiple axes; the satellite was tumbling out of control and quickly losing battery life. SMM Operations Control Center engineers shut down all non-essential SMM subsystems and with a bit of luck were able to recover the SMM minutes before total failure. The ground support engineers then stabilized the satellite and nulled its rotation rates for capture with the orbiter's robotic arm, the Shuttle Remote Manipulator System (SRMS). This proved to be a much better plan. Their successful work increased the lifespan of the satellite.
The Extravehicular Mobility Unit (EMU) is an independent anthropomorphic spacesuit that provides environmental protection, mobility, life support, and communications for astronauts performing extravehicular activity (EVA) in Earth orbit. Introduced in 1981, it is a two-piece semi-rigid suit, and is currently one of two types of EVA spacesuits used by crew members on the International Space Station (ISS), the other being the Russian Orlan space suit. It was used by NASA's Space Shuttle astronauts prior to the end of the Shuttle program in 2011.
This exhibit was at the 1984 Farnborough Airshow known officially the Farnborough International Airshow, which is a trade exhibition for the aerospace and defence industries, where civilian and military aircraft are demonstrated to potential customers and investors. Since its first show in 1948, Farnborough has seen the debut of many famous planes, including the Vickers VC10, Concorde, the Eurofighter, the Airbus A380, and the Lockheed Martin F-35 Joint Strike Fighter. At the 1958 show, the RAF’s Black Arrows executed a 22-plane formation loop, setting a world record.
The international trade show is put together every two years by FIL Farnborough International Ltd. and runs for five days. Formerly, the show ran for a full week with trade visitors attending on the first five days and the weekend reserved for the general public. Programming takes place at the Farnborough Airfield, which lies roughly 50 kilometres south-west of London.
en.wikipedia.org/wiki/Manned_Maneuvering_Unit
Deutschland / Nordrhein-Westfalen - Tagebau Hambach
seen from Viewpoint Berrendorf / Forum terra nova
gesehen vom Aussichtspunkt Berrendorf / Forum terra nova
The Tagebau Hambach is a large open-pit coal mine (German: Tagebau) in Niederzier and Elsdorf, North Rhine–Westphalia, Germany. It is operated by RWE and used for mining lignite.
The mine is on the site of the ancient Hambach Forest which was purchased by RWE in 1978. They then cut most of it down and cleared it to mine. Only 10% of the forest area remains. RWE plans to clear half of the remaining area of the forest between around 2018 and 2020; this plan was met with massive protests in autumn 2018, and was temporarily stopped in October 2018 by the supreme administrative court of North Rhine–Westphalia (Oberverwaltungsgericht für das Land Nordrhein-Westfalen).
Begun in 1978, the mine's operation area currently (as of end of 2017) has a size of 43,8 km2, with the total area designated for mining having a size of 85 km2. It is the deepest open pit mine with respect to sea level: the bottom of the pit with up to 500 metres (1,640 ft) from the surface is 299 metres (981 ft) below sea level, the deepest artificially made point in North Rhine–Westphalia.
The open pit operator RWE, then known as Rheinbraun, initiated the permitting process for open pit mining in 1974 and was able to commence operations in 1978. The first excavator began its work on 15 October 1978. This was accompanied by the resettlement of local villages and towns and the largest forest area in the region, the Hambach Forest, was largely cleared. On 17 January 1984, the first brown coal was mined.
Hambach is the largest open pit mine in Germany with an area of 3,389 hectares (as of 2007) with an approved maximum size of 8500 hectares. About 40 million tons of lignite are produced annually in this mine. It has recently been estimated that 1772 million tons of lignite are still available for mining. The lignite was created from extensive forests and bogs, which developed in the Lower Rhine Bay between 30 and 5 million years ago. The geology of the Lower Rhine Bay is characterized by long-lasting subsidence movements in the last 30 million years, which led to the deposition of up to 1300 m thick sediment layers through the North Sea and many rivers, which today consist of lignite seams up to 100 m thick.
At 299 m below sea level, the deepest point of the Hambach open-pit mine forms the deepest artificial depression in North-Rhine Westphalia.
Since 1995, the giant bucket-wheel excavator Bagger 293 is used to remove the overburden. It hold several Guinness records for terrestrial vehicles.
