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Fore/dorsal angled view.
Name: S.S. Bessemer
Registration Number: KCC-1894 (Kolter Construction Contract Number 1,894)
Affiliation: Kolter Mining, Refining, and Fuel.
Class Name: Bessemer class
Type: Deep Space Mining Operations Flagship
Commissioned: Circa late 2500’s, post recent major conflict
Specifications:
Length: 1,844 meters (184.4 studs, 58.1 inches, 4.83 feet, 147.5 cm model)
Width: 503 meters (50.3 studs, 15.8 inches, 40.2 cm model)
Height: 484 meters, 398 meters without dorsal comms array, (48.4 studs, 15.2 inches, 38.7 cm model)
Crew: 2,950 standard complement + capacity for crew families, as well as smaller guest quarters for up to 2,000 additional personnel to be moved to/from mining operations.
Armament: 1 super-heavy coaxial particle beam cannon, (primarily for asteroid mining, but also more than capable of defensive action,) 4 dual-mounted heavy particle cannon turrets, 8 dual-mounted medium particle cannon turrets, 2 coaxial fore medium particle cannons, 80 quad-mounted 80mm anti-fighter flak railgun turrets.
Defensive systems:
Hull: Super-heavy steel alloy hull with carbon nanotube/buckypaper composite layers as spall lining.
Armor plating: steel, titanium alloy, tungsten, ceramic, and carbon nanotube composite armor layers against asteroids/other space debris, kinetic weapons, kinetic spalling, particle, laser, and plasma fire. Thick composite armor provides excellent survivability, but with very high mass. Some battleships are less armored than this ship.
Bulkheads: Extensive titanium bulkhead support network.
Structural integrity field: High power system designed for significant cargo mass placing stress on the frame, or to withstand asteroid impacts to the hull.
Shielding: Internally housed high power adaptive particle field repulsing shielding system capable of surviving significant punishment. Some older battleships have less robust shielding.
Powerplant: 1 primary matter-antimatter reactor with extensive fuel reserves, 2 secondary fusion reactors with extensive fuel reserves. Multiple massive power capacitors. Extensive heatinks.
Propulsion: 1 massive primary fusion engine for sub-lightspeed travel, 1 internal FTL core capable of moderate FTL speed, long range travel, and 32 large reaction control thrusters for slow but dependable below light speed maneuvering.
Computer systems: Single supercomputer core with onboard Virtual Intelligence system.
Comms and Sensors: Local and FTL comms arrays. Radar, LIDAR, infrared, multi-spectral, and additional other local area sensors systems, along with extensive FTL sensors.
Additional Systems: High power artificial singularity for both artificial gravity generation and inertial dampening, allowing for 1G gravity even when hauling an entire cargo hold full of heavy-metal. 6 massive blast furnaces for refining metal ore, an enormous central cargo hold system, 4 fuel refining tanks, 4 massive fuel storage tanks, and an internal rail system for moving ore and personnel.
Embarked Craft: 2 Thunderbird class super-heavy cargo/personnel shuttles, 2 Hurricane class heavy cargo/personnel shuttles, 20 heavy mining drones, 24 medium mining drones, 2 gunships of variable class, 2 heavy fighter/bombers of variable class, potential for multiple additional light shuttles and fighters.
Background: After seeing both the devastation to outlying areas of space caused by the recent Great War, and the corruption within the Federal Defense Navy (working title) Admiralty, Captain David Courtland retired honorably from military service and went to helm his family’s generations old mining company, Kolter Mining, Refining, and Fuel; one of the largest mining companies in United Earth Federation space. (Working title.)
He wanted to take the company, already a reputable and successful business, in a new direction. That direction was the disputed, war-torn, no-man’s-waste-land of space known as The Divide, (working title) situated between the major powers of the galaxy. Life in The Divide was desperate, with little hope for the many people stranded in the ruins, poverty, and crime infested land. None of the major powers could intervene without starting another territorial war, and as such, pirates, gangs, and unscrupulous mega-corporations ruled supreme.
Courtland wanted to make a difference to this sorrowful place, and with trillions of credits and a Fortunes 1,000 company at his control, he had the means to at least begin; although even he lacked the ability to single-handedly remedy the myriad of woes The Divide faced.
David’s plan was simple, to move significant mining operations to The Divide, thus:
1: Creating new, safe, well-paying, good jobs for both an area and an industry that seldom offered such things.
2: Allowing for the placement of company security forces to deter pirate activity around major settlements.
3: Providing tax-free revenue to fund new schools, hospitals, food, water, shetler, and other charitable activities in The Divide.
But to do it, he required a new kind of mining vessel, as well as additional security forces. Thus he contacted Nelson Heavy Industries, who in turn partnered with AxonTech Interstellar Systems for some components, to place an order for a line of custom massive deep space mining operation flagships with enhanced combat capabilities and capable of operating in the remotest reaches of space for months or even years at a time. And so the Bessemer class was born.
The Bessemer class is unlike any mining vessel ever produced before it. Certainly significantly larger mining ships existed, but these were typically little more than unarmed, slow moving things with small engines; closer to a semi-mobile starbase than a combination frontier battleship/mining vessel. But Courtland required something unique. Something that could move faster, survive more punishment, and something that had teeth; not a fragile, barely moving thing that would only sit in safe areas of space. Courtland needed a mighty sheepdog in a world of sheep and wolves.
Bessemer class vessels are 1,844 meters long, and possess more armor, firepower, and shielding than many pre Great War battleship designs. Almost any pirate or local gang would be terrified of the sight of over a mile of steel and particle cannons; clad in Kolter white, green, and yellow.
But the Bessemer, and others of her class, are not merely warships masquerading as civilian craft. They are heavy mining machines that live up to their name; a steel producing process that revolutionized the industry of Earth some seven hundred years earlier. The Bessemer and her sister ships are capable of blasting metal-rich asteroids to bits with their coaxial mining particle beam cannon, and then having swarms of automated mining drones devour any valuable deposits within before unloading the materials into the Bessemer’s ore hold for the internal rail system to run any raw ore through her six corvette sized forges, and then having the refined metal shunted to her cavernous lower hold, while any waste material from the refining process is vented directly into space.
Ships of this class are outfitted with a sizable hangar, advanced sensor suite, extensive internal cargo bays, and large cargo pod clamps that allow it to act in the capacity of miner, defensive ship, operations command center, and even freighter and personnel carrier should usual shipping to outlying mining sites be disrupted.
But capable as they are, these are not the spartan mining vessels with unlivable working conditions that some shady companies have been known to operate. These space-faring cities of steel feature robust safety systems, spacious and comfortable crew quarters, multiple restaurants, multiple mess-halls, multiple shops for clothing, food, electronics, and other items, an arcade, multiple gyms with weights, various weight and cardio machines, martial arts areas, gymnastics equipment, along with a walking track, a small bowling alley, an olympic sized swimming pool, a multi-sport stadium, a greenhouse, hydroponics bays, a small stage/concert area, several computer labs, a library, a small movie theater, crew lounges and break areas, a salon/spa, a bar/club, chapels, classroom/daycare areas, office areas, as well as repair stations, enough dry and frozen storage to keep everyone fed for extended missions, advanced workshops, astrotography, laboratories, guest bunk-rooms, and a starbase grade medical center.
Not everyone is happy about Kolter Mining’s efforts, however. While Courtland founded the Kolter Foundation to aid those in need, he also lobbied for what came to be known as the Kolter Bill to be passed. Mining employees out in the colonies loved the added protections this afforded them. But the executives of Kolter’s rival mining companies operating out of Earth’s colony worlds quickly found themselves facing laws that favored the profits of Kolter and their already developed safety systems and excellent treatment of employees. What’s more, the Federal Defense Navy Admiralty have been continually frustrated that rather than helping to line their pockets as part of the military industrial complex, Courtland has been working tirelessly to reveal their corruption and hidden support of crime in outlying areas of space.
What’s more, there are even rumors that Courtland is now working with, and possibly even helping to fund, a mercenary vigilante unit out in The Divide known as the Phoenix Command Group, founded by Jonathan Scarlett, another former Federal Defense Navy Captain who ran afoul of the Admiralty.
The wealthy and corrupt among the Admiralty, military industrial complex, crime syndicates, and corrupt businesses running shady operations out in The Divide are deeply troubled by these rumors. But those who are now citizens of no nation, and who have known nothing but hopelessness and need for years, have a slight spark of hope rising like a Phoenix.
IRL info: This digital SHIP was made in Bricklink’s Studio software from September 11th to September 30th, 2021. I did not originally plan to participate in SHIPtember, but I couldn’t resist. It is 184 studs (58.1 inches) long, 50 studs wide, and 48 studs high. It is comprised of 23,470 pieces, which I believe makes it my highest piece-count SHIP to date, and means that the model itself has a mass of 973.502 ounces, or 60.843 pounds, or 27.597 kilograms, which most likely makes it my heaviest SHIP as well as my most piece intensive. (I really need to learn to build a little more hollow.) Note that it uses all real pieces/colors that are available for sale on Bricklink. (Albeit at a price that makes attempting to build it in physical bricks highly impractical.) It is 100% connected, and should be at least somewhat stable in real life. I would want to reinforce the fore-end with more Technic, and switch out the longest Lego Technic axle holding the engine for an aftermarket stainless steel version. I cannot guarantee that various sections built out from the main SNOT and Technic frame would be totally stable without slight redesign of a few bits. It would also require a hefty display stand of some kind.
The current pictures are WIP to show the completed status of the build itself. Better renders done by importing the Studio build into Mecabricks, replacing any pieces that fail to load or change position, and then exporting to Blender for higher quality rendering, and finally hopefully doing some cool backgrounds with GIMP, will hopefully follow before whatever October picture deadline is decided on. Please do not use these early pictures in the poster if time remains, as I hope to provide better ones. Thank you for reading this lengthy description. Have a cookie.
If this ship had a theme song, this magnificent piece by Clamavi De Profundis would be it: youtu.be/Xm96Cqu4Ils
Aft ventral view showing cargo pod clamps and medium drones.
Name: S.S. Bessemer
Registration Number: KCC-1894 (Kolter Construction Contract Number 1,894)
Affiliation: Kolter Mining, Refining, and Fuel.
Class Name: Bessemer class
Type: Deep Space Mining Operations Flagship
Commissioned: Circa late 2500’s, post recent major conflict
Specifications:
Length: 1,844 meters (184.4 studs, 58.1 inches, 4.83 feet, 147.5 cm model)
Width: 503 meters (50.3 studs, 15.8 inches, 40.2 cm model)
Height: 484 meters, 398 meters without dorsal comms array, (48.4 studs, 15.2 inches, 38.7 cm model)
Crew: 2,950 standard complement + capacity for crew families, as well as smaller guest quarters for up to 2,000 additional personnel to be moved to/from mining operations.
Armament: 1 super-heavy coaxial particle beam cannon, (primarily for asteroid mining, but also more than capable of defensive action,) 4 dual-mounted heavy particle cannon turrets, 8 dual-mounted medium particle cannon turrets, 2 coaxial fore medium particle cannons, 80 quad-mounted 80mm anti-fighter flak railgun turrets.
Defensive systems:
Hull: Super-heavy steel alloy hull with carbon nanotube/buckypaper composite layers as spall lining.
Armor plating: steel, titanium alloy, tungsten, ceramic, and carbon nanotube composite armor layers against asteroids/other space debris, kinetic weapons, kinetic spalling, particle, laser, and plasma fire. Thick composite armor provides excellent survivability, but with very high mass. Some battleships are less armored than this ship.
Bulkheads: Extensive titanium bulkhead support network.
Structural integrity field: High power system designed for significant cargo mass placing stress on the frame, or to withstand asteroid impacts to the hull.
Shielding: Internally housed high power adaptive particle field repulsing shielding system capable of surviving significant punishment. Some older battleships have less robust shielding.
Powerplant: 1 primary matter-antimatter reactor with extensive fuel reserves, 2 secondary fusion reactors with extensive fuel reserves. Multiple massive power capacitors. Extensive heatinks.
Propulsion: 1 massive primary fusion engine for sub-lightspeed travel, 1 internal FTL core capable of moderate FTL speed, long range travel, and 32 large reaction control thrusters for slow but dependable below light speed maneuvering.
Computer systems: Single supercomputer core with onboard Virtual Intelligence system.
Comms and Sensors: Local and FTL comms arrays. Radar, LIDAR, infrared, multi-spectral, and additional other local area sensors systems, along with extensive FTL sensors.
Additional Systems: High power artificial singularity for both artificial gravity generation and inertial dampening, allowing for 1G gravity even when hauling an entire cargo hold full of heavy-metal. 6 massive blast furnaces for refining metal ore, an enormous central cargo hold system, 4 fuel refining tanks, 4 massive fuel storage tanks, and an internal rail system for moving ore and personnel.
Embarked Craft: 2 Thunderbird class super-heavy cargo/personnel shuttles, 2 Hurricane class heavy cargo/personnel shuttles, 20 heavy mining drones, 24 medium mining drones, 2 gunships of variable class, 2 heavy fighter/bombers of variable class, potential for multiple additional light shuttles and fighters.
Background: After seeing both the devastation to outlying areas of space caused by the recent Great War, and the corruption within the Federal Defense Navy (working title) Admiralty, Captain David Courtland retired honorably from military service and went to helm his family’s generations old mining company, Kolter Mining, Refining, and Fuel; one of the largest mining companies in United Earth Federation space. (Working title.)
He wanted to take the company, already a reputable and successful business, in a new direction. That direction was the disputed, war-torn, no-man’s-waste-land of space known as The Divide, (working title) situated between the major powers of the galaxy. Life in The Divide was desperate, with little hope for the many people stranded in the ruins, poverty, and crime infested land. None of the major powers could intervene without starting another territorial war, and as such, pirates, gangs, and unscrupulous mega-corporations ruled supreme.
Courtland wanted to make a difference to this sorrowful place, and with trillions of credits and a Fortunes 1,000 company at his control, he had the means to at least begin; although even he lacked the ability to single-handedly remedy the myriad of woes The Divide faced.
David’s plan was simple, to move significant mining operations to The Divide, thus:
1: Creating new, safe, well-paying, good jobs for both an area and an industry that seldom offered such things.
2: Allowing for the placement of company security forces to deter pirate activity around major settlements.
3: Providing tax-free revenue to fund new schools, hospitals, food, water, shetler, and other charitable activities in The Divide.
But to do it, he required a new kind of mining vessel, as well as additional security forces. Thus he contacted Nelson Heavy Industries, who in turn partnered with AxonTech Interstellar Systems for some components, to place an order for a line of custom massive deep space mining operation flagships with enhanced combat capabilities and capable of operating in the remotest reaches of space for months or even years at a time. And so the Bessemer class was born.
The Bessemer class is unlike any mining vessel ever produced before it. Certainly significantly larger mining ships existed, but these were typically little more than unarmed, slow moving things with small engines; closer to a semi-mobile starbase than a combination frontier battleship/mining vessel. But Courtland required something unique. Something that could move faster, survive more punishment, and something that had teeth; not a fragile, barely moving thing that would only sit in safe areas of space. Courtland needed a mighty sheepdog in a world of sheep and wolves.
Bessemer class vessels are 1,844 meters long, and possess more armor, firepower, and shielding than many pre Great War battleship designs. Almost any pirate or local gang would be terrified of the sight of over a mile of steel and particle cannons; clad in Kolter white, green, and yellow.
But the Bessemer, and others of her class, are not merely warships masquerading as civilian craft. They are heavy mining machines that live up to their name; a steel producing process that revolutionized the industry of Earth some seven hundred years earlier. The Bessemer and her sister ships are capable of blasting metal-rich asteroids to bits with their coaxial mining particle beam cannon, and then having swarms of automated mining drones devour any valuable deposits within before unloading the materials into the Bessemer’s ore hold for the internal rail system to run any raw ore through her six corvette sized forges, and then having the refined metal shunted to her cavernous lower hold, while any waste material from the refining process is vented directly into space.
Ships of this class are outfitted with a sizable hangar, advanced sensor suite, extensive internal cargo bays, and large cargo pod clamps that allow it to act in the capacity of miner, defensive ship, operations command center, and even freighter and personnel carrier should usual shipping to outlying mining sites be disrupted.
But capable as they are, these are not the spartan mining vessels with unlivable working conditions that some shady companies have been known to operate. These space-faring cities of steel feature robust safety systems, spacious and comfortable crew quarters, multiple restaurants, multiple mess-halls, multiple shops for clothing, food, electronics, and other items, an arcade, multiple gyms with weights, various weight and cardio machines, martial arts areas, gymnastics equipment, along with a walking track, a small bowling alley, an olympic sized swimming pool, a multi-sport stadium, a greenhouse, hydroponics bays, a small stage/concert area, several computer labs, a library, a small movie theater, crew lounges and break areas, a salon/spa, a bar/club, chapels, classroom/daycare areas, office areas, as well as repair stations, enough dry and frozen storage to keep everyone fed for extended missions, advanced workshops, astrotography, laboratories, guest bunk-rooms, and a starbase grade medical center.
Not everyone is happy about Kolter Mining’s efforts, however. While Courtland founded the Kolter Foundation to aid those in need, he also lobbied for what came to be known as the Kolter Bill to be passed. Mining employees out in the colonies loved the added protections this afforded them. But the executives of Kolter’s rival mining companies operating out of Earth’s colony worlds quickly found themselves facing laws that favored the profits of Kolter and their already developed safety systems and excellent treatment of employees. What’s more, the Federal Defense Navy Admiralty have been continually frustrated that rather than helping to line their pockets as part of the military industrial complex, Courtland has been working tirelessly to reveal their corruption and hidden support of crime in outlying areas of space.
What’s more, there are even rumors that Courtland is now working with, and possibly even helping to fund, a mercenary vigilante unit out in The Divide known as the Phoenix Command Group, founded by Jonathan Scarlett, another former Federal Defense Navy Captain who ran afoul of the Admiralty.
The wealthy and corrupt among the Admiralty, military industrial complex, crime syndicates, and corrupt businesses running shady operations out in The Divide are deeply troubled by these rumors. But those who are now citizens of no nation, and who have known nothing but hopelessness and need for years, have a slight spark of hope rising like a Phoenix.
IRL info: This digital SHIP was made in Bricklink’s Studio software from September 11th to September 30th, 2021. I did not originally plan to participate in SHIPtember, but I couldn’t resist. It is 184 studs (58.1 inches) long, 50 studs wide, and 48 studs high. It is comprised of 23,470 pieces, which I believe makes it my highest piece-count SHIP to date, and means that the model itself has a mass of 973.502 ounces, or 60.843 pounds, or 27.597 kilograms, which most likely makes it my heaviest SHIP as well as my most piece intensive. (I really need to learn to build a little more hollow.) Note that it uses all real pieces/colors that are available for sale on Bricklink. (Albeit at a price that makes attempting to build it in physical bricks highly impractical.) It is 100% connected, and should be at least somewhat stable in real life. I would want to reinforce the fore-end with more Technic, and switch out the longest Lego Technic axle holding the engine for an aftermarket stainless steel version. I cannot guarantee that various sections built out from the main SNOT and Technic frame would be totally stable without slight redesign of a few bits. It would also require a hefty display stand of some kind.
The current pictures are WIP to show the completed status of the build itself. Better renders done by importing the Studio build into Mecabricks, replacing any pieces that fail to load or change position, and then exporting to Blender for higher quality rendering, and finally hopefully doing some cool backgrounds with GIMP, will hopefully follow before whatever October picture deadline is decided on. Please do not use these early pictures in the poster if time remains, as I hope to provide better ones. Thank you for reading this lengthy description. Have a cookie.
If this ship had a theme song, this magnificent piece by Clamavi De Profundis would be it: youtu.be/Xm96Cqu4Ils
Recently I decided to give it a go and refine my rather old design for my Hogwarts Express MOC, with this new official set coming out this year it offers a great piece to use for the nameboard plus the new 1 x 3 double jumper plate has enabled many previously weak joins to be much stronger since it relies on one piece rather than a few.
I decided to go with the 8-wide build as I feel it offers much more freedom for details and strength as the majority of the loco is no longer made from plates adding up to 7-wide.
The entire drive chassis has been heavily reinforced and has gone from the most fragile part of the loco to I'd say the strongest. It now has a much more solid attachment to the cab area and the running board overall has been strengthened.
I have managed to get the drive wheels set back by half a stud which tucks the rear drive wheels further under the cab than before thus making it closer to the real loco.
One thing I did have to sacrifice in the name of keeping everything genuine was the front drive wheels being set back by half a stud, while this does look closer to the real wheel spacing there are no legal build methods I have been able to come up with that make it so this setup works well and keeps together properly as there was only a 4 long axle in the front half of the rods which caused the rods to either fall apart or get pressed together and disturb the smoothness of the wheels.
The tender is out of frame because it is currently undergoing an overhaul as well to try and get not only more detail but better overall strength as it too is another problem area when it comes to the fragility of this model.
Port central side view showing armor planel with heavy mining drone docking, main docking tube, and a pair of heavy particle cannon turrets, all over the central cargo holds for ore and refined metal.
Name: S.S. Bessemer
Registration Number: KCC-1894 (Kolter Construction Contract Number 1,894)
Affiliation: Kolter Mining, Refining, and Fuel.
Class Name: Bessemer class
Type: Deep Space Mining Operations Flagship
Commissioned: Circa late 2500’s, post recent major conflict
Specifications:
Length: 1,844 meters (184.4 studs, 58.1 inches, 4.83 feet, 147.5 cm model)
Width: 503 meters (50.3 studs, 15.8 inches, 40.2 cm model)
Height: 484 meters, 398 meters without dorsal comms array, (48.4 studs, 15.2 inches, 38.7 cm model)
Crew: 2,950 standard complement + capacity for crew families, as well as smaller guest quarters for up to 2,000 additional personnel to be moved to/from mining operations.