The opencast mine annually produces a spoil amount of 250 to 300 million m³. The ratio of overburden to coal is 6.2:1. The extracted lignite is transported via the Hambach industrial spur to Bergheim - Auenheim and from there transported via the North–South industrial spur to the power stations Niederaussem, Neurath, Frimmersdorf and Goldenberg near Hürth-Knapsack. The overburden was until 16 April 2009 partially transported by conveyor belt to the Bergheim mine, which has run out of coal and therefore been refilled and recultivated. The visible mark of the open pit is the Sophienhöhe spoil tip, which is considered to be the largest man-made hill, towering over the flat landscape by 200 metres.
From 2013, the open pit area is to be extended southeast. For this, the villages Morschenich and Manheim must be relocated. The A4 motorway and the Hambach industrial spur, via which the lignite is transported to the power stations, were laid around three kilometres to the south parallel to the Cologne-Aachen railway line. In addition, a small piece of the federal highway 477 was moved east.
The open pit mine was put into operation in 1978. Every year about 0.3 cubic kilometres are moved, so that coal and soil with a volume of about 18.6 km³ will be mined by the time the coal runs out in 2040. By April 2009, the overburden, which was hitherto incurred in Hambach is now transported by conveyor belt in the now exhausted Bergheim mine to fill this in again. Now it is tilted exclusively on the western edge of the opencast mine and on the Sophienhöhe. Due to the accumulation of about 1 km³ of material at the Sophienhöhe and the extracted coal, a residual hole is created, which is to be filled up with water after completion of the mining activities.
A lake with an area of 4 ha and a depth of up to 400 m is planned. Size and volume depend on whether the west-located open pit Inden after its decarburization as well as the mine Bergheim filled with material from the open pit Hambach or left open. Lake Hambach would then be the deepest and (in terms of volume) after Lake Constance the second largest lake in Germany. How to fill the opencast mine is still controversial. Some voices suggest taking water from the Rur and / or the Erft or even filling the open pit with a pipeline of Rhine water. However this happens, the filling of the open pit mine is expected to take several decades. Thus, a completion of this artificial water is not expected before the year 2100.
In addition to the complete flooding is also possible to build a pumped storage power plant. A patent from 1995 states that such a pumped storage plant in the Hambach opencast mine can be realized and can provide a multiple of the pumped storage capacity currently available in Germany. The increased use of renewable energy makes this option more important and is being followed with interest by the Mining Authority.
On May 6, 2020, Meyer Burger, a manufacturer of solar cell production machinery, presented its idea for a huge solar park in the Hambach open-cast mine.[9] This would generate electricity with a capacity of around ten gigawatts, which would roughly correspond to the capacity of the Weisweiler, Neurath, Niederaussem and Frimmersdorf coal-fired power plants, which are currently dependent on the open-cast mines. Considerations for a later use of the area of 50 square kilometres include flooding to form a lake landscape. According to Meyer Burger CEO Gunter Erfurt, it would be conceivable to cover Lake Hambach with solar modules. Up to 50 million solar modules with a capacity of 10 gigawatts could be installed - as a floating solar park, as has already been realised in other parts of the world.
According to Meyer Burger CEO Gunter Erfurt, the construction of a state-of-the-art plant for cell and module production is currently being evaluated. In an interview with Radio Rur, Uwe Rau replied that such an idea was feasible, as a major advantage of the Hambach opencast mine was the power transmission lines already in place due to the power plants, which could thus continue to be used.
RWE Power AG announced in May 2020 that photovoltaic projects for the Sophienhöhe are conceivable.
Andreas Pinkwart, Minister for Economic Affairs, Innovation, Digitisation and Energy of North Rhine-Westphalia, also expressed his support for the project.
Since around 2012, an area within the remaining part of the Hambach Forest has been occupied by environmentalists to prevent its planned destruction by RWE.
The occupation involves a settlement with around two dozen tree houses and numerous road barricades. The barricades were erected to prevent mining company and police vehicles from entering.
In November 2017, environmentalists entered the mine and temporarily halted operations. They were met with police using horses and pepper spray.
In 2004, Greenpeace activists demonstrated against climate damage in the Hambach mine due to power generation using lignite. They flew over the open pit with a hot air balloon, occupied an excavator for several days and painted it partly pink. On 13 May 2009, the joint action of the local action group of citizens' initiatives against the relocation of the A4 and Friends of the Earth Germany (BUND) failed before the Federal Administrative Court. The plaintiffs tried to stop the relocation of the A4, which was deemed necessary for the planned extension of the open pit mine and justified this, inter alia, with feared noise pollution as well as the possible threat to the protected Bechstein bat and other species. In 2009, the construction of the new section of motorway began, in September 2014, it was opened to traffic.
Since 2008, there have increasing complaints about possible damage to the hill in the Elsdorf-Heppendorf area; since the burden of proof lies with the complainants, it is difficult to prove the mining operator guilty. The newly formed brown coal committee therefore decided on 16 April 2010, to set up the Bergschaden Braunkohle NRW reclamation service for damage victims in the Rhenish lignite mining area. The former chairman of the Higher Regional Court Hamm Gero Debusmann was appointed chairman of the recourse office. He is already chairman of the conciliation body mining damage in the coal industry. He can be contacted if attempts at reconciliation with RWE Power remain unsatisfactory. The procedure is free of charge for the applicant.
In November 2012 and March 2013, the police cleared tent and hut camps of mining opponents in the remaining Hambacher Forst. In 2012, a squatter had to be fetched from a six-metre deep tunnel and the following year two activists were roped off a tree platform. Later, a new camp was built at another location in the Hambacher forest.
In September 2018, a journalist died after falling from the tree structures built by activists.
(Wikipedia)
Der Tagebau Hambach ist der größte von der RWE Power AG betriebene Tagebau im Rheinischen Braunkohlerevier. Er betrifft die Gemeinden Niederzier, Kreis Düren, und Elsdorf, Rhein-Erft-Kreis. Der Tagebau Hambach ist aufgrund der mit ihm einhergehenden Abgase der Kohleverbrennung und weiterer Umweltzerstörung, unter anderem der Rodung des Hambacher Forsts, umstritten. Über 1000 Jahre alte Ortschaften wie Manheim müssen dem Tagebau weichen.
Der damals noch unter dem Namen Rheinbraun firmierende Tagebaubetreiber leitete 1974 das Genehmigungsverfahren für den Tagebau ein und konnte 1978 mit dem Aufschluss beginnen. Der erste Bagger begann seine Arbeit am 16. Oktober 1978. Damit ging die Umsiedlung von Ortschaften einher und das größte Waldgebiet in der Jülicher Börde, der Bürgewald – bekannter als Hambacher Forst –, wurde weitgehend gerodet. Am 17. Januar 1984 wurde die erste Braunkohle gefördert.
Hambach ist mit einer Betriebsfläche von 4.380 Hektar (2017) bei einer genehmigten Maximalgröße des Abbaufeldes von 8.500 Hektar der größte in Betrieb befindliche Braunkohletagebau in Deutschland. Laut RWE lagerten im Geschäftsjahr 1973/74 geschätzte 4.500 Mio. Tonnen Braunkohle in einer Tiefe bis zu 500 Metern. Gegen 2011 standen noch geschätzte 1.772 Mio. Tonnen Braunkohle zum Abbau zur Verfügung und es wurden auf dieser Fläche jährlich etwa 40 Mio. Tonnen Braunkohle gefördert. Die Braunkohle entstand aus weitflächigen Wäldern und Mooren, die sich in der Niederrheinischen Bucht vor 30 bis vor 5 Mio. Jahren entwickelten. Die Geologie der Niederrheinischen Bucht ist gekennzeichnet durch langanhaltende Senkungsbewegungen in den letzten 30 Mio. Jahren, die zur Ablagerung eines bis zu 1300 m mächtigen Sedimentpaketes durch die Nordsee und durch viele Flüsse geführt haben, in dem sich heute bis zu 100 m mächtige Braunkohleflöze befinden.
Mit 299 m unter NHN bildet der tiefste Punkt des Tagebaus Hambach die tiefste künstliche Senke Nordrhein-Westfalens.
Der Tagebau fördert jährlich eine Abraummenge von 250 bis 300 Mio. m³. Das Verhältnis von Abraum zu Kohle beträgt 6,2 : 1. Die geförderte Braunkohle wird über die Hambachbahn nach Bergheim-Auenheim und von dort aus weiter über die Nord-Süd-Bahn zu den Kraftwerken Niederaußem, in die Kraftwerke Neurath und Frimmersdorf in Grevenbroich sowie nach Goldenberg bei Hürth-Knapsack transportiert. Der Abraum wurde bis zum 16. April 2009 zum Teil per Band zum Tagebau Bergheim befördert, der bereits ausgekohlt ist und deshalb verkippt und rekultiviert wurde. Weithin sichtbares Markenzeichen des Tagebaus ist die Hochkippe Sophienhöhe im Nordwesten des Tagebaus, sie gilt als größter künstlich angelegter Berg, der die ebene Bördenlandschaft um 200 Meter überragt.