Armament: 1 super-heavy coaxial particle beam cannon, (primarily for asteroid mining, but also more than capable of defensive action,) 4 dual-mounted heavy particle cannon turrets, 8 dual-mounted medium particle cannon turrets, 2 coaxial fore medium particle cannons, 80 quad-mounted 80mm anti-fighter flak railgun turrets.
Defensive systems:
Hull: Super-heavy steel alloy hull with carbon nanotube/buckypaper composite layers as spall lining.
Armor plating: steel, titanium alloy, tungsten, ceramic, and carbon nanotube composite armor layers against asteroids/other space debris, kinetic weapons, kinetic spalling, particle, laser, and plasma fire. Thick composite armor provides excellent survivability, but with very high mass. Some battleships are less armored than this ship.
Bulkheads: Extensive titanium bulkhead support network.
Structural integrity field: High power system designed for significant cargo mass placing stress on the frame, or to withstand asteroid impacts to the hull.
Shielding: Internally housed high power adaptive particle field repulsing shielding system capable of surviving significant punishment. Some older battleships have less robust shielding.
Powerplant: 1 primary matter-antimatter reactor with extensive fuel reserves, 2 secondary fusion reactors with extensive fuel reserves. Multiple massive power capacitors. Extensive heatinks.
Propulsion: 1 massive primary fusion engine for sub-lightspeed travel, 1 internal FTL core capable of moderate FTL speed, long range travel, and 32 large reaction control thrusters for slow but dependable below light speed maneuvering.
Computer systems: Single supercomputer core with onboard Virtual Intelligence system.
Comms and Sensors: Local and FTL comms arrays. Radar, LIDAR, infrared, multi-spectral, and additional other local area sensors systems, along with extensive FTL sensors.
Additional Systems: High power artificial singularity for both artificial gravity generation and inertial dampening, allowing for 1G gravity even when hauling an entire cargo hold full of heavy-metal. 6 massive blast furnaces for refining metal ore, an enormous central cargo hold system, 4 fuel refining tanks, 4 massive fuel storage tanks, and an internal rail system for moving ore and personnel.
Embarked Craft: 2 Thunderbird class super-heavy cargo/personnel shuttles, 2 Hurricane class heavy cargo/personnel shuttles, 20 heavy mining drones, 24 medium mining drones, 2 gunships of variable class, 2 heavy fighter/bombers of variable class, potential for multiple additional light shuttles and fighters.
Background: After seeing both the devastation to outlying areas of space caused by the recent Great War, and the corruption within the Federal Defense Navy (working title) Admiralty, Captain David Courtland retired honorably from military service and went to helm his family’s generations old mining company, Kolter Mining, Refining, and Fuel; one of the largest mining companies in United Earth Federation space. (Working title.)
He wanted to take the company, already a reputable and successful business, in a new direction. That direction was the disputed, war-torn, no-man’s-waste-land of space known as The Divide, (working title) situated between the major powers of the galaxy. Life in The Divide was desperate, with little hope for the many people stranded in the ruins, poverty, and crime infested land. None of the major powers could intervene without starting another territorial war, and as such, pirates, gangs, and unscrupulous mega-corporations ruled supreme.
Courtland wanted to make a difference to this sorrowful place, and with trillions of credits and a Fortunes 1,000 company at his control, he had the means to at least begin; although even he lacked the ability to single-handedly remedy the myriad of woes The Divide faced.
David’s plan was simple, to move significant mining operations to The Divide, thus:
1: Creating new, safe, well-paying, good jobs for both an area and an industry that seldom offered such things.
2: Allowing for the placement of company security forces to deter pirate activity around major settlements.
3: Providing tax-free revenue to fund new schools, hospitals, food, water, shetler, and other charitable activities in The Divide.
But to do it, he required a new kind of mining vessel, as well as additional security forces. Thus he contacted Nelson Heavy Industries, who in turn partnered with AxonTech Interstellar Systems for some components, to place an order for a line of custom massive deep space mining operation flagships with enhanced combat capabilities and capable of operating in the remotest reaches of space for months or even years at a time. And so the Bessemer class was born.
The Bessemer class is unlike any mining vessel ever produced before it. Certainly significantly larger mining ships existed, but these were typically little more than unarmed, slow moving things with small engines; closer to a semi-mobile starbase than a combination frontier battleship/mining vessel. But Courtland required something unique. Something that could move faster, survive more punishment, and something that had teeth; not a fragile, barely moving thing that would only sit in safe areas of space. Courtland needed a mighty sheepdog in a world of sheep and wolves.
Bessemer class vessels are 1,844 meters long, and possess more armor, firepower, and shielding than many pre Great War battleship designs. Almost any pirate or local gang would be terrified of the sight of over a mile of steel and particle cannons; clad in Kolter white, green, and yellow.
But the Bessemer, and others of her class, are not merely warships masquerading as civilian craft. They are heavy mining machines that live up to their name; a steel producing process that revolutionized the industry of Earth some seven hundred years earlier. The Bessemer and her sister ships are capable of blasting metal-rich asteroids to bits with their coaxial mining particle beam cannon, and then having swarms of automated mining drones devour any valuable deposits within before unloading the materials into the Bessemer’s ore hold for the internal rail system to run any raw ore through her six corvette sized forges, and then having the refined metal shunted to her cavernous lower hold, while any waste material from the refining process is vented directly into space.
Ships of this class are outfitted with a sizable hangar, advanced sensor suite, extensive internal cargo bays, and large cargo pod clamps that allow it to act in the capacity of miner, defensive ship, operations command center, and even freighter and personnel carrier should usual shipping to outlying mining sites be disrupted.
But capable as they are, these are not the spartan mining vessels with unlivable working conditions that some shady companies have been known to operate. These space-faring cities of steel feature robust safety systems, spacious and comfortable crew quarters, multiple restaurants, multiple mess-halls, multiple shops for clothing, food, electronics, and other items, an arcade, multiple gyms with weights, various weight and cardio machines, martial arts areas, gymnastics equipment, along with a walking track, a small bowling alley, an olympic sized swimming pool, a multi-sport stadium, a greenhouse, hydroponics bays, a small stage/concert area, several computer labs, a library, a small movie theater, crew lounges and break areas, a salon/spa, a bar/club, chapels, classroom/daycare areas, office areas, as well as repair stations, enough dry and frozen storage to keep everyone fed for extended missions, advanced workshops, astrotography, laboratories, guest bunk-rooms, and a starbase grade medical center.
Not everyone is happy about Kolter Mining’s efforts, however. While Courtland founded the Kolter Foundation to aid those in need, he also lobbied for what came to be known as the Kolter Bill to be passed. Mining employees out in the colonies loved the added protections this afforded them. But the executives of Kolter’s rival mining companies operating out of Earth’s colony worlds quickly found themselves facing laws that favored the profits of Kolter and their already developed safety systems and excellent treatment of employees. What’s more, the Federal Defense Navy Admiralty have been continually frustrated that rather than helping to line their pockets as part of the military industrial complex, Courtland has been working tirelessly to reveal their corruption and hidden support of crime in outlying areas of space.
What’s more, there are even rumors that Courtland is now working with, and possibly even helping to fund, a mercenary vigilante unit out in The Divide known as the Phoenix Command Group, founded by Jonathan Scarlett, another former Federal Defense Navy Captain who ran afoul of the Admiralty.
The wealthy and corrupt among the Admiralty, military industrial complex, crime syndicates, and corrupt businesses running shady operations out in The Divide are deeply troubled by these rumors. But those who are now citizens of no nation, and who have known nothing but hopelessness and need for years, have a slight spark of hope rising like a Phoenix.
IRL info: This digital SHIP was made in Bricklink’s Studio software from September 11th to September 30th, 2021. I did not originally plan to participate in SHIPtember, but I couldn’t resist. It is 184 studs (58.1 inches) long, 50 studs wide, and 48 studs high. It is comprised of 23,470 pieces, which I believe makes it my highest piece-count SHIP to date, and means that the model itself has a mass of 973.502 ounces, or 60.843 pounds, or 27.597 kilograms, which most likely makes it my heaviest SHIP as well as my most piece intensive. (I really need to learn to build a little more hollow.) Note that it uses all real pieces/colors that are available for sale on Bricklink. (Albeit at a price that makes attempting to build it in physical bricks highly impractical.) It is 100% connected, and should be at least somewhat stable in real life. I would want to reinforce the fore-end with more Technic, and switch out the longest Lego Technic axle holding the engine for an aftermarket stainless steel version. I cannot guarantee that various sections built out from the main SNOT and Technic frame would be totally stable without slight redesign of a few bits. It would also require a hefty display stand of some kind.
The current pictures are WIP to show the completed status of the build itself. Better renders done by importing the Studio build into Mecabricks, replacing any pieces that fail to load or change position, and then exporting to Blender for higher quality rendering, and finally hopefully doing some cool backgrounds with GIMP, will hopefully follow before whatever October picture deadline is decided on. Please do not use these early pictures in the poster if time remains, as I hope to provide better ones. Thank you for reading this lengthy description. Have a cookie.
If this ship had a theme song, this magnificent piece by Clamavi De Profundis would be it: youtu.be/Xm96Cqu4Ils
Starboard view showing forges and fuel refining tanks. Note forge dorsal input pipes that use conduits and rail system to shunt ore from the raw metal ore dorsal cargo hold, to the forges. Ore is then refined. Usable metal is then shunted via the ventral pipes and rail system/conduits back to the ventral cargo hold for refined metal, located in the center of the ship. Scrap material is vented through ventral ports directly into space.
Name: S.S. Bessemer
Registration Number: KCC-1894 (Kolter Construction Contract Number 1,894)
Affiliation: Kolter Mining, Refining, and Fuel.
Class Name: Bessemer class
Type: Deep Space Mining Operations Flagship
Commissioned: Circa late 2500’s, post recent major conflict
Specifications:
Length: 1,844 meters (184.4 studs, 58.1 inches, 4.83 feet, 147.5 cm model)
Width: 503 meters (50.3 studs, 15.8 inches, 40.2 cm model)
Height: 484 meters, 398 meters without dorsal comms array, (48.4 studs, 15.2 inches, 38.7 cm model)
Crew: 2,950 standard complement + capacity for crew families, as well as smaller guest quarters for up to 2,000 additional personnel to be moved to/from mining operations.
Armament: 1 super-heavy coaxial particle beam cannon, (primarily for asteroid mining, but also more than capable of defensive action,) 4 dual-mounted heavy particle cannon turrets, 8 dual-mounted medium particle cannon turrets, 2 coaxial fore medium particle cannons, 80 quad-mounted 80mm anti-fighter flak railgun turrets.
Defensive systems:
Hull: Super-heavy steel alloy hull with carbon nanotube/buckypaper composite layers as spall lining.
Armor plating: steel, titanium alloy, tungsten, ceramic, and carbon nanotube composite armor layers against asteroids/other space debris, kinetic weapons, kinetic spalling, particle, laser, and plasma fire. Thick composite armor provides excellent survivability, but with very high mass. Some battleships are less armored than this ship.
Bulkheads: Extensive titanium bulkhead support network.
Structural integrity field: High power system designed for significant cargo mass placing stress on the frame, or to withstand asteroid impacts to the hull.
Shielding: Internally housed high power adaptive particle field repulsing shielding system capable of surviving significant punishment. Some older battleships have less robust shielding.
Powerplant: 1 primary matter-antimatter reactor with extensive fuel reserves, 2 secondary fusion reactors with extensive fuel reserves. Multiple massive power capacitors. Extensive heatinks.
Propulsion: 1 massive primary fusion engine for sub-lightspeed travel, 1 internal FTL core capable of moderate FTL speed, long range travel, and 32 large reaction control thrusters for slow but dependable below light speed maneuvering.
Computer systems: Single supercomputer core with onboard Virtual Intelligence system.
Comms and Sensors: Local and FTL comms arrays. Radar, LIDAR, infrared, multi-spectral, and additional other local area sensors systems, along with extensive FTL sensors.
Additional Systems: High power artificial singularity for both artificial gravity generation and inertial dampening, allowing for 1G gravity even when hauling an entire cargo hold full of heavy-metal. 6 massive blast furnaces for refining metal ore, an enormous central cargo hold system, 4 fuel refining tanks, 4 massive fuel storage tanks, and an internal rail system for moving ore and personnel.
Embarked Craft: 2 Thunderbird class super-heavy cargo/personnel shuttles, 2 Hurricane class heavy cargo/personnel shuttles, 20 heavy mining drones, 24 medium mining drones, 2 gunships of variable class, 2 heavy fighter/bombers of variable class, potential for multiple additional light shuttles and fighters.
Background: After seeing both the devastation to outlying areas of space caused by the recent Great War, and the corruption within the Federal Defense Navy (working title) Admiralty, Captain David Courtland retired honorably from military service and went to helm his family’s generations old mining company, Kolter Mining, Refining, and Fuel; one of the largest mining companies in United Earth Federation space. (Working title.)
He wanted to take the company, already a reputable and successful business, in a new direction. That direction was the disputed, war-torn, no-man’s-waste-land of space known as The Divide, (working title) situated between the major powers of the galaxy. Life in The Divide was desperate, with little hope for the many people stranded in the ruins, poverty, and crime infested land. None of the major powers could intervene without starting another territorial war, and as such, pirates, gangs, and unscrupulous mega-corporations ruled supreme.
Courtland wanted to make a difference to this sorrowful place, and with trillions of credits and a Fortunes 1,000 company at his control, he had the means to at least begin; although even he lacked the ability to single-handedly remedy the myriad of woes The Divide faced.
David’s plan was simple, to move significant mining operations to The Divide, thus:
1: Creating new, safe, well-paying, good jobs for both an area and an industry that seldom offered such things.
2: Allowing for the placement of company security forces to deter pirate activity around major settlements.
3: Providing tax-free revenue to fund new schools, hospitals, food, water, shetler, and other charitable activities in The Divide.
But to do it, he required a new kind of mining vessel, as well as additional security forces. Thus he contacted Nelson Heavy Industries, who in turn partnered with AxonTech Interstellar Systems for some components, to place an order for a line of custom massive deep space mining operation flagships with enhanced combat capabilities and capable of operating in the remotest reaches of space for months or even years at a time. And so the Bessemer class was born.
The Bessemer class is unlike any mining vessel ever produced before it. Certainly significantly larger mining ships existed, but these were typically little more than unarmed, slow moving things with small engines; closer to a semi-mobile starbase than a combination frontier battleship/mining vessel. But Courtland required something unique. Something that could move faster, survive more punishment, and something that had teeth; not a fragile, barely moving thing that would only sit in safe areas of space. Courtland needed a mighty sheepdog in a world of sheep and wolves.
Bessemer class vessels are 1,844 meters long, and possess more armor, firepower, and shielding than many pre Great War battleship designs. Almost any pirate or local gang would be terrified of the sight of over a mile of steel and particle cannons; clad in Kolter white, green, and yellow.
But the Bessemer, and others of her class, are not merely warships masquerading as civilian craft. They are heavy mining machines that live up to their name; a steel producing process that revolutionized the industry of Earth some seven hundred years earlier. The Bessemer and her sister ships are capable of blasting metal-rich asteroids to bits with their coaxial mining particle beam cannon, and then having swarms of automated mining drones devour any valuable deposits within before unloading the materials into the Bessemer’s ore hold for the internal rail system to run any raw ore through her six corvette sized forges, and then having the refined metal shunted to her cavernous lower hold, while any waste material from the refining process is vented directly into space.
Ships of this class are outfitted with a sizable hangar, advanced sensor suite, extensive internal cargo bays, and large cargo pod clamps that allow it to act in the capacity of miner, defensive ship, operations command center, and even freighter and personnel carrier should usual shipping to outlying mining sites be disrupted.
But capable as they are, these are not the spartan mining vessels with unlivable working conditions that some shady companies have been known to operate. These space-faring cities of steel feature robust safety systems, spacious and comfortable crew quarters, multiple restaurants, multiple mess-halls, multiple shops for clothing, food, electronics, and other items, an arcade, multiple gyms with weights, various weight and cardio machines, martial arts areas, gymnastics equipment, along with a walking track, a small bowling alley, an olympic sized swimming pool, a multi-sport stadium, a greenhouse, hydroponics bays, a small stage/concert area, several computer labs, a library, a small movie theater, crew lounges and break areas, a salon/spa, a bar/club, chapels, classroom/daycare areas, office areas, as well as repair stations, enough dry and frozen storage to keep everyone fed for extended missions, advanced workshops, astrotography, laboratories, guest bunk-rooms, and a starbase grade medical center.
Not everyone is happy about Kolter Mining’s efforts, however. While Courtland founded the Kolter Foundation to aid those in need, he also lobbied for what came to be known as the Kolter Bill to be passed. Mining employees out in the colonies loved the added protections this afforded them. But the executives of Kolter’s rival mining companies operating out of Earth’s colony worlds quickly found themselves facing laws that favored the profits of Kolter and their already developed safety systems and excellent treatment of employees. What’s more, the Federal Defense Navy Admiralty have been continually frustrated that rather than helping to line their pockets as part of the military industrial complex, Courtland has been working tirelessly to reveal their corruption and hidden support of crime in outlying areas of space.
What’s more, there are even rumors that Courtland is now working with, and possibly even helping to fund, a mercenary vigilante unit out in The Divide known as the Phoenix Command Group, founded by Jonathan Scarlett, another former Federal Defense Navy Captain who ran afoul of the Admiralty.
The wealthy and corrupt among the Admiralty, military industrial complex, crime syndicates, and corrupt businesses running shady operations out in The Divide are deeply troubled by these rumors. But those who are now citizens of no nation, and who have known nothing but hopelessness and need for years, have a slight spark of hope rising like a Phoenix.
IRL info: This digital SHIP was made in Bricklink’s Studio software from September 11th to September 30th, 2021. I did not originally plan to participate in SHIPtember, but I couldn’t resist. It is 184 studs (58.1 inches) long, 50 studs wide, and 48 studs high. It is comprised of 23,470 pieces, which I believe makes it my highest piece-count SHIP to date, and means that the model itself has a mass of 973.502 ounces, or 60.843 pounds, or 27.597 kilograms, which most likely makes it my heaviest SHIP as well as my most piece intensive. (I really need to learn to build a little more hollow.) Note that it uses all real pieces/colors that are available for sale on Bricklink. (Albeit at a price that makes attempting to build it in physical bricks highly impractical.) It is 100% connected, and should be at least somewhat stable in real life. I would want to reinforce the fore-end with more Technic, and switch out the longest Lego Technic axle holding the engine for an aftermarket stainless steel version. I cannot guarantee that various sections built out from the main SNOT and Technic frame would be totally stable without slight redesign of a few bits. It would also require a hefty display stand of some kind.
The current pictures are WIP to show the completed status of the build itself. Better renders done by importing the Studio build into Mecabricks, replacing any pieces that fail to load or change position, and then exporting to Blender for higher quality rendering, and finally hopefully doing some cool backgrounds with GIMP, will hopefully follow before whatever October picture deadline is decided on. Please do not use these early pictures in the poster if time remains, as I hope to provide better ones. Thank you for reading this lengthy description. Have a cookie.
If this ship had a theme song, this magnificent piece by Clamavi De Profundis would be it: youtu.be/Xm96Cqu4Ils
They ended up spending a little over two hours sifting through achieves. The pair had accumulated a reasonably sized pile of documents. They probably could have spent more time refining their collection, trying to siphon away the “junk” and find what might be considered more valuable – if they had the slightest idea of what they were even looking at. From what little they had done they were already mentally exhausted.
“Hey, we ain’t paid to understand this stuff; ‘just to dig it up.” Brine had commented.
They called in their packhorse drone, sorted the files and other artifacts into a set of weatherproof bags, and stored their loot amongst the rest of its baggage. With nothing else to be done, they packed up and began making their way back home.
It was usually after a job was complete that most veteran operatives would loosen out a bit, their posture turning less soldierly and mimicking their natural human body language. Kelly sauntered with a rolling gait, resting her shotgun over her shoulder while her free arm rocked back and forth by her side.
“So, you enjoy yourself, or are you hating that I dragged you along?"
“Eh. ‘Wasn’t the worst job I’ve been on.” Brine shrugged. “Wasn’t the best either...”
“Well, they aren’t all action and adventure, but someone has to do it.”
They went silent for a short while. Brine’s steps let out an uneven heavy whirring noise.
“Your knee servo acting up?” Kelly asked. “I’ve been noticing you’ve had a limp this mission.”
“Yeah, must’ve done something to it last job. ‘Planning on bringing ‘im in for a checkup. Definitely overdue for one. My main power unit’s been going on me too, ‘been relying on my auxiliary units.” Brine gestured behind him to a set of repurposed automotive batteries hanging along his belt-line.
“You should just replace your rig already. Its been how many years since you got that Oni? I’ve seen half the beatings you’ve taken over the years.”
“Hey, this bod’s served me good. If something breaks, I can make a replacement.” He waved a hand in dismissal before pausing for a moment. "Besides, the European market’s been going crazy the last few months. ‘Trying to wait a few months to see if prices level out again.”
“Always the Euro market with you…” she shook her head.
“They're the only ones who make heavies worth looking at. Once us or the Japanese come out with a decent modern heavy chassis, then I might be interested.”
“Put a request to Broadburgh. They could probably use a few recommendations.”
“Heh, I’d love to see them-“
“HALT.” A synthetic, monotone voice announced.
They both froze in place.
“Ah shit…” Kelly muttered. She recognized the voice immediately.
--------------------------------
Continuing to build my vintage lens set for this series, last month I got a Vivitar 80-200mm f/4 macro lens. It only has macro capabilities at 80mm, but I thought of it as a nice telephoto range. I decided to put it to the test in this scene, help hide some of the details (or lack there of) in the background. Definitely a lens to use in moderation though.
If you fave, comment as well!