Seit Oktober 2014 leitet der Bergbauingenieur Thomas Körber den Tagebau.
Seit 2013 wird die Tagebaufläche südöstlich erweitert. Dazu werden die Ortschaften Morschenich und Manheim umgesiedelt. Die Autobahn A 4 und die Hambachbahn, über die der Transport der Braunkohle zu den Kraftwerken geschieht, wurden um rund drei Kilometer nach Süden parallel zur Eisenbahnstrecke Köln–Aachen verlegt. Außerdem wurde ein kleines Stück der Bundesstraße 477 Richtung Osten verlegt.
Im August 2020 wurde bekanntgegeben, dass an der Abbruchkante ein Brunnen aus dem 2. Jahrhundert ausgegraben werden konnte.
Die CO2-Emissionen aus der Verbrennung der 2019 noch verbliebenen Braunkohle würden rechnerisch für eine Erhöhung des natürlichen CO2-Gehalts der Atmosphäre um ca. 0,7 Promille weltweit ausreichen, oder zusammengezogen eine CO2-Verdoppelung auf der Gesamtfläche Deutschlands bewirken, gerechnet mit 4 kg CO2 je m2 und einer Tonne CO2-Emissionen je Tonne Braunkohle. Das entspricht einer Gesamtmenge von 2,4 % des CO2-Budgets (9,9 Mrd. t CO2), welches sich Deutschland bis 2050 gesteckt hat.
Der Tagebau Hambach ist an Feinstaub-Emissionen in seinem näheren Umfeld beteiligt. Der Anteil des vom Tagebau herrührenden Feinstaubs wird vom Landesamt für Natur, Umwelt und Verbraucherschutz Nordrhein-Westfalen (LANUV NRW) mit 25 % angegeben.
Für das Jahr 2004 wird vom LANUV NRW für Überschreitungen des Feinstaub-Grenzwertes von 50 µg/m³ kein vollständiges Messjahr aufgelistet, der erlaubte Jahresmittelwert von 40 µg/m³ wird jedoch mit 30 µg/m³, der an der Messstation Niederzier festgestellt wird, deutlich unterschritten.
Seit Anfang 2005 gelten EU-weit neue Grenzwerte für Feinstaub-Emissionen. Unter Federführung der Bezirksregierung Köln wurde ein Aktionsplan zur Feinstaubminderung in der Umgebung des Tagebaus Hambach erarbeitet, der am 29. September 2005 in Kraft trat. Der Tagebaubetreiber hatte bereits vorlaufend mit der Umsetzung von Maßnahmen zur Feinstaub-Reduzierung begonnen. Im Jahr 2006 wurden in Niederzier 35 Überschreitungen des Grenzwertes verzeichnet, was genau den erlaubten Überschreitungstagen entsprach. Der Jahresmittelwert sank für diesen Zeitraum auf 29 µg/m³.
Nach der EU-Richtlinie 1999/30/EG sind ab dem 1. Januar 2005 maximal 35 Überschreitungen des PM10-Tagesmittelwertes von 50 µg/m³ pro Jahr zulässig. Seit dem 1. Januar 2010 darf der einzuhaltende Tagesmittelwert für PM10 weiterhin 50 µg/m³ betragen. Seit dem Jahr 2010 sollte der Jahresmittelwert für PM10 nur noch 20 µg/m³ betragen. Dies ist durch die Richtlinie 2008/50/EG vom 21. Mai 2008 (Anhang XI) wieder entschärft worden, so dass ab 2010 weiter der Jahresmittelwert für PM10 40 µg/m³ gilt.
Folgende Maßnahmen zur Bekämpfung von Feinstaub werden laut RWE im Tagebau umgesetzt:
Anpflanzen von Bäumen auf der Abraumseite
Grasbewuchs auf brachliegenden Flächen
Straßen werden befestigt und Bandanlagen auf festen Untergrund gestellt, was Staub vermindert
Berieseln der oberen Sohle auf der Baggerseite
Berieseln der Nordwand
Berieseln von Kohlebunker und Kohlebändern
beim Baggern wird Wasser auf den Abraum gesprüht.