Still refining the frame using the Mixel/Chima joints. This version has double jointed knees and elbows. 100% legal, 100% purist, 100% Batman
Yesterday evening, 2 April 2018, I finally finishing backing up exactly one year's worth of my photos. Yes, I know, I should back up my images far more often than that!! My intention had been to see to it during the last few winter months. However, this winter has been one 'bad' thing after another, including someone hacking into my credit card and causing my card to be shut down and taking about five weeks to sort everything out; dealing with the hassle of a camera that is now in for "repair" a second time because it wasn't fixed the first time; worrying about my daughter's upcoming surgery; and going through a frightening cancer scare (which very thankfully turned out to be OK). Blink ... and the winter has almost gone!
This photo was taken two days ago, on 1 April 2018 (Easter Sunday). I decided to join four friends for an afternoon walk in Fish Creek Park, despite the overcast sky, cold temperature and a forecast for yet more snow. We only had a few snowflakes and the following morning, there was just a light dusting over everything. The forecast for this week shows snow on several days.
One of our stops was to see the male Great Horned Owl, perched where he was almost impossible to see, his camouflage was so good. From a distance, I could only shoot through the tangle of branches that was in front of him. His eyes looked tightly shut and he was no doubt getting some sleep after a busy night of hunting.
We were also lucky to see two Coyotes together, at first way off in the distance and then they came somewhat closer. Beautiful animals, though we were concerned to see them in the area, having been asked by a family if we had seen their puppy that had run off from the parking lot. We kept our eyes open for the two and a half hours that we were walking, but we saw the family still searching. To spot a white dog against all the snow would have been difficult, and it wasn't answering to its name being called. I do hope this had a happy ending!
Migrating birds are beginning to be seen in and around Calgary - but, let's face it, who in their right mind would want to come to a place where spring is still an ongoing time of cold and snow?!
After braving the cold, coffee at Tim Horton's was the perfect ending to our afternoon of birding. On the way there, we stopped to look at a new birding blind that we had heard about. Made from rusty metal with several holes cut out of it, it was certainly a rather unusual sight. There are eight windows at varying heights, the lowest of which are at a height suitable for young children, viewers who may want to bring a folding chair and sit for a while, or those who use a wheelchair. It was built by Steve Sozniuk of Refining MetalWorks. Thanks, Bernie and Janet, for leading the walk - always appreciated.
WP’s take:
The subprime mortgage crisis is an ongoing financial crisis characterized by contracted liquidity in global credit markets and banking systems triggered by the failure of mortgage companies, investment firms and government sponsored enterprises which had invested heavily in subprime mortgages. The crisis, which has roots in the closing years of the 20th century but has become more apparent throughout 2007 and 2008, has passed through various stages exposing pervasive weaknesses in the global financial system and regulatory framework.
The crisis began with the bursting of the United States housing bubble[1][2] and high default rates on "subprime" and adjustable rate mortgages (ARM), beginning in approximately 2005–2006. For a number of years prior to that, declining lending standards, an increase in loan incentives such as easy initial terms, and a long-term trend of rising housing prices had encouraged borrowers to assume difficult mortgages in the belief they would be able to quickly refinance at more favorable terms. However, once interest rates began to rise and housing prices started to drop moderately in 2006–2007 in many parts of the U.S., refinancing became more difficult.
Posted 14 minutes ago.
Refining surface detail and color blocking. The yellow portions on the sides will be airlocks, and there will be a third underneath the bridge. I'm not close to happy with the lift engines, but they are an improvement to what was there. Oh boy, I fell into the rabbit-hole today.
Recently I decided to give it a go and refine my rather old design for my Hogwarts Express MOC, with this new official set coming out this year it offers a great piece to use for the nameboard plus the new 1 x 3 double jumper plate has enabled many previously weak joins to be much stronger since it relies on one piece rather than a few.
I decided to go with the 8-wide build as I feel it offers much more freedom for details and strength as the majority of the loco is no longer made from plates adding up to 7-wide.
The entire drive chassis has been heavily reinforced and has gone from the most fragile part of the loco to I'd say the strongest. It now has a much more solid attachment to the cab area and the running board overall has been strengthened.
I have managed to get the drive wheels set back by half a stud which tucks the rear drive wheels further under the cab than before thus making it closer to the real loco.
One thing I did have to sacrifice in the name of keeping everything genuine was the front drive wheels being set back by half a stud, while this does look closer to the real wheel spacing there are no legal build methods I have been able to come up with that make it so this setup works well and keeps together properly as there was only a 4 long axle in the front half of the rods which caused the rods to either fall apart or get pressed together and disturb the smoothness of the wheels.
The tender is out of frame because it is currently undergoing an overhaul as well to try and get not only more detail but better overall strength as it too is another problem area when it comes to the fragility of this model.
Work in progress: refining details & sanding of the unfired porcelain face.
Рабочий процесс: уточнение деталей и шлифовка необожжённого фарфорового лица.
Will slowly refine this but figured I'd throw it up for now to get other opinions.
Not as nice as Adam's but more to scale with my LEGO world. So long as you're willing to go for a different colour for the mudguards you can build this in all sorts of colours.
Hudswell Clarke 2ft Gauge 0-6-0 No 11 'Fiji' on passenger duties at Statfold Barn Railway on 7th June 2014 (Copyright Robin Stewart-Smith - All Rights reserved)
Delivered to Colonial Sugar Refining Co Ltd in 1912 - Works Number 972.
Arrived at Statfold in 2012 and was restored for operation in 2014. Overhaul followed in 2020.
Model of the passenger ferry 'Lake Wallis' at the Great Lakes Museum in Tuncurry. The model was built by Ron Robinson of Forster based on examination of photographs.
Other images of the Lake Wallis can be found in the Album Lake Wallis
The ferry Lake Wallis operated out of Forster for a long period and was well-known to both holidaymakers and schoolchildren as she plied the waters of Wallis Lake.
UPDATED SEPTEMBER 2018
(nb some of the details relating to the ownership of the "Lake Wallis" are vague and may need refining as information becomes available)
Lake Wallis built by Frank Avery
Recent information supplied by Peter Emmerson, son of Albert CARL Emmerson, indicates that his father bought the Lake Wallis around 1941/42 and that the hull was built by Wright's shipyard's chief shipwright, Frank Avery. The launch was built prior to the time when Wright's shipyard was contracted to building a large number of vessels for the US Army and the Australian Army.
Albert CARL Emmerson buys the Lake Wallis
It appears likely that Emmerson bought the hull only and fitted her with steering gear and a second-hand 2 cyl. J2 Kelvin Diesel with electric start using petrol to ignite the chamber and thus assist the flywheel to turn; this was an essential component of the starting procedure in cold weather. Steering gear was quite innovative with the steering wheel being that of an old Dodge truck. The new launch, named the Lake Wallis replaced his previous launch the Dorrie May.
Carl Emmerson obtained a Special Lease to build a wharf and boatshed on Wallis Lake and operated the Lake Wallis as a cream launch collecting cream from dairy farms around Lake Wallis and up the Coolongolook River. Emmerson also delivered boxes of butter from the Cape Hawke Co-operative Butter factory in Tuncurry to stores in Forster, three days a week.
Carl Emmerson starts tourist trips around Wallis lake
After the War, when people were again able to travel, Carl commenced a tourist operation taking visitors around the extensive Wallis Lake. In the 1960s, Carl sold his entire operation (including the Lake Wallis, the Special Lease and wharf facilities to Stan Croad.
Her registration certificate shows the length as 29 ft 3 in. According to well respected author, Graeme Andrews, the Lake Wallis had a breadth of 9 ft 10 in and “the Lister diesel can give her about eight knots but six or seven will do her”. The engine is amidships based on photos from Graeme. Graeme thought she was built around 1940.
Stan Croad
The Master of the Lake Wallis was Stan Croad, both a ferryman and film operator at the Regent Theatre in Forster. Stanley Osbourne Croad was born in Kempsey in 1912 and moved to Forster around 1937 when the Regent Theatre opened and he commenced work as film operator.
It is not clear when Stan acquired the Lake Wallis but it would appear that he leased the boat from Emmerson initially. 1944 newspaper reports show that Stan had secured a contract to transport schoolchildren from areas around Wallis Lake to Forster. In 1946 he sought a Special Lease from the Lands Board Office to operate his launch service, “carrying school children to and from school per motor launch, and conducting scenic tours of Wallis Lakes” - as indicated by this notice in the Northern Champion.
“It is notified in the Government Gazette of 19th and 26th September and 3rd and 10th October, 1947, that application has been made by Stanley Osbourne Croad, for Special Lease No. 47/37, Land District of Taree, for Jetty, containing about 2 perches below high water mark of Wallis Lake at Forster, between portions 297 and 343 and south of and adjoining the area applied for as Special Lease 46/62 (The Northern Champion (Taree, NSW: 1913 - 1954 Sat 11 Oct 1947).
As far as is known, Croad operated from Emmerson's Lease 38/21 but the precise details are unknown: According to Carl's son, Peter, the relationship between Carl Emmerson and Stan Croad was not a happy one. It was Stan Croad who replaced the Kelvin J2 diesel with the more powerful Lister diesel motor.
In 1975 the Wallis Lake was registered to carry 39 persons and provide life-saving devices for 18 persons. She was described only as 29 ft 3 inches long and only licenced to travel on CAPE HAWKE HARBOUR – Smooth Water only. Graeme Andrews recorded her dimensions as 9 ft 10 inches breadth and 5.3 tonnes.
The best description of Stan’s operation was published in the magazine AFLOAT. It was written by Graeme and Winsome Andrews in 1976. Excerpts are included below:
“Stan Croad of Forster is a throw-back. In 1976 he is probably the last of the travelling storemen who once could be seen on most of Australia’s waterways. These water-borne carriers could be found on any river. They brought stores and religion. They collected produce outbound and replaced it with passengers inbound.
Stan still does something like that. Along with his tourist passengers he carries beer, bread, mail and vegetables and at various wharves around the lake he is met by the locals. Meanwhile his passengers watch the process with interest, probably unaware of just what they are watching.
Stan’s small well-deck ferry Lake Wallis is one of the last of the small working craft of the Forster area, her lineage goes back to the time when Forster was a thriving coastal shipping port. The days of the small ferry are numbered as Forster’s population is increasing and new waterfront businesses are growing, along with bigger, faster and more obvious cruise boats. Stan reckons he will not be able to compete but he and his little boat might last long enough, particularly as her shallow draft allows her to reach places out of bounds to bigger craft.
In 1976 only one other boat competed with Stan for the tourist trade. The ex-river milk boat Sun with her liquor license and great size carried a different load to Stan and their paths rarely crossed. [In 2016 Sun is based in Brooklyn on the Hawkesbury River and services Dangar Island and the settlements such as Little Wobby.]
Stan collects his goods and passengers from almost the heart of Forster. The trip is advertised as starting at 0900hrs but Lake Wallis and her amiable Master are no longer young and not in any hurry. The ferry seems to have been built about 1944. She carries up to 38 passengers with a crew of one. A Lister diesel can give her about eight knots but six or seven will do her unless the wind and the lake look like whipping up. When we travelled with Stan he was contemplating buying a newer and bigger boat but was bothered that this would mean he would have to increase his prices.
At about 0920 the Lister rumbles into life and Lake Wallis moves away from her berth with perhaps 20 adults with a dozen or so kids. Passengers and crew are seated low in the hull. She is like an old private launch with the engine covered by a large flat-topped box, slap in the middle of the boat.
Nearing the Forster - Tuncurry Bridge the launch swings sharply to port and skirts a steep sand island where kids are sliding down the sand dune to end up with a great splash. The launch crosses the next channel past low-lying Cockatoo Island towards the ‘Cut’ which is the entrance to the Wallamba River. A considerable tidal outflow can be felt there and the Lister picks up a few revs to cope. Stan has done this many times but he still keeps his ship’s head lined up on the various official and local knowledge navigation markers and piles.
Along the top of Wallis Island the ferry plods. In the area between Regatta Island and Wallis Island the local people once held picnic regattas. Paddle steamers, early motor launches and sail craft of all types – private and commercial- competed in picnic races while the families ashore tucked into the goodies and egged on the contestants.
At Coomba, a hamlet on the western shores of Wallis Lake, a small jetty pokes out from the shore. Here a cluster of people await their purchases. A run-down public toilet attracts some sighs of relief from some of the intrepid passengers. Coomba was to be a glamour development but something went wrong and the 20 or so homes house retirees in considerable peace. Stores and money change hands and Lake Wallis backs carefully out into the channel and heads onwards.
On the south-western end of Wallis Island is a grand and remarkable two-storey house. It is obviously old and apparently houses a Finnish family who have crops, cattle and the obligatory sauna. Their ‘wharf’ consists of the remains of the steam paddle lighter, or ‘drogher’ Queen. About 40 m long by 10 or 12 m wide, this craft is a wooden boat enthusiast’s dream. Much of the exposed timber remains showing grown timbers and adzed wood working. Stores and monies change hands and off we go again.
Out in the middle of the lake the Lister’s muted growl suddenly fades into silence. Skipper Croad puts down his microphone, takes off his Captain’s hat and replaces it with a chef’s hat. A white apron mysteriously appears, while from a large white locker, good china cups and saucers appear. Within a few minutes Stan is passing around, via the ladies, cups of very hot tea or coffee, biscuits for those that want them and scones for those who prefer. The children get cold soft drinks and or cordial.
As the boat drifts Stan tells us more about the lake, his boat and of the locals. Fifteen minutes after ‘Tea-Oh!’ the diesel awakes, tea remnants disappear into the locker, the tablecloth leaves the top of the engine box and we press on somewhat refreshed and impressed.
The homeward, northward run takes us into shallows. Clumps of weeds slide past close to the hull and Stan keeps his eyes on his marks. He tells us about ‘The Step’. Between the mainland at Wallis Point and Wallis Island is a sand bank known as ‘The Step’. Here the incoming tide rolls over the edge of the Stockyards Channel and forms a sand ‘lip’. Here it is that deeper-draft vessels baulk but the little launch slides up and over, the Lister going flat out. All aboard feel the bow then the rest of the boat lift and then drop as we bump into deeper water. Lake Wallis has nearly completed her run.
She swings to starboard off the rarely-used airfield on Wallis Island and heads down Breckenridge Channel. Past Godwin Island Stan swings to starboard and eases in towards his pile berth. Lake Wallis’s stem settles into the low-tide shore-line mud as Stan secures his berthing lines before waving us ashore over a plank that is strong enough but makes one wonder anyway. Stan makes his personal farewell to every person leaving and then, as we straggle away, turns to and cleans up his place of work.
Stan Croad and his comfortable little launch provided one of the best-value tourist dollars the Grey Wanderers have ever had. More than 30 years later we sometimes talk of him, wondering what became of him. Perhaps one of Afloat’s amazing knowledgeable readers can complete the tale?
A more recent publication by the Coomba Progress Association describes Stan as follows:
“For many years people in Coomba had relied for mail delivery on the services of men like Stan Croad, who had operated excellent ferry services, and delivered so cheerfully and willingly not only their basic needs, but would even shop and bring back a grocery order without charging for this extra service.
Stan Croad sold his operation in 1978 to William and Noni Coombe who only ran the Lake Wallis for a couple of times when they replaced her with the younger and larger vessel - Amaroo. Matt Coombe, William Coombe's son noted "This paved the way for bigger and better vessels, all given the prestigious name of ‘Amaroo’" Manning-Great Lakes Focus BLOG 1st June 2010
Stan died in 1994.
Acknowledgements: We would like to thank Graeme and Winsome Andrews for their contribution and AFLOAT magazine for allowing us to extract a large part of the material in Tea and Scones on Lake Wallis in 1976
We would also like to thank the Great Lakes Museum in Capel Street, Tuncurry for permission to photograph the model featured.
Image Source: Nicholson Family Collection
All Images in this photostream are Copyright - Great Lakes Manning River Shipping and/or their individual owners as may be stated above and may not be downloaded, reproduced, or used in any way without prior written approval.
GREAT LAKES MANNING RIVER SHIPPING, NSW - Flick Group --> Alphabetical Boat Index --> Boat builders Index --> Tags List
Some refining or industrial plant in Wilmington, CA. Taken from the Anaheim Street bridge near the Port of Long Beach and Port of Los Angeles.
While I was taking this picture from a bridge on a major public street, a rent-a-cop from one of the nearby industrial properties repeatedly drove up in his white pickup truck and harassed me, claiming that I could not take photos there and was breaking the law. He claimed there was some sort of federal law, which there isn't. I was shooting from the sidewalk and was perfectly within my rights, but it was clear the security guard either didn't know the law or didn't care.
How do I know I was completely within my rights? Because Thomas Hawk had a much less pleasant experience in exactly the same spot almost exactly to the day 6 years prior. thomashawk.com/2008/12/long-beach-harbor-patrol-says-phot... That's actually why I was there, because I saw that Thomas had taken some cool photos around my hometown of Long Beach. www.flickr.com/photos/thomashawk/3150488843/
Eventually, as I was walking back to my car after 30 or so minutes on the bridge, two uniformed officers from the Long Beach Harbor Patrol rolled up and asked to speak to me, having said the security guard had called them. They were quite polite, and unlike the bullying security guard, they thankfully didn't try to argue that I was breaking the law. Instead, they said they were required to investigate when someone calls the police about a potentially suspicious person.
While they were nice about it, it seemed clear to me they were trying to ascertain who I was and if I was up to no good. I gave the cops my name and let them know I was just a hobbyist photographer visiting from D.C. When they asked for my drivers license after a few minutes of polite yet probing conversation, I instead asked whether I was free to go. They said yes, so I declined to give them my ID and bid them adieu.
It wasn't too long ago that the harbor police treated photographers as if they were criminals, rather than as citizens exercising their rights. I'm glad to see that they seem to be educated much better now about the public's rights. At the end of the day, while the rent-a-cop was unnecessarily obnoxious, both he and the police were just doing their jobs. It seems they may have found a reasonable balance between respecting photographer's rights and keeping the public safe from shady folks lurking around sensitive facilities. At the least, much better than when Thomas was there in 2008.
From Wikipedia, the free encyclopedia
For other ships of the same name, see USS Saratoga.
USS Saratoga (CV-3)
Saratoga underway in 1942, after her lengthy refit
History
United States
Name: USS Saratoga
Namesake: Battle of Saratoga
Ordered:
1917 (as a battlecruiser)
1922 (as an aircraft carrier)
Builder: New York Shipbuilding Corporation, Camden, New Jersey
Laid down: 25 September 1920
Launched: 7 April 1925
Commissioned: 16 November 1927
Reclassified: 1 July 1922 to aircraft carrier
Struck: 15 August 1946
Identification: Hull number: CC-3, then CV-3
Nickname(s): Sara Maru, Sister Sara
Honors and
awards: 8 battle stars
Fate: Sunk by atomic bomb test, 25 July 1946
Badge: Saratoga's ship's insignia
General characteristics (as built)
Class & type: Lexington-class aircraft carrier
Displacement:
36,000 long tons (37,000 t) (standard)
43,055 long tons (43,746 t) (deep load)
Length: 888 ft (270.7 m)
Beam: 106 ft (32.3 m)
Draft: 30 ft 5 in (9.3 m) (deep load)
Installed power:
180,000 shp (130,000 kW)
16 water-tube boilers
Propulsion:
4 shafts
4 sets turbo-electric drive
Speed: 33.25 knots (61.58 km/h; 38.26 mph)
Range: 10,000 nmi (19,000 km; 12,000 mi) at 10 knots (19 km/h; 12 mph)
Complement: 2,791 (including aviation personnel) in 1942
Armament:
4 × twin 8-inch (203 mm)/55 cal guns
12 × single 5-inch (127 mm)/25 cal guns anti-aircraft
Armor:
Belt: 5–7 in (127–178 mm)
Deck: .75–2 in (19–51 mm)
Gun turrets: .75 in (19 mm)
Bulkheads: 5–7 in (127–178 mm)
Aircraft carried: 78
Aviation facilities: 1 Aircraft catapult
USS Saratoga (CV-3) was a Lexington-class aircraft carrier built for the United States Navy during the 1920s. Originally designed as a battlecruiser, she was converted into one of the Navy's first aircraft carriers during construction to comply with the Washington Naval Treaty of 1922. The ship entered service in 1928 and was assigned to the Pacific Fleet for her entire career. Saratoga and her sister ship, Lexington, were used to develop and refine carrier tactics in a series of annual exercises before World War II. On more than one occasion these included successful surprise attacks on Pearl Harbor, Hawaii. She was one of three prewar US fleet aircraft carriers, along with Enterprise and Ranger, to serve throughout World War II.
Shortly after the Japanese attack on Pearl Harbor, Saratoga was the centerpiece of the unsuccessful American effort to relieve Wake Island and was torpedoed by a Japanese submarine a few weeks later. After lengthy repairs, the ship supported forces participating in the Guadalcanal Campaign and her aircraft sank the light carrier Ryūjō during the Battle of the Eastern Solomons in August 1942. She was again torpedoed the following month and returned to the Solomon Islands area after repairs were completed.
In 1943, Saratoga supported Allied forces involved in the New Georgia Campaign and invasion of Bougainville in the northern Solomon Islands and her aircraft twice attacked the Japanese base at Rabaul in November. Early in 1944, her aircraft provided air support during the Gilbert and Marshall Islands Campaign before she was transferred to the Indian Ocean for several months to support the British Eastern Fleet as it attacked targets in Java and Sumatra. After a brief refit in mid-1944, the ship became a training ship for the rest of the year.
In early 1945, Saratoga participated in the Battle of Iwo Jima as a dedicated night fighter carrier. Several days into the battle, she was badly damaged by kamikaze hits and was forced to return to the United States for repairs. While under repair, the ship, now increasingly obsolete, was permanently modified as a training carrier with some of her hangar deck converted into classrooms. Saratoga remained in this role for the rest of the war and was used to ferry troops back to the United States after the Japanese surrender in August. In mid-1946, the ship was a target for nuclear weapon tests during Operation Crossroads. She survived the first test with little damage, but was sunk by the second test.
Contents
1 Design and construction
1.1 Flight deck arrangements
1.2 Propulsion
1.3 Armament
1.4 Fire control and electronics
1.5 Armor
1.6 Structural changes
2 Service history
2.1 Inter-war period
2.2 World War II
2.2.1 Guadalcanal campaign
2.2.1.1 Battle of the Eastern Solomons
2.2.2 1943
2.2.3 1944
2.2.4 1945
2.3 Postwar years
3 Awards and Decorations
4 Notes
5 References
6 External links
Design and construction
Saratoga was the fifth US Navy ship named after the 1777 Battle of Saratoga, an important victory during the Revolutionary War.[1] She was originally authorized in 1916 as a Lexington-class battlecruiser, but construction was placed on hold so that higher-priority anti-submarine vessels and merchant ships, needed to ensure the safe passage of men and materiel to Europe during Germany's U-boat campaign, could be built. After the war the ship was extensively redesigned to incorporate improved boiler technology, anti-torpedo bulges, and a general increase in armor protection based on British wartime experiences.[2] Given the hull number of CC-3, Saratoga was laid down on 25 September 1920 by New York Shipbuilding Corporation of Camden, New Jersey.[1]
Saratoga on 8 March 1922, after her construction had been suspended. There are circular barbettes on blocks on her deck, which would have been used for the battlecruiser's main battery
In February 1922, before the Washington Naval Conference concluded, the ship's construction was suspended[3] when she was 28 percent complete.[4] She was ordered to be converted to an aircraft carrier with the hull number CV-3 on 1 July 1922.[1] Her displacement was reduced by a total of 4,000 long tons (4,100 t), achieved mainly by the elimination of her main armament of eight 16-inch (406 mm) guns in four twin gun turrets (including their heavy barbettes, armor, and other equipment).[5][6] The main armor belt was retained, although it was reduced in height to save weight.[7] The hull generally remained unaltered, as did the torpedo protection system, because they had already been built and it would have been too expensive to alter them.[8]
The ship had an overall length of 888 feet (270.7 m), a beam of 106 feet (32.3 m), and a draft of 30 feet 5 inches (9.3 m) at deep load. Saratoga had a standard displacement of 36,000 long tons (36,578 t), and 43,055 long tons (43,746 t) at deep load. At that displacement, she had a metacentric height of 7.31 feet (2.2 m).[5]
Christened by Mrs. Curtis D. Wilbur, wife of the Secretary of the Navy, Saratoga was launched on 7 April 1925 and commissioned on 16 November 1927, under the command of Captain Harry E. Yarnell.[1] She was nicknamed by her crew Sister Sara and, later, Sara Maru.[9] In 1942, the ship had a crew of 100 officers and 1,840 enlisted men, and an aviation group totaling 141 officers and 710 enlisted men.[5] By 1945, her crew totaled 3,373, including her aviation group.[10]
Flight deck arrangements
The ship's flight deck was 866 feet 2 inches (264.01 m) long and had a maximum width of 105 feet 11 inches (32.28 m).[5] Her flight deck was widened forward and extended 16 feet (4.9 m) aft during her refit in mid-1941.[11] When built, her hangar "was the largest single enclosed space afloat on any ship"[12] and had an area of 33,528 square feet (3,114.9 m2). It was 424 feet (129.2 m) long and no less than 68 feet (20.7 m) wide. Its minimum height was 21 feet (6.4 m), and it was divided by a single fire curtain just forward of the aft aircraft elevator. Aircraft repair shops, 108 feet (32.9 m) long, were aft of the hangar, and below them was a storage space for disassembled aircraft, 128 feet (39.0 m) long. Saratoga was fitted with two hydraulically powered elevators on her centerline. The forward elevator's dimensions were 30 by 60 feet (9.1 m × 18.3 m) and it had a capacity of 16,000 pounds (7,300 kg). The aft elevator had a capacity of only 6,000 pounds (2,700 kg) and measured 30 by 36 feet (9.1 m × 11.0 m).[12] Avgas was stored in eight compartments of the torpedo protection system, and their capacity has been quoted as either 132,264 US gallons (500,670 l; 110,133 imp gal) or 163,000 US gallons (620,000 l; 136,000 imp gal).[13]
Saratoga landing aircraft, 6 June 1935
Saratoga was initially fitted with electrically operated arresting gear designed by Carl Norden that used longitudinal wires intended to prevent the aircraft from being blown over the side of the ship, and transverse wires to slow the aircraft to a stop. This system was authorized to be replaced by the hydraulically operated Mk 2 system, without longitudinal wires, on 11 August 1931. Four improved Mk 3 units were added in 1934, giving the ship a total of eight arresting wires and four barriers intended to prevent aircraft from crashing into parked aircraft on the ship's bow. When the forward flight deck was widened, an additional eight wires were added there to allow aircraft to land over the bow if the landing area at the stern was damaged.[14] The ship was built with a 155-foot (47.2 m), flywheel-powered, F Mk II aircraft catapult, also designed by Norden, on the starboard side of the bow.[5][12] This catapult was strong enough to launch a 10,000-pound (4,500 kg) aircraft at a speed of 48 knots (89 km/h; 55 mph). It was intended to launch seaplanes, but was rarely used; a 1931 report counted only five launches of practice loads since the ship had been commissioned. It was removed some time after 1936.[15]
Relatively few changes were made during the war to Saratoga's aircraft-handling equipment. Her crew removed her forward arresting wires in late 1943, although their hydraulic systems were not removed until her refit in mid-1944. At that time she received two Type H hydraulic catapults mounted in her forward flight deck to handle the heavier aircraft entering service. Before the war, plans were made to replace the aft elevator with a 44-by-48-foot (13.4 m × 14.6 m) model, but manufacturing delays and operational demands prevented this from ever happening. By mid-1942, the increasing size and weight of naval aircraft exceeded the capacity of the aft elevator and it was locked in place. It was removed in March 1945 to save weight and the opening in the flight deck was plated over. The machinery for the forward elevator was scheduled to be upgraded before the war, but this was not done until mid-1944. A new, 44-by-48-foot lightweight forward elevator identical to those used in the Essex-class carriers was installed in March 1945.[16]
Saratoga was designed to carry 78 aircraft of various types, including 36 bombers,[17] but these numbers increased once the Navy adopted the practice of tying up spare aircraft in the unused spaces at the top of the hangar.[18] In 1936, her air group consisted of 18 Grumman F2F-1 and 18 Boeing F4B-4 fighters, plus an additional nine F2Fs in reserve. Offensive punch was provided by 20 Vought SBU Corsair dive bombers with 10 spare aircraft and 18 Great Lakes BG torpedo bombers with nine spares. Miscellaneous aircraft included two Grumman JF Duck amphibians, plus one in reserve, and three active and one spare Vought O2U Corsair observation aircraft. This amounted to 79 aircraft, plus 30 spares.[5] In early 1945, the ship carried 53 Grumman F6F Hellcat fighters and 17 Grumman TBF Avenger torpedo bombers.[19]
Propulsion
The Lexington-class carriers used turbo-electric propulsion; each of the four propeller shafts was driven by two 22,500-shaft-horsepower (16,800 kW) electric motors. They were powered by four General Electric turbo generators rated at 35,200 kilowatts (47,200 hp). Steam for the generators was provided by sixteen Yarrow boilers, each in its own individual compartment.[20] Six 750-kilowatt (1,010 hp) electric generators were installed in the upper levels of the two main turbine compartments to provide power to meet the ship's hotel load (minimum electrical) requirements.[21]
The ship was designed to reach 33.25 knots (61.58 km/h; 38.26 mph),[5] but Lexington achieved 34.59 knots (64.06 km/h; 39.81 mph) from 202,973 shp (151,357 kW) during sea trials in 1928.[20] She carried a maximum of 6,688 long tons (6,795 t) of fuel oil, but only 5,400 long tons (5,500 t) of that was usable, as the rest had to be retained as ballast in the port fuel tanks to offset the weight of the island and main guns.[22] Designed for a range of 10,000 nautical miles (19,000 km; 12,000 mi) at a speed of 10 knots (19 km/h; 12 mph),[5] the ship demonstrated a range of 9,910 nmi (18,350 km; 11,400 mi) at a speed of 10.7 knots (19.8 km/h; 12.3 mph) with 4,540 long tons (4,610 t) of oil.[22]
Armament
The Navy's Bureau of Construction and Repair was not convinced when the class was being designed that aircraft could effectively substitute as armament for a warship, especially at night or in bad weather that would prevent air operations.[23] Thus the carriers' design included a substantial gun battery of eight 55-caliber Mk 9 eight-inch guns in four twin gun turrets. These turrets were mounted above the flight deck on the starboard side, two before the superstructure, and two behind the funnel, numbered I to IV from bow to stern.[24] In theory the guns could fire to both sides, but it is probable that firing them to port would have damaged the flight deck.[25] They could be depressed to −5° and elevated to +41°.[10]
The ship's heavy anti-aircraft (AA) armament consisted of twelve 25-caliber Mk 10 five-inch guns which were mounted on single mounts, three each fitted on sponsons on each side of the bow and stern.[26] No light AA guns were initially mounted on Saratoga, but two twin .50-caliber (12.7 mm) machine gun mounts were installed in 1929. They were unsuccessful,[27] but only the mount on the roof of Turret II was replaced by two .50-caliber (12.7 mm) machine guns by 1934. During the ship's August 1941 overhaul, four 50-caliber Mk 10 three-inch AA guns were installed in the corner platforms. Another three-inch gun was added on the roof of the deckhouse between the funnel and the island. In addition, a number of .50-caliber machine guns were added on platforms mounted on her superstructure. The three-inch guns were just interim weapons until the quadruple 1.1-inch gun mount could be fielded, which occurred during a brief refit at the Bremerton Navy Yard in late November 1941.[28]
While receiving temporary repairs at Pearl Harbor in January 1942, Saratoga's eight-inch turrets, barbettes and ammunition hoists were removed; they were replaced by four twin 38-caliber five-inch dual-purpose gun mounts in February at Bremerton. New barbettes were built and the ammunition hoists had to be returned from Pearl Harbor. The older 25-caliber five-inch guns were replaced at the same time by eight more dual-purpose guns in single mounts. As the new guns were heavier than the older ones, only two could be added to the corner gun platforms; the space formerly used by the third gun on each platform was used by an additional quadruple 1.1-inch mount. In addition 32 Oerlikon 20 mm cannon were installed, six at the base of the funnel and the others distributed along the sides and rear of the flight deck. When the ship's repairs were completed in late May, her armament consisted of 16 five-inch guns, nine quadruple 1.1-inch gun mounts and 32 Oerlikon 20-millimeter (0.79 in) guns.[29]
After the ship was again torpedoed in August 1942, her 1.1-inch gun mounts were replaced by an equal number of quadruple Bofors 40 mm mounts while she was under repair at Pearl Harbor. Her light anti-aircraft armament was also increased to 52 Oerlikon guns at the same time. In January 1944 a number of her 20 mm guns were replaced by more Bofors guns, many of which were in the positions formerly occupied by the ship's boats in the sides of the hull. Saratoga mounted 23 quadruple and two twin 40 mm mountings as well as 16 Oerlikon guns when she completed her refit.[30]
Fire control and electronics
The two superfiring eight-inch turrets had a Mk 30 rangefinder at the rear of the turret for local control, but the guns were normally controlled by two Mk 18 fire-control directors, one each on the fore and aft spotting tops.[24] A 20-foot (6.1 m) rangefinder was fitted on top of the pilothouse to provide range information for the directors.[10] Each group of three 5-inch guns was controlled by a Mk 19 director, two of which were mounted on each side of the spotting tops. Plans were made before the war to replace the obsolete Mk 19 directors with two heavier Mk 33 directors, one each on the fore and aft five-inch spotting tops, but these plans were cancelled when the dual-purpose guns replaced the main armament in early 1942.[26]
Saratoga received a RCA CXAM-1 early warning radar in February 1941 during a refit in Bremerton. The antenna was mounted on the forward lip of the funnel with its control room directly below the aerial, replacing the secondary conning station formerly mounted there. She also received two FC (Mk 3) surface fire-control radars in late 1941, although these were both removed along with her main armament in January 1942. The new dual-purpose guns were controlled by two Mk 37 directors, each mounting an FD (Mk 4) anti-aircraft gunnery radar. When the 1.1-inch guns were replaced by 40 mm guns in 1942, the directors for the smaller guns were replaced by five Mk 51 directors. A small SC-1 early warning radar was mounted on the rear lip of the funnel during 1942. A SG surface-search radar was mounted on the foremast at the same time.[31]
During the ship's refit in January 1944, her electronics were modernized. The CXAM was replaced by an SK model and the SC-1 was replaced by an SC-3. The forward SG was supplemented by an additional SG-1 mounted on a short mast at the aft end of the funnel. A lengthier overhaul in mid-1944 provided the opportunity to revise the radar arrangements. The SK radar was moved to the rebuilt foremast and the forward SG radar was replaced by an SG-1 mounted at the top of the foremast. An SM-1 fighter-control radar was mounted in the SK's former position and new antennas were added to the FD radars to allow them to determine target height. The SC-3 was replaced by an SC-4 in early 1945.[32]
Armor
The waterline belt of the Lexington-class ships tapered 7–5 inches (178–127 mm) in thickness from top to bottom and angled 11° outwards at the top. It covered the middle 530 feet (161.5 m) of the ships. Forward, the belt ended in a bulkhead that also tapered from seven to five inches in thickness. Aft, it terminated at a seven-inch bulkhead. This belt had a height of 9 feet 4 inches (2.8 m). The third deck over the ships' machinery and magazine was armored with two layers of special treatment steel (STS) totaling 2 inches (51 mm) in thickness; the steering gear was protected by two layers of STS that totaled 3 inches (76 mm) on the flat and 4.5 inches (114 mm) on the slope.[33]
The gun turrets were protected only against splinters with .75 inches (19 mm) of armor. The conning tower was armored with 2–2.25 inches (51–57 mm) of STS, and it had a communications tube with two-inch sides running from the conning tower down to the lower conning position on the third deck. The torpedo defense system of the Lexington-class ships consisted of three to six medium steel protective bulkheads that ranged from .375 to .75 inches (10 to 19 mm) in thickness. The spaces between them could be used as fuel tanks or left empty to absorb the detonation of a torpedo's warhead.[33]
Structural changes
While under repair after being torpedoed in January 1942, Saratoga received a 7-foot-2-inch (2.2 m) bulge on the starboard side of her hull.[34] This was primarily intended to increase the ship's buoyancy, improve stability and allow her full fuel capacity to be utilized. The bulge was estimated to increase her metacentric height by 3 feet (0.9 m) and decrease her speed by one-quarter of a knot.[35] It was also used to store additional fuel oil and increased her capacity to a total of 9,748 long tons (9,904 t).[22] At the same time, her funnel was shortened by 20 feet (6.1 m) and her tripod foremast was replaced by a light pole mast to reduce her topweight.[36]
All of these changes, including the lengthening of the flight deck, increased Saratoga's full-load displacement in 1945 to 49,552 long tons (50,347 t). Her overall length increased to 909.45 feet (277.2 m) and her beam, at the waterline, to 111 feet 9 inches (34.1 m), too wide to use the Panama Canal.[37]
Service history
Inter-war period
Saratoga was commissioned one month earlier than her sister ship, Lexington. As the ship was visually identical to Lexington, her funnel was painted with a large black vertical stripe to help pilots recognize her. She began her shakedown cruise on 6 January 1928 and five days later Marc A. Mitscher landed the first aircraft on board. Later that month, the rigid airship Los Angeles was refueled and resupplied when she moored to Saratoga's stern on 27 January. That same day, the ship sailed for the Pacific via the Panama Canal, although she was diverted briefly en route to carry Marines to Corinto, Nicaragua, before joining the Battle Fleet at San Pedro, California, on 21 February.[1] On 15 September, Captain John Halligan, Jr. relieved the newly promoted Rear Admiral Yarnell.[38]
Saratoga (with black stripe) at Puget Sound Navy Yard, alongside Lexington and Langley in 1929
In January 1929, Saratoga participated in her first fleet exercise, Fleet Problem IX, a simulated attack on the Panama Canal. These exercises tested the Navy's evolving doctrine and tactics for the use of carriers. The ship was detached from the fleet with only the light cruiser Omaha as escort and made a wide sweep to the south to attack the canal, which was defended by the Scouting Fleet and Lexington, from an unexpected direction. Although the carrier was spotted by two defending ships before she launched her air strike, her aircraft were deemed to have destroyed the canal locks. Saratoga was "sunk" later the same day by an airstrike from Lexington.[39] Captain Frederick J. Horne assumed command on 20 April.[40] The following year, Saratoga and Langley were "disabled" by a surprise attack from Lexington in Fleet Problem X in the Caribbean. Saratoga returned the favor shortly afterward in Fleet Problem XI, further demonstrating the vulnerability of carriers to aerial attack.[41] Following the exercises, Saratoga participated in the Presidential Review at Norfolk, Virginia in May and then returned to San Pedro.[1] Captain Frank McCrary relieved Horne on 5 September 1930.[42]
USS Los Angeles ties up aboard Saratoga in January 1928, the first time a rigid airship had been moored to an aircraft carrier
Saratoga was assigned, together with Lexington, to defend the west coast of Panama against a hypothetical invader during Fleet Problem XII in February 1931. While each carrier was able to inflict some damage on the invasion convoys, the enemy forces succeeded in making a landing. All three carriers then transferred to the Caribbean to conduct further maneuvers, including one in which Saratoga successfully defended the Caribbean side of the Panama Canal from a staged attack by Lexington. Rear Admiral Joseph M. Reeves baited a trap for Lexington's captain, Ernest J. King, with a destroyer and scored a kill on Lexington on 22 March while the latter's aircraft were still searching for Saratoga.[43] The 1932 movie Hell Divers was filmed aboard the ship and starred Wallace Beery and a young Clark Gable as a pair of competing aircraft gunners assigned to VF-1B.[44]
During Grand Joint Exercise No. 4, Saratoga and Lexington were able to launch an airstrike against Pearl Harbor on Sunday, 7 February 1932, without being detected. The two carriers were separated for Fleet Problem XIII which followed shortly afterward. Blue Fleet and Saratoga were tasked to attack Hawaii and the West Coast defended by Lexington and the Black Fleet. On 15 March, Lexington caught Saratoga with all of her planes still on deck and was ruled to have knocked out her flight deck and have badly damaged the carrier, which was subsequently judged sunk during a night attack by Black Fleet destroyers.[45] Captain George W. Steele assumed command on 11 July 1932. While en route from San Diego to San Pedro, the ship briefly ran aground off Sunset Beach, California on 17 August. Captain Rufus F. Zogbaum, Jr. (son of the famous illustrator) relieved Steele, who was ordered to immediately retire, on 1 January 1933.[46]
Before Fleet Problem XIV began the following month, the Army and the Navy conducted a joint exercise simulating a carrier attack on Hawaii. Lexington and Saratoga successfully attacked Pearl Harbor at dawn on 31 January without being detected. During the actual fleet problem, the ship successfully attacked targets in and around Los Angeles and San Francisco although she was damaged by opposing ships during the latter attack.[47] Scenes from the 1933 Joe E. Brown film comedy Son of a Sailor were filmed aboard Saratoga and featured flight deck musters of the ships' company.[48] Fleet Problem XV returned to the Gulf of Panama and the Caribbean in April–May 1934; the participating ships of the Pacific Fleet remained in the Caribbean and off the East Coast for more training and maneuvers until they returned to their home bases in November.[1] Captain Kenneth Whiting relieved Zogbaum on 12 June, after the conclusion of the fleet problem.[49]
Saratoga launching aircraft on 31 May 1934 during her Atlantic deployment
Captain William F. Halsey assumed command on 6 July 1935 after the conclusion of Fleet Problem XVI.[50] From 27 April to 6 June 1936, she participated in a Fleet Problem in the Panama Canal Zone where she was "sunk" by opposing battlecruisers and later ruled to have been severely damaged by aircraft from Ranger.[51] During Fleet Problem XVIII in 1937, Saratoga, now under the command of naval aviation pioneer John H. Towers, covered an amphibious assault on Midway Atoll and was badly "damaged" by Ranger's aircraft.