In Betrieb genommen wurde der Tagebau 1978. Jährlich werden etwa 0,3 Kubikkilometer bewegt, sodass gegen Ende der Auskohlung im Jahr 2040 Kohle und Erdreich mit einem Volumen von etwa 18,6 km³ abgebaut sein werden. Bis April 2009 wurde der Abraum, der bis dahin in Hambach anfiel, zum Teil durch Bandanlagen in den ausgekohlten Tagebau Bergheim geschafft, um diesen wieder zu füllen. Nun wird ausschließlich am westlichen Rand des Tagebaus und auf der Sophienhöhe verkippt. Durch die Anhäufung von rund 1 km³ Material an der Sophienhöhe und durch die entnommene Kohle entsteht ein Restloch, das nach Abschluss der Abbautätigkeiten mit Wasser aufgefüllt werden soll.
Als Bergbaufolgelandschaft ist ein Tagebausee mit einer Fläche von 4200 ha, einer Tiefe bis 400 m und einem Volumen von 3,6 Mrd. m³ geplant. Größe und Volumen hängen davon ab, ob der westlich gelegene Tagebau Inden nach dessen Auskohlung ebenso wie der Tagebau Bergheim durch Material aus dem Tagebau Hambach verfüllt oder offen gelassen wird. Der See Hambach wäre dann der tiefste und (nach Volumen) nach dem Bodensee der zweitgrößte See Deutschlands. Wie der Tagebau befüllt werden soll, ist noch umstritten. Einige Stimmen schlagen vor, Wasser aus der Rur und/oder der Erft zu entnehmen oder gar den Tagebau über eine Pipeline mit Rheinwasser zu füllen. Wie dies auch geschieht, die Füllung des Tagebaus wird voraussichtlich einige Jahrzehnte in Anspruch nehmen. Somit ist mit einer Fertigstellung dieses künstlichen Gewässers nicht vor dem Jahr 2100 zu rechnen.
Am 6. Mai 2020 stellte zudem Meyer Burger, ein Hersteller von Solarzellen-Produktionsmaschinen, seine Idee für einen Solarpark vor. Dadurch würde Strom mit der Leistung von etwa zehn Gigawatt erzeugt, was in etwa der Leistung der heute von den Tagebauen abhängigen Kohlekraftwerke Weisweiler, Neurath, Niederaußem und Frimmersdorf entspreche. Überlegungen für eine spätere Nutzung des Gebietes mit einer Fläche von 50 Quadratkilometern sehen die Flutung zur Seenlandschaft vor. Gemäß Meyer Burger CEO ist es denkbar, den Hambacher See mit Solarmodulen zu bedecken. Bis zu 50 Millionen Solarmodule mit einer Leistung von 10 Gigawatt könnten installiert werden – als schwimmender Solarpark, wie er in anderen Teilen der Welt bereits realisiert wurde.[14] Gemäß Uwe Rau ist ein wesentlicher Vorteil des Braunkohletagebau Hambach, dass Stromübertragungsleitungen aufgrund der Kraftwerke bereits vorhanden seien und genutzt werden könnten.
Gemäß RWE Power AG ist ein Photovoltaik-Projekte für die Sophienhöhe vorstellbar.
Unterstützend äußerte sich auch der Minister für Wirtschaft, Innovation, Digitalisierung und Energie von Nordrhein-Westfalen, Andreas Pinkwart.
Neben der vollständigen Flutung des Tagebaurestloches besteht auch die Möglichkeit, ein Pumpspeicherkraftwerk zu errichten. Ein Patent von 1995 führt aus, dass ein solches Pumpspeicherwerk im Tagebau Hambach realisierbar ist und ein Vielfaches der aktuell in Deutschland verfügbaren Pumpspeicherkapazität zur Verfügung stellen kann.[18] Durch die zunehmende Nutzung erneuerbarer Energien gewinnt diese Option an Bedeutung und wird vom Bergamt mit Interesse verfolgt.
Die RWE Power AG gab im Mai 2020 bekannt, dass ein Pumpspeicherwerk zumindest für die Sophienhöhe keine Lösung sei, da dort die Anlage eines Obersees nicht möglich sei. Hingegen seien Photovoltaik-Projekte vorstellbar.
Es gibt ein weiteres Konzept zur Speicherung von elektrischer Energie. Dabei soll aus dem Restloch des Tagebaus Wasser nach oben gepumpt werden und bei Strombedarf wieder an Turbinen vorbei nach unten gelassen werden. Abhängig von der Größe der realisierten Anlagen sind dort gemäß Konzept Speicherkapazitäten von einigen 100 bis einigen 1000 GWh möglich, die Speicherkosten sollen bei 1 bis 2 ct/kWh liegen.