The 1938 Fleet Problem again tested the defenses of Hawaii and, again, aircraft from Saratoga and her sister successfully attacked Pearl Harbor at dawn on 29 March. Later in the exercise, the two carriers successfully attacked San Francisco without being spotted by the defending fleet.[52] Captain Albert Cushing Read relieved Towers in July 1938. During Fleet Problem XX in 1939, the carrier remained off the West Coast as part of Task Force (TF) 7 with the battleship Arizona and escorts under the command of Rear Admiral Chester Nimitz to maintain a presence in the Pacific. From 2 April to 21 June 1940, she participated in Fleet Problem XXI, and her aircraft, together with those from Lexington, "damaged" the carrier Yorktown in an early phase of the exercise.[53]
From 6 January to 15 August 1941, Saratoga underwent a long-deferred modernization at the Bremerton Navy Yard that included the widening of her flight deck at her bow and the installation of additional antiaircraft guns and a CXAM-1 radar. The ship began a refit a few days later that lasted until late November, further revising the anti-aircraft armament and added a FC radar.[54]
World War II
When the Japanese attacked Pearl Harbor on 7 December 1941, Saratoga was entering San Diego Harbor to embark her air group, which had been training ashore while the ship was refitting. This consisted of 11 Grumman F4F-3 Wildcat fighters of VF-3 (under the command of Lieutenant Jimmy Thach), 43 Douglas SBD Dauntless dive bombers of VB-3 and VS-3, and 11 Douglas TBD Devastator torpedo bombers of VT-3. The ship also was under orders to load 14 Marine Corps Brewster F2A-3 Buffalo fighters of VMF-221 for delivery in Oahu. The following morning the ship, now the flagship of Carrier Division One, commanded by Rear Admiral Aubrey Fitch, sailed for Pearl Harbor. Saratoga arrived at Pearl on 15 December, refueled, and departed for Wake Island the following day. The ship was assigned to Task Force (TF) 14 under the command of Rear Admiral Frank Jack Fletcher; VF-3 had been reinforced by two additional Wildcats picked up in Hawaii, but one SBD had been forced to ditch on 11 December.[55]
She then rendezvoused with the seaplane tender Tangier, carrying reinforcements and supplies, and the slow replenishment oiler Neches. Saratoga's task force was delayed by the necessity to refuel its escorting destroyers on 21 December, before reaching the island. This process was prolonged by heavy weather, although the task force could still reach Wake by 24 December as scheduled. After receiving reports of heavy Japanese carrier airstrikes, and then troop landings, TF 14 was recalled on 23 December, and Wake fell the same day. On the return voyage, Saratoga delivered VMF-221 to Midway on 25 December. The ship arrived at Pearl on 29 December and Fletcher was replaced as commander of Task Force 14 by Rear Admiral Herbert F. Leary the following day. Leary made Saratoga his flagship and Fitch was transferred to a shore command that same day. The task force put to sea on 31 December and patrolled in the vicinity of Midway.[56]
Saratoga, about 420 nautical miles (780 km; 480 mi) southwest of Pearl Harbor on 11 January 1942, was heading towards a rendezvous with USS Enterprise when she was hit by a torpedo fired by the I-6. The explosion flooded three of her boiler rooms, reduced her speed to a maximum of 16 knots (30 km/h; 18 mph) and killed six of her crewmen. The ship's list was soon corrected and she reached Pearl two days later.[57] While undergoing temporary repairs there, her four twin eight-inch gun turrets were removed for installation in shore batteries on Oahu.[58] Saratoga then sailed to the Bremerton Navy Yard on 9 February for permanent repairs. She embarked 10 Wildcats of the VF-2 Detachment and all of VS-3 with its Dauntlesses for self-protection on the voyage.[59]
While under repair, the ship was modernized with an anti-torpedo bulge, her anti-aircraft armament was significantly upgraded and more radars were added.[36] Douglas was relieved on 12 April and Saratoga was temporarily commanded by her executive officer, Commander Alfred M. Pride, until Captain DeWitt Ramsey assumed command a month later.[60] Saratoga departed from Bremerton on 22 May, bound for San Diego. She arrived there on 25 May and began loading aircraft and supplies while waiting for her task force commander, Admiral Fitch, to arrive from the South Pacific. On 30 May Admiral Nimitz, now commander-in-chief of the United States Pacific Fleet, ordered Captain Ramsey to expedite his departure for Pearl Harbor, even if Fitch had not yet arrived. The ship sailed from San Diego on 1 June carrying 14 Wildcats of VF-2 Detachment and 23 Dauntlesses of VS-3; in addition she carried four Wildcats, 43 Dauntlesses and 14 Avengers as cargo. She arrived at Pearl Harbor on 6 June, the final day of the Battle of Midway. After refuelling, Saratoga departed the following day with the mission to ferry replacement aircraft to the carriers that survived the battle. The ship carried a total of 47 Wildcats, 45 Dauntlesses, five Devastators and 10 Avengers, including her own air group.[61] Admiral Fletcher (whose flagship Yorktown had been sunk during the battle) came aboard on 8 June and made Saratoga his flagship.[62] The ship rendezvoused with the other carriers on 11 June and transferred 19 Dauntlesses, the five Devastators and all of the Avengers to them.[63] When the ship reached Pearl on 13 June, Fletcher and his staff disembarked; Admiral Fitch rendezvoused with the ship the next day. He became commander of Task Force 11 on 15 June, when Nimitz reorganized his carriers. From 22 through 29 June, Saratoga ferried 18 Marine Dauntlesses of VMSB-231 and 25 Army Air Corps Curtiss P-40 Warhawks to Midway Island to replace the aircraft lost during the battle. Fletcher relieved Fitch as commander of TF 11 the following day.[64]
Guadalcanal campaign
Main article: Guadalcanal Campaign
Saratoga operating off Guadalcanal
In late June, the Allies decided to seize bases in the southern Solomon Islands with the objective of denying their use by the Japanese to threaten the supply and communication routes between the U.S., Australia, and New Zealand. They also intended to use Guadalcanal and Tulagi as bases to support a campaign to eventually capture or neutralize the major Japanese base at Rabaul on New Britain. Admiral Nimitz committed much of the Pacific Fleet to the task, including three of his four carrier task forces. They fell under the command of the recently appointed Vice Admiral Robert L. Ghormley, commander of the South Pacific Area.[65]
On 7 July, Task Force 11 departed Pearl for the Southwest Pacific; it consisted of Saratoga, four heavy cruisers, Astoria, New Orleans, Minneapolis and Vincennes, and was escorted by seven destroyers. Also assigned were three replenishment oilers and four fast transports converted from old four-stack destroyers. The carrier embarked 90 aircraft, comprising 37 Wildcats, 37 Dauntlesses and 16 Avengers. TF 11 and TF 18, centered around the carrier Wasp, rendezvoused south of Tongatapu on 24 July and they met the remaining forces, including Enterprise's TF 16, assigned to Operation Watchtower three days later south of the Fiji Islands. The entire force of 82 ships was organized as Task Force 61 and commanded by Fletcher. On 30 July, Saratoga and the other carriers provided air cover for amphibious landings on Koro Island and practiced air strikes as part of the rehearsals for the planned invasion of Guadalcanal, Tulagi, and nearby islands.[66]
A damaged Grumman TBF-1 Avenger makes a landing aboard Saratoga in August 1942
The Allied force successfully reached the Solomon Islands without being detected by the Japanese because of thick fog and haze. Saratoga launched 24 Dauntlesses and a dozen Wildcats early on 7 August to attack targets on Guadalcanal. Her air group commander, Commander Harry D. Felt, coordinated the attack over the island, which also included eight Wildcats from Enterprise's VF-6. The aircraft focused on the nearly complete airfield at Lunga and dispersed the two construction battalions building it. This allowed the 1st Marine Division to capture it (renaming it Henderson Field) without resistance. For the rest of the day, the carriers provided a combat air patrol (CAP) over the transports and themselves while their other aircraft provided air support for the Marines as needed.[67]
The Japanese struck back quickly and launched 27 Mitsubishi G4M ("Betty") medium bombers, escorted by 17 Mitsubishi A6M Zero ("Zeke") fighters, against the Allied forces. Among the escorting pilots were several aces such as Tadashi Nakajima, Hiroyoshi Nishizawa, and Saburō Sakai. Failing to spot the carriers, the bombers attacked the transports and their escorts, defended by eight Wildcats from Saratoga's VF-5. The Zeros shot down five Wildcats without losing any of their own, but the Americans shot down at least one G4M and damaged a number of others. The bombers failed to hit any Allied ships. About an hour later, nine Aichi D3A ("Val") dive bombers attacked the transport groups. Also based in Rabaul, they were on a one-way mission with a minimal payload of two small 60-kilogram (132 lb) bombs each because the distance to Guadalcanal exceeded their combat range; the pilots were expected to ditch at Shortland Island on the return leg where a Japanese seaplane tender could pick them up. By the time they arrived, the American CAP had been reinforced to 15 Wildcats from VF-5 and VF-6. Realizing that they had been spotted and that they could not reach the vulnerable transports before they were intercepted by the defending fighters, the Japanese attacked two of the escorting destroyers. They lightly damaged one destroyer with a direct hit, but the Americans shot down five of the attackers without loss to themselves.[68]
The Japanese attacked the transports again the following day, but none of Saratoga's aircraft were involved. Concerned about his declining fuel reserves and worried about air and submarine attacks after losing 20% of his fighters, Fletcher requested permission from Ghormley to withdraw one day early to refuel. This was granted and Fletcher's carriers were mostly out of range by the morning of 9 August. This meant that the transports lacked air cover, but the only Japanese airstrike of the day specifically targeted the carriers and ignored the transports entirely. Fletcher loitered southeast of the Solomons, waiting for the Japanese carriers that signals intelligence told him were en route to be spotted. He rendezvoused with the aircraft transport Long Island on 19 August and covered her approach to Guadalcanal. The ship was carrying Marine aircraft for Henderson Field and successfully flew them off the next day. Fletcher returned to the Solomons on 21 August after escorting Long Island to safety and remained in the vicinity for the next several days to provide cover for two transports resupplying the Marines. American aircraft shot down several Japanese reconnaissance aircraft during this time and the Japanese concluded that one or more American carriers were operating southeast of Guadalcanal.[69]
Battle of the Eastern Solomons
Main article: Battle of the Eastern Solomons
Enterprise (foreground) and Saratoga (rear) near Guadalcanal, December 1942. A Douglas SBD Dauntless dive bomber is visible between the two carriers.
The presence of American carriers nearby firmed up Japanese plans to land troops on Guadalcanal on 24 August, covered by the fleet carriers Shōkaku and Zuikaku and the light carrier Ryūjō. A force of Japanese troop transports was detected on the morning of 23 August some 300 nautical miles (560 km; 350 mi) north of Guadalcanal. Fletcher was not originally inclined to attack them until another force of two transports was spotted at Faisi later that morning. He changed his mind and ordered Saratoga to launch her airstrike of 31 Dauntlesses and six Avengers in the early afternoon at very long range. They could not locate the Japanese convoy in poor visibility because it had reversed course shortly after spotting the American reconnaissance aircraft. The aircraft lacked the range to return to their carrier and they were ordered to land at Henderson Field and return the following morning.[70]
The Japanese failed to locate the American carriers during the day and Vice Admiral Chūichi Nagumo, commander of the First Carrier Division, ordered Ryūjō, escorted by the heavy cruiser Tone and two destroyers, to attack Henderson Field, as per Admiral Isoroku Yamamoto's orders. American aircraft located the Ryūjō task force the following morning as it approached within aircraft range of Guadalcanal, as well as other enemy ships, but failed to spot the fleet carriers. Fletcher delayed his attack until further reconnaissance aircraft failed to find the other Japanese carriers and his own aircraft returned from Henderson Field. In the meantime, Ryūjō had launched her own airstrike against Henderson Field, although they inflicted little damage while losing seven out of 21 aircraft during the attack.[71]
Saratoga launched an airstrike against Ryūjō's task force in the early afternoon that consisted of 31 Dauntlesses and eight Avengers; the long range precluded fighter escort. While those aircraft were en route, a number of reconnaissance aircraft from Enterprise spotted and attacked the Japanese formation. They inflicted no damage and the Japanese CAP shot down one Avenger. Saratoga's aircraft sighted the carrier shortly afterward and attacked. They hit Ryūjō three times with 1,000-pound (450 kg) bombs and one torpedo; the torpedo hit flooded the starboard engine and boiler rooms. No aircraft from either Ryūjō or Saratoga were shot down in the attack.[72] The carrier capsized about four hours later with the loss of 120 crewmen.[73]
About an hour after Saratoga launched her airstrike, the Japanese launched theirs once they located the American carriers. Shōkaku contributed 18 D3As and nine Zeros while Zuikaku launched nine D3As and six Zeros. Reconnaissance SBDs from Enterprise spotted the 1st Carrier Division shortly after the Japanese airstrike had taken off and five of Shōkaku's Zeros stayed behind to deal with the Dauntlesses as they attacked Shōkaku. The Dauntlesses survived the attack by the Zeros, but their spot report was garbled and the enemy's location could not be understood. This incident prompted Nagumo to launch a follow-on airstrike with 27 D3As and nine Zeros.[74]
The first airstrike attacked the ships of TF 16 which was initially defended by fighters from VF-6. Once radar spotted the incoming Japanese aircraft, both carriers launched all available fighters. Enterprise was badly damaged by three bomb hits, but the Japanese lost 19 dive bombers and four Zeros to the defending fighters and anti-aircraft fire. They claimed to have shot down a dozen Wildcats although the Americans lost only five, of which two belonged to VF-5; some of the American losses were reportedly due to friendly anti-aircraft fire. In turn, the American fighters claimed to have shot down 52 Japanese aircraft, 15 more than the Japanese committed to the attack. The second Japanese airstrike failed to locate the American carriers.[75]
Right before the Japanese attack, Saratoga launched a small airstrike of two Dauntlesses and five Avengers to clear her flight deck and these planes found and damaged the seaplane tender Chitose with near misses that also destroyed three Mitsubishi F1M reconnaissance floatplanes. Two Avengers were forced to make emergency landings, but they shot down one Zero from Shōkaku. After recovering their returning aircraft, the two American carriers withdrew, Enterprise for repairs and Saratoga to refuel the next day. Before the former departed for Tongatapu for temporary repairs, she transferred 17 Wildcats and six Avengers to Saratoga as replacements for the latter's losses.[76]
Fletcher rendezvoused with TF 18 east of San Cristobal on the evening of 26 August and transferred four Wildcats to Wasp the next day to bring the latter's fighters up to strength. TF 17, with the carrier Hornet, arrived on 29 August. Two days later, a torpedo from I-26 struck Saratoga on her starboard side, just aft of the island. The torpedo wounded a dozen of her sailors, including Fletcher, and it flooded one fireroom, giving the ship a 4° list, but it caused multiple electrical short circuits. These damaged Saratoga's turbo-electric propulsion system and left her dead in the water for a time. The heavy cruiser Minneapolis took Saratoga in tow while she launched her aircraft for Espiritu Santo, retaining 36 fighters aboard. By noon, the list had been corrected and she was able to steam under her own power later that afternoon.[77]
Saratoga reached Tongatapu on 6 September and flew off 27 Wildcats for Efate once she arrived.[78] The ship received temporary repairs there and sailed for Pearl on 12 September, escorted by the battleship South Dakota, New Orleans and five destroyers. Task Force 11 reached Pearl on 21 September and Saratoga entered drydock the following day for more permanent repairs. Captain Ramsey was promoted on 27 September and replaced by Captain Gerald F. Bogan.[79]
Task Force 11, now commanded by Rear Admiral Ramsey, sailed from Pearl Harbor, bound for Nouméa, New Caledonia, via Viti Levu, Fiji, on 12 November 1942 with Saratoga as his flagship. The other ships of the task force consisted of New Orleans, the fleet oiler Kankakee and six destroyers. The carrier had on board the Wildcats of VF-6, Dauntlesses of VB-3 and VS-6, and the Avengers of VT-3. The ships dropped anchor in Fiji on 22 November, except for New Orleans, which immediately left for Nouméa, escorted by two destroyers. The cruiser was replaced by the light anti-aircraft cruiser San Juan on 29 November and the task force sailed for Nouméa on 1 December. After they arrived on 5 December, one of Saratoga's main turbines required repairs which lasted until 13 December.[80]
1943
On 23 January 1943, Saratoga launched 18 Wildcats of VF-3, 24 Dauntlesses of VB-3 and VS-3, and 17 Avengers of VT-3 for Henderson Field, retaining 16 Wildcats and 15 Dauntlesses for self-defense. The next day they attacked the Japanese airfield at Vila, Solomon Islands after it had been bombarded by four Allied light cruisers. The aircraft returned to the carrier without loss later that afternoon.[81] Captain Bogan slipped and badly injured himself on 29 March so Captain Henry M. Mullinnix assumed command on 7 April.[82]
Saratoga in 1943 or 44.
With the withdrawal of Enterprise in early May, Saratoga became the only operational American fleet carrier in the South Pacific. Task Force 14, as her group was now known, was reinforced by the anti-aircraft cruiser San Diego on 3 May and by the British fleet carrier Victorious on 17 May.[83] At this time Saratoga embarked 34 Wildcats of VF-5, 37 Dauntlesses of VB-3 and VS-3 and 16 Avengers of VT-8.[84] Ramsey's force was intended to provide distant cover for the impending landings on New Georgia and to prevent intervention by any Japanese carriers. The two carriers spent some weeks familiarizing each other with their capabilities and tactics and Ramsey decided to take advantage of each carrier's strengths. He ordered that the Avengers of 832 Squadron be exchanged for 24 Wildcats from VF-3 as Victorious had difficulty operating the large Avenger and the British carrier possessed better facilities for coordinating fighter operations than Saratoga; the latter retained a dozen Wildcats for self-defense and escort duties. Fortunately, Ramsey never got a chance to test his reorganization as the Japanese carriers made no effort to attack the American transports.[85] Ramsey was relieved on 26 July and replaced by Rear Admiral Frederick C. Sherman.[86] Victorious sailed on 31 July for home and left eleven Avengers behind as reserves for Saratoga.[87]
Carrier Air Group 12 was assigned to Saratoga in lieu of Carrier Air Group 3 and flew aboard on 1 August. It was composed of VF-12, VB-12 and VT-12;[86] the fighter and dive bomber squadrons each had 36 aircraft and the torpedo bomber squadron had half that number. Grumman F6F Hellcats replaced the Wildcats formerly used.[88] The task force was redesignated as Task Force 38 on 4 August and Captain John H. Cassady relieved Mullinix on 22 August after the latter was promoted. The ship was based at Havannah Harbor, Efate and Espiritu Santo from August through November. While refueling at sea on the night of 12 October, Saratoga collided with the oiler Atascosa, damaging three of her 20-millimeter guns on her port side. On 22 October, she was joined by the light aircraft carrier Princeton.[89]
On 27 October, Task Force 38 provided air cover for the invasion of the Treasury Islands, part of the preliminary operations for the invasion of Bougainville Island scheduled a few days later. On the morning of 1 November, Saratoga's aircraft neutralized Japanese airfields at the northern end of the island and on Buka Island. They destroyed 15 Japanese aircraft while losing three Hellcats, one Dauntless, and two Avengers to all causes. While the task force was refuelling on 3–4 November, reconnaissance aircraft discovered Japanese cruisers massing at Rabaul and Admiral Halsey ordered Task Force 38 to attack them with maximal force before they could engage the transports at Bougainville. This translated into an attack group of 23 Avengers and 22 Dauntlesses, escorted by every available fighter on board the two carriers on 5 November; CAP over the carriers was provided by fighters flying from New Georgia.[90] The attack caught the Japanese by surprise and badly damaged four heavy cruisers, two light cruisers, and a destroyer[91] for the loss of only nine aircraft to all causes.[92]
Saratoga and Princeton attacked Rabaul again on 11 November in conjunction with three carriers of Task Group 50.3. They attacked first, but inflicted little damage due to poor visibility; the other carriers were more successful and further damaged the ships at Rabaul.[93] Task Force 38 returned to Espiritu Santo on 14 November.[94] Now known as Task Group 50.4, Saratoga and Princeton were tasked as the Relief Carrier Group for the offensive in the Gilbert Islands. As part of the preliminary operations, they attacked Nauru on 19 November, destroying two fighters and three G4Ms on the ground. As the carriers were withdrawing, they were unsuccessfully attacked by eight more G4Ms, shooting down half of their attackers. TF 50.2 was not attacked during the battle and Saratoga transferred a number of her aircraft to replace losses aboard the other carriers before departing for Pearl Harbor on 30 November.[95] She arrived on 4 December and off-loaded her aircraft and stores before proceeding to San Francisco where she arrived on 9 December for a refit and augmentation of her anti-aircraft guns.[96]
1944
Saratoga docked at Pearl Harbor, June 1945
Saratoga's refit was completed on 2 January 1944 and she arrived at Pearl Harbor on 7 January. The ship, now the flagship of Rear Admiral Samuel Ginder, commander of Task Group 58.4, sailed from Pearl Harbor on 19 January with Langley and Princeton, to support the invasion of the Marshall Islands scheduled to begin on 1 February.[97] Her air group at this time consisted of 36 Hellcats of VF-12, 24 Dauntlesses of VB-12 and eight Avengers of VT-8.[98] As part of the preliminary operations, aircraft from the Task Group attacked airfields at Wotje and Taroa on 29–31 January, radio stations at Rongelap and Utirik Atoll on 1 February,[99] and then attacked Engebi, the main island at Eniwetok Atoll, from 3 to 6 February, refuelled, and attacked Japanese defenses at Eniwetok again from 10 to 12 February. They provided air support during the entire Battle of Eniwetok which began on 17 February with landings at Engebi and continued until the islands were secured on 24 February. They then protected the Allied forces there until 28 February when land-based aircraft assumed that role.[100]
On 4 March, Saratoga departed Majuro with an escort of three destroyers to reinforce the Eastern Fleet in the Indian Ocean and allow it to attack Japanese-controlled territory. She rendezvoused at sea on 27 March with the British force and arrived at Trincomalee, Ceylon, on 31 March.[101] During the next two weeks, the carriers conducted intensive training and rehearsing with the fleet carrier Illustrious for an attack on the port city of Sabang (Operation Cockpit) scheduled for 19 April. For this operation, Saratoga mustered 27 Hellcats, 24 Dauntlesses and 18 Avengers. The carrier launched 24 Hellcats, 11 Avengers and 18 Dauntlesses while Illustrious contributed 17 Fairey Barracuda bombers and 13 Vought F4U Corsair fighters. The attack caught the Japanese by surprise and there was no aerial opposition, so the escorts strafed the airfield and destroyed 24 aircraft on the ground. The port facilities and oil storage tanks were heavily damaged and one small freighter was sunk for the loss of one Hellcat to flak. The Japanese attempted to attack the fleet with three G4Ms as it was withdrawing, but the CAP shot down all three bombers. Sailing from Ceylon on 6 May, the task force attacked the oil refinery at Surabaya, Java, on 17 May after refueling at Exmouth Gulf, Australia. Little damage was inflicted on the refinery and only one small ship was sunk for the loss of one of VT-3's Avengers.[102] Saratoga was relieved from its assignment with the British the next day and ordered back to Pearl.[103]
The ship arrived at Pearl on 10 June and remained for several days before departing for Bremerton to begin an overhaul scheduled to last several months. Captain Cassady was relieved by Captain Thomas Sisson on 22 June although he was only briefly in command before Captain Lucian A. Moebus assumed command on 31 July. Saratoga completed her post-refit sea trials on 13 September and arrived at the Naval Air Station Alameda on 16 September to begin loading 85 aircraft, 1500 passengers and cargo bound for Pearl Harbor. She departed San Francisco two days later and arrived on 24 September. The ship was assigned to Carrier Division 11 which was tasked to train night fighter pilots and to develop night tactics and doctrine. Rear Admiral Matthias Gardner made Saratoga his flagship on 10 October. Four days later, the ship was accidentally rammed by her plane guard destroyer Clark, gashing the port side of her hull. Operations were immediately cancelled and she returned to port for temporary repairs. Permanent repairs were made during a brief refit during the first week of November. Carrier qualification and other training continued through most of January 1945.[104]
1945
On 29 January 1945, Saratoga departed Pearl Harbor for Ulithi Atoll to rendezvous with the Enterprise and form a night fighter task group (TG 58.5/Night Carrier Division 7) along with Enterprise, to provide air cover for the amphibious landings on Iwo Jima. She arrived on 8 February[105] with the 53 Hellcats and 17 Avengers of Carrier Air Group (Night) 53[19] aboard and sailed two days later.[105]
Saratoga hit by a kamikaze, 21 February 1945
The carrier force carried out diversionary strikes on the Japanese home islands on the nights of 16 and 17 February, before the landings began. Saratoga was assigned to provide fighter cover while the remaining carriers launched the strikes on Japan, but in the process, her fighters raided two Japanese airfields. The force fueled on 18 and 19 February, and the ship provided CAP over Iwo Jima on 19–20 February.[106] The following day, Saratoga was detached with an escort of three destroyers to join the amphibious forces and carry out night patrols over Iwo Jima and nearby Chichi Jima. Taking advantage of low cloud cover and Saratoga's weak escort, six Japanese planes scored five bomb hits on the carrier in three minutes; three of the aircraft also struck the carrier. Saratoga's flight deck forward was wrecked, her starboard side was holed twice and large fires were started in her hangar deck; she lost 123 of her crew dead or missing as well as 192 wounded. Thirty-six of her aircraft were destroyed. Another attack two hours later further damaged her flight deck.[107] Slightly over an hour later, the fires were under control, and Saratoga was able to recover six fighters; she arrived at Bremerton on 16 March for permanent repairs.[108]
Because of Saratoga's age and the number of modern carriers in service, the Navy decided to modify her into a training carrier. The aft elevator and its machinery was removed, the opening was plated over and the forward elevator was replaced with a larger model. Part of the hangar deck was converted into classrooms.[109] While the ship was still under repair Captain Frank Akers assumed command on 27 April. The post-refit machinery trials on 12 May revealed some problems with one turbine, and an explosion in one 5-inch gun wounded eleven men and wrecked the mount. The full-power trials were completed on 20 May and a new mount was loaded aboard to be installed at Pearl. The ship sailed for NAS Alameda a few days later where she picked up 60 aircraft, 1,200 passengers and some trucks for delivery in Pearl. Saratoga arrived on 1 June and became the flagship of Rear Admiral Ralph F. Jennings, commander of Carrier Division 11. She resumed carrier qualification training on 3 June until she returned to the dockyard on 10 June for the installation of her replacement five-inch gun mount. Jennings transferred his flag to another carrier from 11 to 30 June. She continued training carrier pilots after the Japanese surrender until 6 September.[110] Over the span of the ship's 17-year career, Saratoga's aviators landed on her deck 98,549 times, then the record for the most carrier landings.[1] Saratoga received eight battle stars for her World War II service.[111] After the war, the ship took part in Operation Magic Carpet, the repatriation of American servicemen from the European, Pacific, and Asian theaters. She left Hawaii on 9 September with 3,712 Navy officers and enlisted men bound for the United States. In the course of the operation, she returned 29,204 veterans, the highest total for any individual vessel.[1]
Postwar years
Saratoga sinking after Test Baker
Saratoga was surplus to postwar requirements with the large numbers of Essex-class carriers in service,[1] and she was assigned to Operation Crossroads on 22 January 1946. This was a test conducted at Bikini Atoll to evaluate the effect of the atomic bomb on ships. Captain Stanhope Ring assumed command on 6 March, but was relieved on 2 June by Captain Donald MacMahan. The ship hosted comedian Jack Benny's radio show on 21 April, while Saratoga was berthed in San Francisco before her departure for Bikini.[112]
Operation Crossroads began with the first blast (Test Able), an air burst on 1 July 1946. Saratoga survived the explosion with only minor damage, including the ignition of the teak of her flight deck. A skeleton crew boarded Saratoga the following day to prepare her for the next test on 25 July. The ship was sunk by Test Baker, an underwater blast which was detonated under LSM-60 400 yards (370 m) from the carrier. The explosion literally blew the ship out of the water, knocked everything off her flight deck and knocked most of her funnel onto the flight deck.[113] She was struck from the Naval Vessel Register on 15 August 1946.[1]
In recent years, the submerged wreck, the top of which is only 50 ft (15 m) below the surface, has become a scuba diving destination, one of only three carrier wrecks accessible to recreational divers (the others are the Oriskany, in the Gulf of Mexico, and HMS Hermes, off Batticaloa in Sri Lanka.)[114] After a hiatus of several years, dive trips resumed in 2011.[115]
Fore ventral view showing mining particle beam cannon and sensor suite.