An Pfingsten 2004 demonstrierten Greenpeace-Aktivisten im Tagebau Hambach gegen die Klimaschädigung durch die Braunkohleverstromung. Sie überflogen den Tagebau mit einem Heißluftballon, hielten mehrere Tage einen Bagger besetzt und strichen diesen zum Teil rosa an. Am 13. Mai 2009 scheiterte die gemeinsame Klage der lokalen Aktionsgemeinschaft der Bürgerinitiativen gegen die Verlegung der A 4 und des BUND vor dem Bundesverwaltungsgericht. Die Kläger versuchten, die zur geplanten Erweiterung des Tagebaus notwendige Verlegung der A 4 zu stoppen, und begründeten dies u. a. mit befürchteten Lärmbelastungen sowie der möglichen Bedrohung der unter Naturschutz stehenden Bechsteinfledermaus und andere Arten. 2009 wurde mit dem Bau des neuen Autobahnteilstücks begonnen, im September 2014 wurde es dem Verkehr übergeben.
Seit 2008 werden vermehrt Beschwerden wegen möglicher Bergschäden im Bereich Elsdorf-Heppendorf laut; da die Beweislast bei den Beschwerdeführern liegt, ist der Nachweis gegenüber dem Bergbautreibenden schwierig. Der neugebildete Braunkohlenausschuss beschloss deshalb am 16. April 2010 die Einrichtung der Anrufungsstelle Bergschaden Braunkohle NRW für Betroffene von Bergschäden im rheinischen Braunkohlenrevier. Zum Vorsitzenden der Anrufungsstelle wurde der ehemalige Präsident des Oberlandesgerichts Hamm, Gero Debusmann, berufen. Er ist bereits Vorsitzer der Schlichtungsstelle Bergschäden im Steinkohlenbergbau. Er kann angerufen werden, wenn Einigungsversuche mit RWE Power unbefriedigend geblieben sind. Das Verfahren ist für den Antragsteller kostenfrei.
Im November 2012 und März 2013 räumte die Polizei Zelt- und Hüttenlager von Tagebaugegnern im verbliebenen Hambacher Forst. 2012 musste ein Platzbesetzer aus einem sechs Meter tiefen Erdversteck geholt und im Folgejahr zwei Aktivisten von einer Baumplattform abgeseilt werden. Später entstand ein neues Camp an einer anderen Stelle im Hambacher Forst.
Am 23. Oktober 2016 fand eine Demonstration im Hambacher Forst statt, um das letzte Stück des Waldes zu schützen. Es nahmen laut Polizeiangaben über 1000 Personen teil, die sich in Rot kleideten, um eine rote Linie auf der alten A4 bei Buir zu bilden. Sie wollten mit der Aktion ein Zeichen gegen die Abholzung des letzten Stückes des Hambacher Forstes setzen.
Am 5. November 2017, einen Tag vor Beginn des Weltklimagipfels in Bonn, besetzten rund 3.000 Aktivisten Teile des Tagebaus, um darauf aufmerksam zu machen, dass wenige Kilometer vom Konferenzort entfernt mit dem rheinischen Braunkohlerevier die ihren Angaben zufolge größte CO2-Quelle Europas liegt.
Die Hambach-Gruppe war eine 1977 gegründete Initiative von jungen Wissenschaftlern der RWTH Aachen, die sich kritisch mit Braunkohleabbau und dessen Folgen beschäftigte; beispielsweise dem Aufkauf und Abriss von Ortschaften durch den Tagebau und somit der Vertreibung der dort ansässigen Bewohner. Von 1984 bis 1985 war der spätere Politiker Rüdiger Sagel Geschäftsführer dieser Bürgerinitiative in Aachen. Ihre Aktivitäten endeten vor 1990.
Die Aktionsgemeinschaft der Bürgerinitiativen gegen die Verlegung der Autobahn A4 war ein von 1992 bis 2013 aktiver Zusammenschluss von sechs örtlichen Bürgerinitiativen der Ortschaften Arnoldsweiler, Buir, Manheim, Merzenich und Morschenich gegen den Tagebau Hambach und die Verlegung der Bundesautobahn 4. Der Aktionsgemeinschaft gelang es erstmals, die enormen und irreversiblen Umweltschäden des Tagebaus Hambach in groß angelegten Aktionen darzulegen und so den betroffenen Bürgern vor Augen zu führen, dass Widerstand möglich ist. Die Aktionsgemeinschaft hat viele Widerstandsformen – wie z. B. regelmäßige Waldspaziergänge – erfunden, um auf das Abbaggern des Hambacher Forstes aufmerksam zu machen.