Name: S.S. Bessemer
Registration Number: KCC-1894 (Kolter Construction Contract Number 1,894)
Affiliation: Kolter Mining, Refining, and Fuel.
Class Name: Bessemer class
Type: Deep Space Mining Operations Flagship
Commissioned: Circa late 2500’s, post recent major conflict
Specifications:
Length: 1,844 meters (184.4 studs, 58.1 inches, 4.83 feet, 147.5 cm model)
Width: 503 meters (50.3 studs, 15.8 inches, 40.2 cm model)
Height: 484 meters, 398 meters without dorsal comms array, (48.4 studs, 15.2 inches, 38.7 cm model)
Crew: 2,950 standard complement + capacity for crew families, as well as smaller guest quarters for up to 2,000 additional personnel to be moved to/from mining operations.
Armament: 1 super-heavy coaxial particle beam cannon, (primarily for asteroid mining, but also more than capable of defensive action,) 4 dual-mounted heavy particle cannon turrets, 8 dual-mounted medium particle cannon turrets, 2 coaxial fore medium particle cannons, 80 quad-mounted 80mm anti-fighter flak railgun turrets.
Defensive systems:
Hull: Super-heavy steel alloy hull with carbon nanotube/buckypaper composite layers as spall lining.
Armor plating: steel, titanium alloy, tungsten, ceramic, and carbon nanotube composite armor layers against asteroids/other space debris, kinetic weapons, kinetic spalling, particle, laser, and plasma fire. Thick composite armor provides excellent survivability, but with very high mass. Some battleships are less armored than this ship.
Bulkheads: Extensive titanium bulkhead support network.
Structural integrity field: High power system designed for significant cargo mass placing stress on the frame, or to withstand asteroid impacts to the hull.
Shielding: Internally housed high power adaptive particle field repulsing shielding system capable of surviving significant punishment. Some older battleships have less robust shielding.
Powerplant: 1 primary matter-antimatter reactor with extensive fuel reserves, 2 secondary fusion reactors with extensive fuel reserves. Multiple massive power capacitors. Extensive heatinks.
Propulsion: 1 massive primary fusion engine for sub-lightspeed travel, 1 internal FTL core capable of moderate FTL speed, long range travel, and 32 large reaction control thrusters for slow but dependable below light speed maneuvering.
Computer systems: Single supercomputer core with onboard Virtual Intelligence system.
Comms and Sensors: Local and FTL comms arrays. Radar, LIDAR, infrared, multi-spectral, and additional other local area sensors systems, along with extensive FTL sensors.
Additional Systems: High power artificial singularity for both artificial gravity generation and inertial dampening, allowing for 1G gravity even when hauling an entire cargo hold full of heavy-metal. 6 massive blast furnaces for refining metal ore, an enormous central cargo hold system, 4 fuel refining tanks, 4 massive fuel storage tanks, and an internal rail system for moving ore and personnel.
Embarked Craft: 2 Thunderbird class super-heavy cargo/personnel shuttles, 2 Hurricane class heavy cargo/personnel shuttles, 20 heavy mining drones, 24 medium mining drones, 2 gunships of variable class, 2 heavy fighter/bombers of variable class, potential for multiple additional light shuttles and fighters.
Background: After seeing both the devastation to outlying areas of space caused by the recent Great War, and the corruption within the Federal Defense Navy (working title) Admiralty, Captain David Courtland retired honorably from military service and went to helm his family’s generations old mining company, Kolter Mining, Refining, and Fuel; one of the largest mining companies in United Earth Federation space. (Working title.)
He wanted to take the company, already a reputable and successful business, in a new direction. That direction was the disputed, war-torn, no-man’s-waste-land of space known as The Divide, (working title) situated between the major powers of the galaxy. Life in The Divide was desperate, with little hope for the many people stranded in the ruins, poverty, and crime infested land. None of the major powers could intervene without starting another territorial war, and as such, pirates, gangs, and unscrupulous mega-corporations ruled supreme.
Courtland wanted to make a difference to this sorrowful place, and with trillions of credits and a Fortunes 1,000 company at his control, he had the means to at least begin; although even he lacked the ability to single-handedly remedy the myriad of woes The Divide faced.
David’s plan was simple, to move significant mining operations to The Divide, thus:
1: Creating new, safe, well-paying, good jobs for both an area and an industry that seldom offered such things.
2: Allowing for the placement of company security forces to deter pirate activity around major settlements.
3: Providing tax-free revenue to fund new schools, hospitals, food, water, shetler, and other charitable activities in The Divide.
But to do it, he required a new kind of mining vessel, as well as additional security forces. Thus he contacted Nelson Heavy Industries, who in turn partnered with AxonTech Interstellar Systems for some components, to place an order for a line of custom massive deep space mining operation flagships with enhanced combat capabilities and capable of operating in the remotest reaches of space for months or even years at a time. And so the Bessemer class was born.
The Bessemer class is unlike any mining vessel ever produced before it. Certainly significantly larger mining ships existed, but these were typically little more than unarmed, slow moving things with small engines; closer to a semi-mobile starbase than a combination frontier battleship/mining vessel. But Courtland required something unique. Something that could move faster, survive more punishment, and something that had teeth; not a fragile, barely moving thing that would only sit in safe areas of space. Courtland needed a mighty sheepdog in a world of sheep and wolves.
Bessemer class vessels are 1,844 meters long, and possess more armor, firepower, and shielding than many pre Great War battleship designs. Almost any pirate or local gang would be terrified of the sight of over a mile of steel and particle cannons; clad in Kolter white, green, and yellow.
But the Bessemer, and others of her class, are not merely warships masquerading as civilian craft. They are heavy mining machines that live up to their name; a steel producing process that revolutionized the industry of Earth some seven hundred years earlier. The Bessemer and her sister ships are capable of blasting metal-rich asteroids to bits with their coaxial mining particle beam cannon, and then having swarms of automated mining drones devour any valuable deposits within before unloading the materials into the Bessemer’s ore hold for the internal rail system to run any raw ore through her six corvette sized forges, and then having the refined metal shunted to her cavernous lower hold, while any waste material from the refining process is vented directly into space.
Ships of this class are outfitted with a sizable hangar, advanced sensor suite, extensive internal cargo bays, and large cargo pod clamps that allow it to act in the capacity of miner, defensive ship, operations command center, and even freighter and personnel carrier should usual shipping to outlying mining sites be disrupted.
But capable as they are, these are not the spartan mining vessels with unlivable working conditions that some shady companies have been known to operate. These space-faring cities of steel feature robust safety systems, spacious and comfortable crew quarters, multiple restaurants, multiple mess-halls, multiple shops for clothing, food, electronics, and other items, an arcade, multiple gyms with weights, various weight and cardio machines, martial arts areas, gymnastics equipment, along with a walking track, a small bowling alley, an olympic sized swimming pool, a multi-sport stadium, a greenhouse, hydroponics bays, a small stage/concert area, several computer labs, a library, a small movie theater, crew lounges and break areas, a salon/spa, a bar/club, chapels, classroom/daycare areas, office areas, as well as repair stations, enough dry and frozen storage to keep everyone fed for extended missions, advanced workshops, astrotography, laboratories, guest bunk-rooms, and a starbase grade medical center.
Not everyone is happy about Kolter Mining’s efforts, however. While Courtland founded the Kolter Foundation to aid those in need, he also lobbied for what came to be known as the Kolter Bill to be passed. Mining employees out in the colonies loved the added protections this afforded them. But the executives of Kolter’s rival mining companies operating out of Earth’s colony worlds quickly found themselves facing laws that favored the profits of Kolter and their already developed safety systems and excellent treatment of employees. What’s more, the Federal Defense Navy Admiralty have been continually frustrated that rather than helping to line their pockets as part of the military industrial complex, Courtland has been working tirelessly to reveal their corruption and hidden support of crime in outlying areas of space.
What’s more, there are even rumors that Courtland is now working with, and possibly even helping to fund, a mercenary vigilante unit out in The Divide known as the Phoenix Command Group, founded by Jonathan Scarlett, another former Federal Defense Navy Captain who ran afoul of the Admiralty.
The wealthy and corrupt among the Admiralty, military industrial complex, crime syndicates, and corrupt businesses running shady operations out in The Divide are deeply troubled by these rumors. But those who are now citizens of no nation, and who have known nothing but hopelessness and need for years, have a slight spark of hope rising like a Phoenix.
IRL info: This digital SHIP was made in Bricklink’s Studio software from September 11th to September 30th, 2021. I did not originally plan to participate in SHIPtember, but I couldn’t resist. It is 184 studs (58.1 inches) long, 50 studs wide, and 48 studs high. It is comprised of 23,470 pieces, which I believe makes it my highest piece-count SHIP to date, and means that the model itself has a mass of 973.502 ounces, or 60.843 pounds, or 27.597 kilograms, which most likely makes it my heaviest SHIP as well as my most piece intensive. (I really need to learn to build a little more hollow.) Note that it uses all real pieces/colors that are available for sale on Bricklink. (Albeit at a price that makes attempting to build it in physical bricks highly impractical.) It is 100% connected, and should be at least somewhat stable in real life. I would want to reinforce the fore-end with more Technic, and switch out the longest Lego Technic axle holding the engine for an aftermarket stainless steel version. I cannot guarantee that various sections built out from the main SNOT and Technic frame would be totally stable without slight redesign of a few bits. It would also require a hefty display stand of some kind.
The current pictures are WIP to show the completed status of the build itself. Better renders done by importing the Studio build into Mecabricks, replacing any pieces that fail to load or change position, and then exporting to Blender for higher quality rendering, and finally hopefully doing some cool backgrounds with GIMP, will hopefully follow before whatever October picture deadline is decided on. Please do not use these early pictures in the poster if time remains, as I hope to provide better ones. Thank you for reading this lengthy description. Have a cookie.
If this ship had a theme song, this magnificent piece by Clamavi De Profundis would be it: youtu.be/Xm96Cqu4Ils
Aft angled view.
Name: S.S. Bessemer
Registration Number: KCC-1894 (Kolter Construction Contract Number 1,894)
Affiliation: Kolter Mining, Refining, and Fuel.
Class Name: Bessemer class
Type: Deep Space Mining Operations Flagship
Commissioned: Circa late 2500’s, post recent major conflict
Specifications:
Length: 1,844 meters (184.4 studs, 58.1 inches, 4.83 feet, 147.5 cm model)
Width: 503 meters (50.3 studs, 15.8 inches, 40.2 cm model)
Height: 484 meters, 398 meters without dorsal comms array, (48.4 studs, 15.2 inches, 38.7 cm model)
Crew: 2,950 standard complement + capacity for crew families, as well as smaller guest quarters for up to 2,000 additional personnel to be moved to/from mining operations.
Armament: 1 super-heavy coaxial particle beam cannon, (primarily for asteroid mining, but also more than capable of defensive action,) 4 dual-mounted heavy particle cannon turrets, 8 dual-mounted medium particle cannon turrets, 2 coaxial fore medium particle cannons, 80 quad-mounted 80mm anti-fighter flak railgun turrets.
Defensive systems:
Hull: Super-heavy steel alloy hull with carbon nanotube/buckypaper composite layers as spall lining.
Armor plating: steel, titanium alloy, tungsten, ceramic, and carbon nanotube composite armor layers against asteroids/other space debris, kinetic weapons, kinetic spalling, particle, laser, and plasma fire. Thick composite armor provides excellent survivability, but with very high mass. Some battleships are less armored than this ship.
Bulkheads: Extensive titanium bulkhead support network.
Structural integrity field: High power system designed for significant cargo mass placing stress on the frame, or to withstand asteroid impacts to the hull.
Shielding: Internally housed high power adaptive particle field repulsing shielding system capable of surviving significant punishment. Some older battleships have less robust shielding.
Powerplant: 1 primary matter-antimatter reactor with extensive fuel reserves, 2 secondary fusion reactors with extensive fuel reserves. Multiple massive power capacitors. Extensive heatinks.
Propulsion: 1 massive primary fusion engine for sub-lightspeed travel, 1 internal FTL core capable of moderate FTL speed, long range travel, and 32 large reaction control thrusters for slow but dependable below light speed maneuvering.
Computer systems: Single supercomputer core with onboard Virtual Intelligence system.
Comms and Sensors: Local and FTL comms arrays. Radar, LIDAR, infrared, multi-spectral, and additional other local area sensors systems, along with extensive FTL sensors.
Additional Systems: High power artificial singularity for both artificial gravity generation and inertial dampening, allowing for 1G gravity even when hauling an entire cargo hold full of heavy-metal. 6 massive blast furnaces for refining metal ore, an enormous central cargo hold system, 4 fuel refining tanks, 4 massive fuel storage tanks, and an internal rail system for moving ore and personnel.
Embarked Craft: 2 Thunderbird class super-heavy cargo/personnel shuttles, 2 Hurricane class heavy cargo/personnel shuttles, 20 heavy mining drones, 24 medium mining drones, 2 gunships of variable class, 2 heavy fighter/bombers of variable class, potential for multiple additional light shuttles and fighters.
Background: After seeing both the devastation to outlying areas of space caused by the recent Great War, and the corruption within the Federal Defense Navy (working title) Admiralty, Captain David Courtland retired honorably from military service and went to helm his family’s generations old mining company, Kolter Mining, Refining, and Fuel; one of the largest mining companies in United Earth Federation space. (Working title.)
He wanted to take the company, already a reputable and successful business, in a new direction. That direction was the disputed, war-torn, no-man’s-waste-land of space known as The Divide, (working title) situated between the major powers of the galaxy. Life in The Divide was desperate, with little hope for the many people stranded in the ruins, poverty, and crime infested land. None of the major powers could intervene without starting another territorial war, and as such, pirates, gangs, and unscrupulous mega-corporations ruled supreme.
Courtland wanted to make a difference to this sorrowful place, and with trillions of credits and a Fortunes 1,000 company at his control, he had the means to at least begin; although even he lacked the ability to single-handedly remedy the myriad of woes The Divide faced.
David’s plan was simple, to move significant mining operations to The Divide, thus:
1: Creating new, safe, well-paying, good jobs for both an area and an industry that seldom offered such things.
2: Allowing for the placement of company security forces to deter pirate activity around major settlements.
3: Providing tax-free revenue to fund new schools, hospitals, food, water, shetler, and other charitable activities in The Divide.
But to do it, he required a new kind of mining vessel, as well as additional security forces. Thus he contacted Nelson Heavy Industries, who in turn partnered with AxonTech Interstellar Systems for some components, to place an order for a line of custom massive deep space mining operation flagships with enhanced combat capabilities and capable of operating in the remotest reaches of space for months or even years at a time. And so the Bessemer class was born.
The Bessemer class is unlike any mining vessel ever produced before it. Certainly significantly larger mining ships existed, but these were typically little more than unarmed, slow moving things with small engines; closer to a semi-mobile starbase than a combination frontier battleship/mining vessel. But Courtland required something unique. Something that could move faster, survive more punishment, and something that had teeth; not a fragile, barely moving thing that would only sit in safe areas of space. Courtland needed a mighty sheepdog in a world of sheep and wolves.
Bessemer class vessels are 1,844 meters long, and possess more armor, firepower, and shielding than many pre Great War battleship designs. Almost any pirate or local gang would be terrified of the sight of over a mile of steel and particle cannons; clad in Kolter white, green, and yellow.
But the Bessemer, and others of her class, are not merely warships masquerading as civilian craft. They are heavy mining machines that live up to their name; a steel producing process that revolutionized the industry of Earth some seven hundred years earlier. The Bessemer and her sister ships are capable of blasting metal-rich asteroids to bits with their coaxial mining particle beam cannon, and then having swarms of automated mining drones devour any valuable deposits within before unloading the materials into the Bessemer’s ore hold for the internal rail system to run any raw ore through her six corvette sized forges, and then having the refined metal shunted to her cavernous lower hold, while any waste material from the refining process is vented directly into space.
Ships of this class are outfitted with a sizable hangar, advanced sensor suite, extensive internal cargo bays, and large cargo pod clamps that allow it to act in the capacity of miner, defensive ship, operations command center, and even freighter and personnel carrier should usual shipping to outlying mining sites be disrupted.
But capable as they are, these are not the spartan mining vessels with unlivable working conditions that some shady companies have been known to operate. These space-faring cities of steel feature robust safety systems, spacious and comfortable crew quarters, multiple restaurants, multiple mess-halls, multiple shops for clothing, food, electronics, and other items, an arcade, multiple gyms with weights, various weight and cardio machines, martial arts areas, gymnastics equipment, along with a walking track, a small bowling alley, an olympic sized swimming pool, a multi-sport stadium, a greenhouse, hydroponics bays, a small stage/concert area, several computer labs, a library, a small movie theater, crew lounges and break areas, a salon/spa, a bar/club, chapels, classroom/daycare areas, office areas, as well as repair stations, enough dry and frozen storage to keep everyone fed for extended missions, advanced workshops, astrotography, laboratories, guest bunk-rooms, and a starbase grade medical center.
Not everyone is happy about Kolter Mining’s efforts, however. While Courtland founded the Kolter Foundation to aid those in need, he also lobbied for what came to be known as the Kolter Bill to be passed. Mining employees out in the colonies loved the added protections this afforded them. But the executives of Kolter’s rival mining companies operating out of Earth’s colony worlds quickly found themselves facing laws that favored the profits of Kolter and their already developed safety systems and excellent treatment of employees. What’s more, the Federal Defense Navy Admiralty have been continually frustrated that rather than helping to line their pockets as part of the military industrial complex, Courtland has been working tirelessly to reveal their corruption and hidden support of crime in outlying areas of space.
What’s more, there are even rumors that Courtland is now working with, and possibly even helping to fund, a mercenary vigilante unit out in The Divide known as the Phoenix Command Group, founded by Jonathan Scarlett, another former Federal Defense Navy Captain who ran afoul of the Admiralty.
The wealthy and corrupt among the Admiralty, military industrial complex, crime syndicates, and corrupt businesses running shady operations out in The Divide are deeply troubled by these rumors. But those who are now citizens of no nation, and who have known nothing but hopelessness and need for years, have a slight spark of hope rising like a Phoenix.
IRL info: This digital SHIP was made in Bricklink’s Studio software from September 11th to September 30th, 2021. I did not originally plan to participate in SHIPtember, but I couldn’t resist. It is 184 studs (58.1 inches) long, 50 studs wide, and 48 studs high. It is comprised of 23,470 pieces, which I believe makes it my highest piece-count SHIP to date, and means that the model itself has a mass of 973.502 ounces, or 60.843 pounds, or 27.597 kilograms, which most likely makes it my heaviest SHIP as well as my most piece intensive. (I really need to learn to build a little more hollow.) Note that it uses all real pieces/colors that are available for sale on Bricklink. (Albeit at a price that makes attempting to build it in physical bricks highly impractical.) It is 100% connected, and should be at least somewhat stable in real life. I would want to reinforce the fore-end with more Technic, and switch out the longest Lego Technic axle holding the engine for an aftermarket stainless steel version. I cannot guarantee that various sections built out from the main SNOT and Technic frame would be totally stable without slight redesign of a few bits. It would also require a hefty display stand of some kind.
The current pictures are WIP to show the completed status of the build itself. Better renders done by importing the Studio build into Mecabricks, replacing any pieces that fail to load or change position, and then exporting to Blender for higher quality rendering, and finally hopefully doing some cool backgrounds with GIMP, will hopefully follow before whatever October picture deadline is decided on. Please do not use these early pictures in the poster if time remains, as I hope to provide better ones. Thank you for reading this lengthy description. Have a cookie.
If this ship had a theme song, this magnificent piece by Clamavi De Profundis would be it: youtu.be/Xm96Cqu4Ils
I had high hopes that Loadmaster would put more work into refining their new arm, and I am very happy with the progress. I am also happy to see the design they chose too, as it's one I've had in mind for a quite a long time so it is neat to see it in use.
I'm refining the folding sequence. The paper is seven inch black Kami. Quite small for this type of fold. I'm trying out different ways to fold the head and ears.
Fore angled view.
Name: S.S. Bessemer
Registration Number: KCC-1894 (Kolter Construction Contract Number 1,894)
Affiliation: Kolter Mining, Refining, and Fuel.
Class Name: Bessemer class
Type: Deep Space Mining Operations Flagship
Commissioned: Circa late 2500’s, post recent major conflict
Specifications:
Length: 1,844 meters (184.4 studs, 58.1 inches, 4.83 feet, 147.5 cm model)
Width: 503 meters (50.3 studs, 15.8 inches, 40.2 cm model)
Height: 484 meters, 398 meters without dorsal comms array, (48.4 studs, 15.2 inches, 38.7 cm model)
Crew: 2,950 standard complement + capacity for crew families, as well as smaller guest quarters for up to 2,000 additional personnel to be moved to/from mining operations.
Armament: 1 super-heavy coaxial particle beam cannon, (primarily for asteroid mining, but also more than capable of defensive action,) 4 dual-mounted heavy particle cannon turrets, 8 dual-mounted medium particle cannon turrets, 2 coaxial fore medium particle cannons, 80 quad-mounted 80mm anti-fighter flak railgun turrets.
Defensive systems:
Hull: Super-heavy steel alloy hull with carbon nanotube/buckypaper composite layers as spall lining.
Armor plating: steel, titanium alloy, tungsten, ceramic, and carbon nanotube composite armor layers against asteroids/other space debris, kinetic weapons, kinetic spalling, particle, laser, and plasma fire. Thick composite armor provides excellent survivability, but with very high mass. Some battleships are less armored than this ship.
Bulkheads: Extensive titanium bulkhead support network.
Structural integrity field: High power system designed for significant cargo mass placing stress on the frame, or to withstand asteroid impacts to the hull.
Shielding: Internally housed high power adaptive particle field repulsing shielding system capable of surviving significant punishment. Some older battleships have less robust shielding.
Powerplant: 1 primary matter-antimatter reactor with extensive fuel reserves, 2 secondary fusion reactors with extensive fuel reserves. Multiple massive power capacitors. Extensive heatinks.
Propulsion: 1 massive primary fusion engine for sub-lightspeed travel, 1 internal FTL core capable of moderate FTL speed, long range travel, and 32 large reaction control thrusters for slow but dependable below light speed maneuvering.
Computer systems: Single supercomputer core with onboard Virtual Intelligence system.
Comms and Sensors: Local and FTL comms arrays. Radar, LIDAR, infrared, multi-spectral, and additional other local area sensors systems, along with extensive FTL sensors.
Additional Systems: High power artificial singularity for both artificial gravity generation and inertial dampening, allowing for 1G gravity even when hauling an entire cargo hold full of heavy-metal. 6 massive blast furnaces for refining metal ore, an enormous central cargo hold system, 4 fuel refining tanks, 4 massive fuel storage tanks, and an internal rail system for moving ore and personnel.
Embarked Craft: 2 Thunderbird class super-heavy cargo/personnel shuttles, 2 Hurricane class heavy cargo/personnel shuttles, 20 heavy mining drones, 24 medium mining drones, 2 gunships of variable class, 2 heavy fighter/bombers of variable class, potential for multiple additional light shuttles and fighters.
Background: After seeing both the devastation to outlying areas of space caused by the recent Great War, and the corruption within the Federal Defense Navy (working title) Admiralty, Captain David Courtland retired honorably from military service and went to helm his family’s generations old mining company, Kolter Mining, Refining, and Fuel; one of the largest mining companies in United Earth Federation space. (Working title.)
He wanted to take the company, already a reputable and successful business, in a new direction. That direction was the disputed, war-torn, no-man’s-waste-land of space known as The Divide, (working title) situated between the major powers of the galaxy. Life in The Divide was desperate, with little hope for the many people stranded in the ruins, poverty, and crime infested land. None of the major powers could intervene without starting another territorial war, and as such, pirates, gangs, and unscrupulous mega-corporations ruled supreme.
Courtland wanted to make a difference to this sorrowful place, and with trillions of credits and a Fortunes 1,000 company at his control, he had the means to at least begin; although even he lacked the ability to single-handedly remedy the myriad of woes The Divide faced.
David’s plan was simple, to move significant mining operations to The Divide, thus:
1: Creating new, safe, well-paying, good jobs for both an area and an industry that seldom offered such things.
2: Allowing for the placement of company security forces to deter pirate activity around major settlements.
3: Providing tax-free revenue to fund new schools, hospitals, food, water, shetler, and other charitable activities in The Divide.
But to do it, he required a new kind of mining vessel, as well as additional security forces. Thus he contacted Nelson Heavy Industries, who in turn partnered with AxonTech Interstellar Systems for some components, to place an order for a line of custom massive deep space mining operation flagships with enhanced combat capabilities and capable of operating in the remotest reaches of space for months or even years at a time. And so the Bessemer class was born.
The Bessemer class is unlike any mining vessel ever produced before it. Certainly significantly larger mining ships existed, but these were typically little more than unarmed, slow moving things with small engines; closer to a semi-mobile starbase than a combination frontier battleship/mining vessel. But Courtland required something unique. Something that could move faster, survive more punishment, and something that had teeth; not a fragile, barely moving thing that would only sit in safe areas of space. Courtland needed a mighty sheepdog in a world of sheep and wolves.
Bessemer class vessels are 1,844 meters long, and possess more armor, firepower, and shielding than many pre Great War battleship designs. Almost any pirate or local gang would be terrified of the sight of over a mile of steel and particle cannons; clad in Kolter white, green, and yellow.
But the Bessemer, and others of her class, are not merely warships masquerading as civilian craft. They are heavy mining machines that live up to their name; a steel producing process that revolutionized the industry of Earth some seven hundred years earlier. The Bessemer and her sister ships are capable of blasting metal-rich asteroids to bits with their coaxial mining particle beam cannon, and then having swarms of automated mining drones devour any valuable deposits within before unloading the materials into the Bessemer’s ore hold for the internal rail system to run any raw ore through her six corvette sized forges, and then having the refined metal shunted to her cavernous lower hold, while any waste material from the refining process is vented directly into space.
Ships of this class are outfitted with a sizable hangar, advanced sensor suite, extensive internal cargo bays, and large cargo pod clamps that allow it to act in the capacity of miner, defensive ship, operations command center, and even freighter and personnel carrier should usual shipping to outlying mining sites be disrupted.
But capable as they are, these are not the spartan mining vessels with unlivable working conditions that some shady companies have been known to operate. These space-faring cities of steel feature robust safety systems, spacious and comfortable crew quarters, multiple restaurants, multiple mess-halls, multiple shops for clothing, food, electronics, and other items, an arcade, multiple gyms with weights, various weight and cardio machines, martial arts areas, gymnastics equipment, along with a walking track, a small bowling alley, an olympic sized swimming pool, a multi-sport stadium, a greenhouse, hydroponics bays, a small stage/concert area, several computer labs, a library, a small movie theater, crew lounges and break areas, a salon/spa, a bar/club, chapels, classroom/daycare areas, office areas, as well as repair stations, enough dry and frozen storage to keep everyone fed for extended missions, advanced workshops, astrotography, laboratories, guest bunk-rooms, and a starbase grade medical center.
Not everyone is happy about Kolter Mining’s efforts, however. While Courtland founded the Kolter Foundation to aid those in need, he also lobbied for what came to be known as the Kolter Bill to be passed. Mining employees out in the colonies loved the added protections this afforded them. But the executives of Kolter’s rival mining companies operating out of Earth’s colony worlds quickly found themselves facing laws that favored the profits of Kolter and their already developed safety systems and excellent treatment of employees. What’s more, the Federal Defense Navy Admiralty have been continually frustrated that rather than helping to line their pockets as part of the military industrial complex, Courtland has been working tirelessly to reveal their corruption and hidden support of crime in outlying areas of space.
What’s more, there are even rumors that Courtland is now working with, and possibly even helping to fund, a mercenary vigilante unit out in The Divide known as the Phoenix Command Group, founded by Jonathan Scarlett, another former Federal Defense Navy Captain who ran afoul of the Admiralty.
The wealthy and corrupt among the Admiralty, military industrial complex, crime syndicates, and corrupt businesses running shady operations out in The Divide are deeply troubled by these rumors. But those who are now citizens of no nation, and who have known nothing but hopelessness and need for years, have a slight spark of hope rising like a Phoenix.
IRL info: This digital SHIP was made in Bricklink’s Studio software from September 11th to September 30th, 2021. I did not originally plan to participate in SHIPtember, but I couldn’t resist. It is 184 studs (58.1 inches) long, 50 studs wide, and 48 studs high. It is comprised of 23,470 pieces, which I believe makes it my highest piece-count SHIP to date, and means that the model itself has a mass of 973.502 ounces, or 60.843 pounds, or 27.597 kilograms, which most likely makes it my heaviest SHIP as well as my most piece intensive. (I really need to learn to build a little more hollow.) Note that it uses all real pieces/colors that are available for sale on Bricklink. (Albeit at a price that makes attempting to build it in physical bricks highly impractical.) It is 100% connected, and should be at least somewhat stable in real life. I would want to reinforce the fore-end with more Technic, and switch out the longest Lego Technic axle holding the engine for an aftermarket stainless steel version. I cannot guarantee that various sections built out from the main SNOT and Technic frame would be totally stable without slight redesign of a few bits. It would also require a hefty display stand of some kind.
The current pictures are WIP to show the completed status of the build itself. Better renders done by importing the Studio build into Mecabricks, replacing any pieces that fail to load or change position, and then exporting to Blender for higher quality rendering, and finally hopefully doing some cool backgrounds with GIMP, will hopefully follow before whatever October picture deadline is decided on. Please do not use these early pictures in the poster if time remains, as I hope to provide better ones. Thank you for reading this lengthy description. Have a cookie.
If this ship had a theme song, this magnificent piece by Clamavi De Profundis would be it: youtu.be/Xm96Cqu4Ils
Aft angle view.
Name: S.S. Bessemer
Registration Number: KCC-1894 (Kolter Construction Contract Number 1,894)
Affiliation: Kolter Mining, Refining, and Fuel.
Class Name: Bessemer class
Type: Deep Space Mining Operations Flagship
Commissioned: Circa late 2500’s, post recent major conflict
Specifications:
Length: 1,844 meters (184.4 studs, 58.1 inches, 4.83 feet, 147.5 cm model)
Width: 503 meters (50.3 studs, 15.8 inches, 40.2 cm model)
Height: 484 meters, 398 meters without dorsal comms array, (48.4 studs, 15.2 inches, 38.7 cm model)
Crew: 2,950 standard complement + capacity for crew families, as well as smaller guest quarters for up to 2,000 additional personnel to be moved to/from mining operations.
Armament: 1 super-heavy coaxial particle beam cannon, (primarily for asteroid mining, but also more than capable of defensive action,) 4 dual-mounted heavy particle cannon turrets, 8 dual-mounted medium particle cannon turrets, 2 coaxial fore medium particle cannons, 80 quad-mounted 80mm anti-fighter flak railgun turrets.
Defensive systems:
Hull: Super-heavy steel alloy hull with carbon nanotube/buckypaper composite layers as spall lining.
Armor plating: steel, titanium alloy, tungsten, ceramic, and carbon nanotube composite armor layers against asteroids/other space debris, kinetic weapons, kinetic spalling, particle, laser, and plasma fire. Thick composite armor provides excellent survivability, but with very high mass. Some battleships are less armored than this ship.
Bulkheads: Extensive titanium bulkhead support network.
Structural integrity field: High power system designed for significant cargo mass placing stress on the frame, or to withstand asteroid impacts to the hull.
Shielding: Internally housed high power adaptive particle field repulsing shielding system capable of surviving significant punishment. Some older battleships have less robust shielding.
Powerplant: 1 primary matter-antimatter reactor with extensive fuel reserves, 2 secondary fusion reactors with extensive fuel reserves. Multiple massive power capacitors. Extensive heatinks.
Propulsion: 1 massive primary fusion engine for sub-lightspeed travel, 1 internal FTL core capable of moderate FTL speed, long range travel, and 32 large reaction control thrusters for slow but dependable below light speed maneuvering.
Computer systems: Single supercomputer core with onboard Virtual Intelligence system.
Comms and Sensors: Local and FTL comms arrays. Radar, LIDAR, infrared, multi-spectral, and additional other local area sensors systems, along with extensive FTL sensors.
Additional Systems: High power artificial singularity for both artificial gravity generation and inertial dampening, allowing for 1G gravity even when hauling an entire cargo hold full of heavy-metal. 6 massive blast furnaces for refining metal ore, an enormous central cargo hold system, 4 fuel refining tanks, 4 massive fuel storage tanks, and an internal rail system for moving ore and personnel.
Embarked Craft: 2 Thunderbird class super-heavy cargo/personnel shuttles, 2 Hurricane class heavy cargo/personnel shuttles, 20 heavy mining drones, 24 medium mining drones, 2 gunships of variable class, 2 heavy fighter/bombers of variable class, potential for multiple additional light shuttles and fighters.
Background: After seeing both the devastation to outlying areas of space caused by the recent Great War, and the corruption within the Federal Defense Navy (working title) Admiralty, Captain David Courtland retired honorably from military service and went to helm his family’s generations old mining company, Kolter Mining, Refining, and Fuel; one of the largest mining companies in United Earth Federation space. (Working title.)
He wanted to take the company, already a reputable and successful business, in a new direction. That direction was the disputed, war-torn, no-man’s-waste-land of space known as The Divide, (working title) situated between the major powers of the galaxy. Life in The Divide was desperate, with little hope for the many people stranded in the ruins, poverty, and crime infested land. None of the major powers could intervene without starting another territorial war, and as such, pirates, gangs, and unscrupulous mega-corporations ruled supreme.
Courtland wanted to make a difference to this sorrowful place, and with trillions of credits and a Fortunes 1,000 company at his control, he had the means to at least begin; although even he lacked the ability to single-handedly remedy the myriad of woes The Divide faced.
David’s plan was simple, to move significant mining operations to The Divide, thus:
1: Creating new, safe, well-paying, good jobs for both an area and an industry that seldom offered such things.
2: Allowing for the placement of company security forces to deter pirate activity around major settlements.
3: Providing tax-free revenue to fund new schools, hospitals, food, water, shetler, and other charitable activities in The Divide.
But to do it, he required a new kind of mining vessel, as well as additional security forces. Thus he contacted Nelson Heavy Industries, who in turn partnered with AxonTech Interstellar Systems for some components, to place an order for a line of custom massive deep space mining operation flagships with enhanced combat capabilities and capable of operating in the remotest reaches of space for months or even years at a time. And so the Bessemer class was born.
The Bessemer class is unlike any mining vessel ever produced before it. Certainly significantly larger mining ships existed, but these were typically little more than unarmed, slow moving things with small engines; closer to a semi-mobile starbase than a combination frontier battleship/mining vessel. But Courtland required something unique. Something that could move faster, survive more punishment, and something that had teeth; not a fragile, barely moving thing that would only sit in safe areas of space. Courtland needed a mighty sheepdog in a world of sheep and wolves.
Bessemer class vessels are 1,844 meters long, and possess more armor, firepower, and shielding than many pre Great War battleship designs. Almost any pirate or local gang would be terrified of the sight of over a mile of steel and particle cannons; clad in Kolter white, green, and yellow.
But the Bessemer, and others of her class, are not merely warships masquerading as civilian craft. They are heavy mining machines that live up to their name; a steel producing process that revolutionized the industry of Earth some seven hundred years earlier. The Bessemer and her sister ships are capable of blasting metal-rich asteroids to bits with their coaxial mining particle beam cannon, and then having swarms of automated mining drones devour any valuable deposits within before unloading the materials into the Bessemer’s ore hold for the internal rail system to run any raw ore through her six corvette sized forges, and then having the refined metal shunted to her cavernous lower hold, while any waste material from the refining process is vented directly into space.
Ships of this class are outfitted with a sizable hangar, advanced sensor suite, extensive internal cargo bays, and large cargo pod clamps that allow it to act in the capacity of miner, defensive ship, operations command center, and even freighter and personnel carrier should usual shipping to outlying mining sites be disrupted.
But capable as they are, these are not the spartan mining vessels with unlivable working conditions that some shady companies have been known to operate. These space-faring cities of steel feature robust safety systems, spacious and comfortable crew quarters, multiple restaurants, multiple mess-halls, multiple shops for clothing, food, electronics, and other items, an arcade, multiple gyms with weights, various weight and cardio machines, martial arts areas, gymnastics equipment, along with a walking track, a small bowling alley, an olympic sized swimming pool, a multi-sport stadium, a greenhouse, hydroponics bays, a small stage/concert area, several computer labs, a library, a small movie theater, crew lounges and break areas, a salon/spa, a bar/club, chapels, classroom/daycare areas, office areas, as well as repair stations, enough dry and frozen storage to keep everyone fed for extended missions, advanced workshops, astrotography, laboratories, guest bunk-rooms, and a starbase grade medical center.
Not everyone is happy about Kolter Mining’s efforts, however. While Courtland founded the Kolter Foundation to aid those in need, he also lobbied for what came to be known as the Kolter Bill to be passed. Mining employees out in the colonies loved the added protections this afforded them. But the executives of Kolter’s rival mining companies operating out of Earth’s colony worlds quickly found themselves facing laws that favored the profits of Kolter and their already developed safety systems and excellent treatment of employees. What’s more, the Federal Defense Navy Admiralty have been continually frustrated that rather than helping to line their pockets as part of the military industrial complex, Courtland has been working tirelessly to reveal their corruption and hidden support of crime in outlying areas of space.
What’s more, there are even rumors that Courtland is now working with, and possibly even helping to fund, a mercenary vigilante unit out in The Divide known as the Phoenix Command Group, founded by Jonathan Scarlett, another former Federal Defense Navy Captain who ran afoul of the Admiralty.
The wealthy and corrupt among the Admiralty, military industrial complex, crime syndicates, and corrupt businesses running shady operations out in The Divide are deeply troubled by these rumors. But those who are now citizens of no nation, and who have known nothing but hopelessness and need for years, have a slight spark of hope rising like a Phoenix.