(Wikipedia)
the child of a female worker is waiting for her mothers work to be finished. child care facilities is completely absent in maximum job in Bangladesh. including garments sector , govt. & private sector. only a few multinational organization has the facilities to keep the child in day care center situated in the work place. but in this picture where the mother is a day labor ..its beyond their imagination to get such facilities. they didn't even get any maternal leave . many pregnant women has to work hard like this due to maintain their life.
However Govt. sector & some private sector of Bangladesh allow 6 months maternal leave with full benefit.
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Darwin Harbour is the body of water close to Darwin in the Australian Northern Territory. It opens to the north at a line from Charles Point in the west to Lee Point in the east into the Beagle Gulf and connects via the Clarence Strait with the Van Diemen Gulf. It contains Port Darwin, which is flanked by Frances Bay to the east and Cullen Bay to the west.
Name
It was named after the naturalist Charles Darwin who sailed with Robert Fitzroy on the ship HMS Beagle around parts of Australia. However, Darwin and Fitzroy sailed in 1836 from King George's Sound (Western Australia) directly to the Cocos-Keeling Islands, at the south coast of Java, and from there to Cape Town and back to England. They stayed thus away from Darwin Harbour by 3000 sea miles and did not know of its existence.
Climate
The climate of the Darwin Harbour region is monsoon tropical with two distinct seasons: the Dry and the Wet. The Dry lasts for 6 months between April and September with an average rainfall of 24 mm, whereas the Wet lasts between October and March with an average monthly rainfall of 254 mm/month (according to the Bureau of Meteorology, 1999). The majority of the rain falls between December and April. Runoff varies between 250–1000 mm. Riverine discharge is relatively low with the exception of the Blackmore River and Elizabeth River. Peak flow for these rivers occurs in February, respectively 605Ml/day and 389 Ml/day, after which it slowly decreases until July when there is no freshwater input into Darwin Harbour until the onset of the following wet season (Padovan 1997). Cyclone frequency is low to moderate.
Marine life
Darwin Harbour supports very high fish diversity with 415 fish species now known. Darwin Harbour provides a unique opportunity to see dugongs in the wild, because their favourite food is located off Casuarina and Vestey’s beaches. Seagrass meadows are also the main diet of green turtles and provide habitats for many smaller marine animals including commercially important species such as prawns and fish.
Oceanography
The tides at Port Darwin are macro-tidal with a maximum tidal range of 7.8 m, a mean spring range of 5.5 m and a mean neap range of 1.9 m (Padovan, 1997). The currents caused by these tides are complex and strong.
Estuaries
The Elizabeth River Bridge across Elizabeth River, upstream the East Arm of Darwin Harbour
Darwin Harbour is a drowned river valley and consist of ria shorelines and extensive headlands.
Catchment
The catchment of Darwin Harbour occupies a total area of approximately 3,230 square kilometres (1,247 sq mi), of this 2,010 square kilometres (776 sq mi) is land based and the other 1,220 square kilometres (471 sq mi) are estuarine areas at the high water mark.
Geology
The underlying lithology is dominated by Permian siltstones and sandstones.
Span: Esquiador en Cerro Castor, Tierra del Fuego, Argentina.
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Engl: Skier at Cerro Castor, Tierra del Fuego, Argentina.
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The branding vinyl, on the front destination glass, has been cut far too close to the bottom edge of the destination sign, meaning that the bottom line of the destination display is partially obstructed, when viewed at street level.
I wonder how effective the company will be at replacing the branding on the top deck windows, should any breakages occur? If history is anything to go by: not very. In the past, Leicester buses would run around with decreasing amounts of branding, as windows got smashed. This made the branding look even nastier than it was. The company were also hopeless at updating ticket price point information on vehicles.
I fail to understand why the place names, on the side, haven't been applied to the bodywork, between the top of the advert frame and the bottom of the upper deck windows. I just hope that the company's allocation officials manage to put the buses on the right routes, to get maximum effect. By 04/04/2014, 16 E400s had entered service in Leicester, another 10 were still at Abbey Lane depot yet to turn a wheel in service and 9 were still to be delivered to Leicester.
Everest Basecamp – mount everest, who does not know this mountain. The highest mountain in the world with a height of 8.848 meters (29,028 ft). who always wanted conguered mountain climbers climbers reliable. This mountain is deadly for novice climbers, so for those of you who are still a beginner, do not try to try to conguered this mountain. not necessarily because of his conguered climbers can reliably especially novice climbers.
The following is the Everest base camp
At Everest Base Camp, climbers will Often spend 4-8 weeks, acclimatizing to the altitude. During that time, the “Icefall Doctors” will set up ropes and ladders in the notoriously unstable Khumbu Icefall. Seracs, crevasses and shifting blocks of ice of make the icefall one of the most dangerous sections of the route. Many climbers and Sherpas have been killed in this section. To reduce the risk, climbers will usually begin Reviews their ascent well before sunrise when the freezing Temperatures glue ice blocks in place.Camp I
Above the icefall is Camp I at 6.065 m (19,900 ft) Camp 1 is mostly a temporary camp with most climbers just spending one night at this camp.Camp II
Base Camp II, Advanced Base Camp (ABC) is established at 6,400 m (21,300 ft). The Western Cwm is a are relatively flat, Gently rising glacial valley, marked by huge lateral crevasses in the center roomates Prevent direct access to the Upper Reaches of the Cwm. Climbers are forced to cross on the far right near the base of Nuptse to a small passageway known as the “Nuptse corner”. The Western Cwm as the topography of the area geneally cuts off wind from the climbing route. The high altitude and a clear, windless day can the make the Western Cwm unbearably hot for climbers.Camp III
From ABC, climbers ascend the Lhotse face on set of ropes up to Camp III, on small ledges situated at Approximately 7,200 m to 7,400 m. From there, it is another 500 meters to Camp IV on the South Col at 7.920 m (26,000 ft). From Camp III to Camp IV, mountaineers are faced with two additional obstacles: The “Geneva Spur” and the “Yellow Band”. The Geneva Spur is an anvil shaped rib of black rock named by a 1952 Swiss expedition. Fixed ropes help climbers in scrambling over this snow covered rock band. The Yellow Band is a section of sedimentary sandstone. The route from the base of the Lhotse face to the Summit is almost always completely fixed with static line.Camp IV
On the South Col, climbers are very close to 8,000 m and can only spend limited time at those altitudes even with supplemental oxygen. Climbers typically only have a maximum of two or three days they can tolerate at this altitude for making peak bids. Clear weather and low winds are important factors when Deciding on a summit attempt. If weather does not cooperate within Reviews These short few days, climbers are forced to move down, many all the way back down to Base Camp.
From Camp IV, mountaineers Reviews their summit push will start from 8 pm to 2 am with the hope of reaching the summit (still another 1,000 meters above) within 10 to 12 hours. Climbers will first reach “The Balcony” at 8,400 m (27,700 ft), a small platform where they can rest and gaze at peaks to the south and east in the early dawn light. Continuing up the ridge, climbers are then faced with a series of impressive rock steps the which usually forces them to the east into waist deep snow, a large amount of sudden grave hazard. At 8,750 m (28,700 ft), a small table-sized arena of ice and snow marks the South Summit.
From the South Peak, mountaineers go after the knife-edge along the Southeast Ridge the which is known as the “Cornice traverse” where snow griping to irregular rock. This is the most bare part of the climb as a misstep to the left would send one 2,400 m (8,000 ft) down the southwest face while to the immediate right is the 3,050 m (10,000 ft) Kangshung face. At the end of this traverse is an imposing 12 m (40 ft) rock wall called the “Hillary Step” at 8.760 m (28.750 ft).
Tenzing and Hillary were the first mountaineers to rise this step and they did it with prehistoric ice climbing equipment and without fixed ropes. Now, climbers will ascend this step using fixed ropes Previously set up by Sherpas. Once above the step, it is a comparatively easy climb to the top on fairly angled snow slopes – though the exposure on the ridge is extreme especially while traversing very large cornices of snow. After the Hillary Step, climbers must traverse Also a very loose and rocky section that has a very large entanglement of fixed ropes that can be troublesome in bad weather. Climbers will typically spend less than a half-hour on “top of the world” as they Realize the need to descend to Camp IV before darkness sets in, afternoon weather Becomes a serious problem, or supplemental oxygen tanks run out.
That Everest base camp you will visit when you are mountain climbing Everest. if you are big enough guts, you should climb this mountain. but if you are in doubt it is better not try to climb this mountain.
by New Hotel Travel in ift.tt/1q2Vh1i