IRL info: This digital SHIP was made in Bricklink’s Studio software from September 11th to September 30th, 2021. I did not originally plan to participate in SHIPtember, but I couldn’t resist. It is 184 studs (58.1 inches) long, 50 studs wide, and 48 studs high. It is comprised of 23,470 pieces, which I believe makes it my highest piece-count SHIP to date, and means that the model itself has a mass of 973.502 ounces, or 60.843 pounds, or 27.597 kilograms, which most likely makes it my heaviest SHIP as well as my most piece intensive. (I really need to learn to build a little more hollow.) Note that it uses all real pieces/colors that are available for sale on Bricklink. (Albeit at a price that makes attempting to build it in physical bricks highly impractical.) It is 100% connected, and should be at least somewhat stable in real life. I would want to reinforce the fore-end with more Technic, and switch out the longest Lego Technic axle holding the engine for an aftermarket stainless steel version. I cannot guarantee that various sections built out from the main SNOT and Technic frame would be totally stable without slight redesign of a few bits. It would also require a hefty display stand of some kind.
The current pictures are WIP to show the completed status of the build itself. Better renders done by importing the Studio build into Mecabricks, replacing any pieces that fail to load or change position, and then exporting to Blender for higher quality rendering, and finally hopefully doing some cool backgrounds with GIMP, will hopefully follow before whatever October picture deadline is decided on. Please do not use these early pictures in the poster if time remains, as I hope to provide better ones. Thank you for reading this lengthy description. Have a cookie.
If this ship had a theme song, this magnificent piece by Clamavi De Profundis would be it: youtu.be/Xm96Cqu4Ils
The covers of the Humble Company's road map of Texas in 1951. Most oil and gas/petrol companies produced a range of map folders either as 'giveways' or for sale at stations and outlets to assist motorists as well as provide for product placement. The mapping in this case was by the General Drafting Company.
The front cover shows Lake Texoma on the state borders of Texas and Oklahoma that was formed by the Denison Dam, completed in 1943 along with a happy family. The rear covers show a period automobile/car along with helpful uniformed attendents at a Humble station.
One of the upper floors at Millennium Mills abandoned and derelict flour factory. (Correction on my description). I thought these were some sort of grinder originally but corrected below by Matt's detective work, I now know they are purifiers which separate the flour from the bran (cheers Matt).
Calumet San Antonio Refining has crude oil throughput capacity of approximately 14,500 barrels per day.
The refinery currently produces ultra-low sulfur diesel, jet fuel, specialty solvents, reformates, naphtha, and vacuum gas oil.
Calumet Specialty Products Partners, L.P. Location: 7811 South Presa Street San Antonio, TX 78223
Here is the story that has prompted me to post this photo, though any of you guys who know me know I don’t do this kind of shot, as a rule, but this time . . . yeah, I’m doing it. This is going to be a diatribe for justice, so skip right over this if you want. It’s probably boring to anyone who’d never had to deal with this kind of thing.
This photo was taken back in December of 2002, in Decatur, AL, with a little Sony Mavika, so it's pretty poor quality. This particular branch actually had key lights out on their sign, which prompted us to drive back by for a second disbelieving look and a shot!
Many of you know that Ken & I have been working day and night with our home remodel, trying to get a refinance for the last year – roll some loans together, do a payoff and have money to finish work on the house, since I have not worked since Jamie passed away, and things are tight. We’ve done almost ALL of the work ourselves- like tiling. (HA! in spite of a broken arm AND sitting in grout!) We have persevered; we have worked hard. We finally finished work on the kitchen and on the small bathroom that we totally gutted. FINALLY met the details demanded by the appraiser and the bank. (3rd time’s a charm, right?)
SO! Here’s the deal- almost a year later and we closed on our refinance loan last week. We expected we would be taking a check with us at closing, or at least a deposit slip - instead, we were told No, the bank (“ass Bank”- aka “Compass Bank”) would not release the funds for several days- yes, AFTER Christmas – well how nice . . . SO . . . We requested a direct deposit. Ken checked our account online again yesterday- a deposit had been made but the amount was short by almost $4000!! WTF??!
They have held up our money already, and now the amount is wrong?! Our funds and loans are insignificant to them; they are monumental to us.
Ken emailed and called our bank representative to tell her that the payoff amount was incorrect, which made the deposit to us incorrect. She agreed that it seemed like a large difference and we should check with the closing attorney’s office. Yes, we DID! The closing attorney said the amount deposited was what the bank had sent through them due to a change in one of the figures- that our loan payoffs were more than what was shown, so the deposit amount to us was less. HUH? Our loan payoff amount had NOT changed!!
Are you sensing further scuffling? We were advised to call another lady in another part of the bank. She said she had no idea where the lawyer’s office had gotten the figure. Hmmmm- they got it from the bank! Of course! (Read “ass bank” here!)
Ken checked our account again- checked what the payoff for our loan consolidations showed there- yet a different number appeared as the payoff amount! NO JOKE!
Making a further call to the payoff departmen, Ken was advised that yes, that appeared to be some error “somewhere,” and probably with the attorney’s office . . . Are you getting this? and then this guy gave Ken a 4th and different amount!!
We try to be careful with our money, try to be aware of what goes where and how much it was. Aren’t banks PAID for that sort of thing? Numbers, amounts?
Now, I don’t know about you guys, but if I shorted the bank by $4000, you can bet they would have their money back, collect interest AND double interest in the quickest manner possible! If you were a teller or window clerk at the bank and made a mistake of that size, your job would be in jeopardy. But if they short you, you will have to battle for money that was already YOURS! You will NOT pass GO- you will NOT Collect $100 (or $4000) until the “ass Bank” says you will!
OH! And yes, a correction “of some sort” will be made by the “ass Bank.” Yes, they will cut a check this time and mail it- no direct deposit for errors- even of $4000 worth. And Oh Yeah- it should get to us within three weeks, or please let us know . . . !! You have got to be kidding me! I am sure there will be no "I'm really sorry we don't have our act together" message. No shame in doing a shoddy crappy job at what they are paid to do! Just amazing!
Do you know how much money financial institutions must be making in interest from money they withhold from costumers EVERY day, for a day, a week, 3 weeks? If they are doing it to us, they are doing it to many more people, and though we’re a drop in the bucket, drops add up to streams and rivers and FLOODS, and that adds up to millions of dollars they are stealing from us all!
Know the figures in your accounts, know what documents you sign, what you owe, what you pay, because the “ass Banks” of the world will not hesitate to make the mistake in their favor EVERY time! Be aware, be wary, and be SURE.
I mean, I’m just saying . . .
I am into refining figbarfs these days, so I yanked the torso und legs from my Neo Black Falcon faction from 2016 (with the first version of the black & silver Falcon shield) and went all in on the Copper tones. Thus, I also yanked the small Dragon shield from an inconsolable Dwarf... et voila! We have a new sinister Dragon faction.
The Pembroke Refinery is an oil refinery situated on the Pembrokeshire coast in Wales at Rhoscrowther in the community of Angle. It first came on stream in 1964 and was Regent/Texaco's only British refinery. The refinery occupies a prominent position on the south bank of the Milford Haven Waterway and can be seen for many miles. Around a quarter of the site is within the Pembrokeshire Coast National Park which was created in 1952.
The refinery came on stream in 1964. It was initially owned by the Regent Oil Company, a large domestic marketer of Trinidad-produced oils. Regent was fully acquired by Texaco in 1956 (although the brand name was only phased out in the UK in favour of Texaco in the late 1960s).
When it first came on-stream most of the crude oil for the refinery came from the Middle East with some from Libya, Venezuela and Trinidad. Products were shipped to all parts of the UK, with 96 per cent going by ship as there was no rail link to the national rail network.
Pembroke refinery also supplied fuel oil to the nearby oil-fired 2,000 MW Pembroke power station (commissioned in 1968).
Chevron acquired Texaco in 2000. Valero Energy Corporation bought the refinery from Chevron in 2011.
In August 1992, Texaco offered to purchase the entire village of Rhoscrowther which lies immediately adjacent to the refinery. Many of the residents accepted the offer – especially after a large explosion which occurred two years later – which included their properties being purchased at market price plus reasonable expenses. Once the properties were acquired by the refinery, they were demolished. Today, only five houses, a 14th-century church and a farm are all that remain of Rhoscrowther.
The historical refining distillation capacity was as follows.
The refinery has a fluid catalytic cracking unit that came on stream in 1982. The refinery also has an HF Alkylation unit, catalytic reforming unit and three hydrotreating type units.
Pembroke refinery has the capability of refining high Total Acid Number crude oils like Captain and Doba crudes.
Incidents
At around 13:00 on 24 July 1994, twenty-six people were injured when a large explosion ripped through the plant. The blast's shockwave shook windows, doors and damaged properties within a 10-mile radius and was heard up to 40 miles away. Shortly before the explosion, a dry lightning storm in the area had caused disturbances at the plant. The resulting fire took several hours to extinguish with fire appliances being drafted in from as far away as Swansea and Cardiff. In all, over 130 firefighters assisted.
Just after 20:00 on 15 February 1996, a crude oil tanker, the Sea Empress, en route to the refinery from the North Sea struck rocks off St. Ann's Head just four miles from the refinery's jetty on the Milford Haven Waterway. The tanker remained stuck on the rocks for four days and spilled 73,000 tonnes of oil – resulting in one of Britain's worst ever environmental disasters.
In September 2000, during nationwide fuel protests, the gates to the refinery were blockaded by hauliers protesting at increasing petrol prices (then 80 pence per litre). Shortly after the protests, the refinery placed wooden stakes in the verges around the gates and perimeter fence to prevent vehicles parking there.
At 20:55 on 24 March 2005, a fire broke out at a crude oil storage tank during a lightning storm. The blaze was fought by fifty firefighters and took just under an hour to extinguish. No injuries were reported.
At 18:20 on 2 June 2011, a 730 cubic metre storage tank exploded killing four refinery workers and seriously injuring a fifth. Ten fire and rescue appliances attended the scene, along with many other emergency services. The fire was extinguished within 90 minutes.
Refining technique, getting closer to that "money shot" with the bottomless / naked portafilter. I've pulled perhaps 100 shots of coffee at this point.
This was roughly 19 grams of Roastco coffee, temperature set at 200° and a shot running approximately 30 seconds. I couldn't find details of optimal settings, so I guessed. Worked out nicely.
Note a little section I missed near the right, perhaps due to slightly uneven distribution of grounds.
Refine edge + Lens blur = Great pictures :D Amazingly creamy bokeh!
Playing around with various shizz in CS5, god I love it :)
Lit entirely naturally, added a lens flare in at the top right :)
I tried one method of using it. It’s the same one as Lawrence Principe uses in his book, and indeed I asked him about it a year before the book was published. He said the secret was in the temperature, or words to that effect. I had previously tried it this way but had either left it in too long or made it too hot, or maybe not had a very good quality of ‘water’. It is worth nothing that the Leyden papyrus doesn’t specify how to use this water.
So first I dipped the silver into the liquid when it was cold, and not a lot happened except that over 10 minutes in it, the silver turned slightly yellow, but left for longer and it went black. Whilst black is an alchemical colour, it isn’t the one we want here, at the end of the process.
So I heated the golden liquid until it became more red, although nowhere near boiling. Say about hand hot. A few seconds immersed in it gave this, shown with some untreated silver:
Note the shine of the metal and the apparent depth of colour.
I stuck another sample in for longer, it turned black. I’d killed it! (Silver sulphides are black, but a thin layer of them is, as you can see, gold coloured)
Which is of course a possible aim, since much reference is made to the death of metals and their resurrection in Graeco-Egyptian alchemy.
The next step in the use of this substance would probably be to seal the colour in using some kind of varnish, because now, three weeks later, the colour on the silver has faded to a slight yellow as the sulphides have evaporated or oxidised.
The next step after turning the silver black would be to melt it with other ingredients, but exactly what I am not sure.
The funny thing is that I haven’t found any later mention of this recipe than a 9/10th century Arabic text. I suspect that might be because by that time and after, both in Arabic countries and in Europe, such a superficial colour change was nothing special and had no value, since it did not lead to anything really like gold. Whereas the Egyptian alchemists were more interested in the specific colour change using divine/ sulphurous substances, themselves of important colours and unusual behaviour and so it was of great use to them.
Some of the world's most famous scientists did indeed believe iron could be turned into gold, and several of them tried desperately to make it happen for hundreds of years. Long before much of modern science became known, many early scientists were fascinated by a practice called alchemy.
Alchemy was a secret and mysterious practice that reflected a spiritual worldview very different from our modern view of science. The metals we know today as individual elements were believed by alchemists to be alive and growing underground. Metals like iron and lead were thought to be merely immature and undeveloped “early" versions of precious metals, like silver and gold.
Alchemists believed they could refine base metals into precious metals if they could just find the mythical substance they called philosopher's stone. The philosopher's stone they searched for wasn't an actual rock. Instead, it was supposedly a magical wax, liquid, or powder that could heal ailments and prolong life, as well as change base metals into precious metals.
Knowing what we do today about science, alchemy sounds crazy, doesn't it? After all, it's no surprise that alchemists ultimately failed in their quest, since the very idea of alchemy contradicts the basic laws of chemistry and physics. Rather than the atoms and elements we know today, alchemists believed everything in the world was made up of four elements: air, earth, fire, and water.
We now know that air, earth, fire, and water are not actual elements. Therefore, it's not possible to adjust the percentages of those elements within iron to turn it into gold. Despite the utter failure of alchemy to transform iron into gold, it wasn't a completely worthless pursuit. Scientists and historians now credit ancient alchemists for developing the groundwork for what would become modern chemistry.
In fact, you're probably already familiar with one of the more famous alchemists from ancient history. Ever heard of a guy named Sir Isaac Newton? That's right! Sir Isaac Newton, the guy who invented calculus and is considered the father of modern physics, was a devoted alchemist who believed at one time that he had discovered the mythical philosopher's stone.
Newton's dedication to alchemy has made modern scientists reconsider its importance in the history of the development of modern science. Many experts now agree that alchemy was an important natural step in laying the foundation for modern science. Instead of superstitious witchcraft, alchemy is now often seen as an ancient practice of early scientists trying to make sense of the world around them.
Other experts point out the many scientific advancements that can be traced back to alchemy. For example, alchemists created new alloys and manufactured acids and pigments for the first time. They also invented distillation apparatuses and conceived of atoms hundreds of years before modern atomic theory. Perhaps most importantly, though, they helped to forge the basis for the modern scientific method by repeating controlled experiments over and over.
For hundreds of years alchemists toiled in their laboratories to produce a mythical substance known as the philosopher’s stone. The supposedly dense, waxy, red material was said to enable the process that has become synonymous with alchemy—chrysopoeia, the metamorphosis, or transmutation, of base metals such as lead into gold.
Alchemists have often been dismissed as pseudoscientific charlatans but in many ways they paved the way for modern chemistry and medicine. The alchemists of the 16th and 17th centuries developed new experimental techniques, medicines and other chemical concoctions, such as pigments. And many of them "were amazingly good experimentalists,” says Lawrence Principe, a chemist and science historian at Johns Hopkins University. “Any modern professor of chemistry today would be more than happy to hire some of these guys as lab techs.” The alchemists counted among their number Irish-born scientist Robert Boyle, credited as one of the founders of modern chemistry; pioneering Swiss-born physician Paracelsus; and English physicist Isaac Newton.
But despite the alchemists’ intellectual firepower and experimental acumen, the philosopher’s stone lay forever out of reach. The problem, Principe says, is that the alchemists did not yet know that lead and gold were different atomic elements—the periodic table was still hundreds of years away. Believing them to be hybrid compounds, and therefore amenable to chemical change in laboratory reactions, the alchemists pursued the dream of chrysopoeia to no avail.
With the dawn of the atomic age in the 20th century, however, the transmutation of elements finally became possible. Nowadays nuclear physicists routinely transform one element to another. In commercial nuclear reactors, uranium atoms break apart to yield smaller nuclei of elements such as xenon and strontium as well as heat that can be harnessed to generate electricity. In experimental fusion reactors heavy isotopes of hydrogen merge together to form helium. (An element is defined by the number of protons in its nucleus whereas an isotope of a given element is determined by the quantity of neutrons.)
But what of the fabled transmutation of lead to gold? It is indeed possible—all you need is a particle accelerator, a vast supply of energy and an extremely low expectation of how much gold you will end up with. More than 30 years ago nuclear scientists at the Lawrence Berkeley National Laboratory (LBNL) in California succeeded in producing very small amounts of gold from bismuth, a metallic element adjacent to lead on the periodic table. The same process would work for lead, but isolating the gold at the end of the reaction would prove much more difficult, says David J. Morrissey, now of Michigan State University, one of the scientists who conducted the research. “We could have used lead in the experiments, but we used bismuth because it has only one stable isotope,” Morrissey says. The element’s homogeneous nature means it is easier to separate gold from bismuth than it is to separate gold from lead, which has four stable isotopic identities.
Using the LBNL’s Bevalac particle accelerator, Morrissey and his colleagues boosted beams of carbon and neon nuclei nearly to light speed and then slammed them into foils of bismuth. When a high-speed nucleus in the beam collided with a bismuth atom, it sheared off part of the bismuth nucleus, leaving a slightly diminished atom behind. By sifting through the particulate wreckage, the team found a number of transmuted atoms in which four protons had been removed from a bismuth atom to produce gold. Along with the four protons, the collision-induced reactions had removed anywhere from six to 15 neutrons, producing a range of gold isotopes from gold 190 (79 protons and 111 neutrons) to gold 199 (79 protons, 120 neutrons), the researchers reported in the March 1981 issue of Physical Review C.
The amount of gold produced was so small that Morrissey and his colleagues had to identify it by measuring the radiation given off by unstable gold nuclei as they decayed over the course of a year. In addition to the several radioactive isotopes of gold, the particle collisions presumably produced some amount of the stable isotope gold 197—the stuff of wedding bands and gold bullion—but because it does not decay the researchers were unable to confirm its presence. “The stable isotope would have to be observed in a mass spectrometer,” Morrissey says, “but I think that the number of atoms was, and is still, below the level of detection by mass spec.”
Isolating the minute quantities of gold would be even more difficult using lead as a starting material, but smashing high-speed nuclei into a lead target would indeed complete the long-sought transmutation. Some of the collisions would be expected to remove three protons from lead, or one proton from mercury, to produce gold. “It is relatively straightforward to convert lead, bismuth or mercury into gold,” Morrissey says. “The problem is the rate of production is very, very small and the energy, money, etcetera expended will always far exceed the output of gold atoms.”
In 1980, when the bismuth-to-gold experiment was carried out, running particle beams through the Bevalac cost about $5,000 an hour, “and we probably used about a day of beam time,” recalls Oregon State University nuclear chemist Walter Loveland, one of the researchers on the project. Glenn Seaborg, who shared the 1951 Nobel Prize in Chemistry for his work with heavy elements and who died in 1999, was the senior author on the resulting study. “It would cost more than one quadrillion dollars per ounce to produce gold by this experiment," Seaborg told the Associated Press that year. The going rate for an ounce of gold at the time? About $560.
If you had lived hundreds of years ago, do you think you would've wanted to be an alchemist? Be sure to explore the following interesting activities with a friend or family member:
You might not be able to turn iron into gold, but you can change the form of a simple compound you use every day. What are we talking about? Water, of course! Get an ice cube out of your refrigerator and turn it to liquid water. You can do that a number of ways. You could simply let it melt on the kitchen countertop, or you could put it in a pan and heat it up to watch it melt quickly. You will definitely need that pan if you want to turn your liquid water into a gas. Keep heating some water in a pan until it reaches the boiling point. When it does, you'll see the water in the pan turning into water vapor right before your eyes. Have fun exploring the different states of water!Want to learn more about Isaac Newton's Experiments with Alchemy? Just follow the link to watch videos of some of Isaac Newton's most famous alchemy experiments. How do you think these experiments helped Newton become the famous scientist he was? Was all of alchemy a waste of time? Why or why not?If you could turn one element into another, what would you do? Think about what elements or things you have plenty of. Then think about things that you don't have much of, but would like more of. For example, if you could do it, would you invent a machine that could change air into soda? How about vegetables into ice cream? Let your imagination run wild and write a short story about what you would do as a modern-day alchemist. Have fun and be sure to share your story with a friend or family member!
distillatio.wordpress.com/2013/05/28/how-to-use-the-divin...
A photographuc survey showing the site, development and construction of the new Fawley Refinery of Esso Petroleum that opened on 14 September 1951. Printed by the Anvil Press it includes photography commissioned by the company from a variety of sources inlcuding Atlas Photography, William Martin Photographic Services of Southampton, E C Arnold, H R Clayton and Studio Sun.
The refinery site had seen construction start in July 1949 and deliver to production in 27 months was quite an achievement. The premise behind this investment was given as two-fold. The increased post-war consumption of oil and by-products as well as the need for the UK to preseve its sterling reserves; previously many of the products to be produced at the refinery had been imported and the new plants allowed the UK to move towards self-sufficiency in oil refining and products. The book notes that Fawley, using crude oil from within the Middle East sterling supply areas, would 'save' the UK economy $100,000,000 pa. Although construction was a UK affair, much of the technological 'know how', in terms of setting up and running specialised processes, was imported from the US and Esso's parent companies. At least 60 specialist US workers were present underpinning the £37.5 million scheme of work.
It was opened by the Prime Minister, the Rt Hon Clement Atlee, and the refinery is still in use by Esso, now part of ExxonMobil. The history of refining at Fawley, convieniently sited to the waters of the Solent, goes back to 1925 when the Atlantic, Gulf and West Indies Oil Company first built a small plant.
I will tweak this style a little but have been wanting to use this fabric for something like this for a while :)
Nuestros complejos industriales cuentan con un sistema de refino eficiente e integrado, de los mejores de Europa que destaca por su excelencia operativa. Más info en
Our industrial complexes have an efficient and integrated system that have been qualified as the best in Europe for its operational excellence refining . More info at