Comments
FuturologyBot t1_j9o4cqw wrote
The following submission statement was provided by /u/Surur:
The first commercial spiral-welded 89-meter wind turbine tower has begun operation, built by GE Renewable Energy and wind turbine producer Keystone Tower Systems.
Spiral welding is when the steel used to make the tower is curled into a cylinder; essentially, these towers are built from meters-wide steel plates. The technique requires only one machine to construct a tower section, and it can produce towers up to twice as tall and 10 times faster than conventional towers.
The manufacturing process uses coil steel – flat-rolled steel that’s been coiled up into a roll or coil shape and allows tapered towers with variable wall thickness to be manufactured from constant width sheets of steel.
The manufacturing equipment completes the joining, rolling, fit-up, welding, and severing of a tower section – and that results in the continuous production of steel tower shells:
Keystone says it can make the lightest, lowest-cost, and most structurally optimized towers in the wind turbine industry.
Keystone is also developing mobile factories capable of building taller towers directly at wind sites.
Production is now being ramped up of spiral-welded towers, with additional deliveries targeted for the first quarter of 2023. They’ll make more towers for the GE 2.8-127 turbine, and they can be used interchangeably with GE’s conventional 89-meter-tall tower. The spiral tower has received a component certification from TÜV NORD for a 40-year lifetime.
See a video about the process here.
Building towers 10x faster, cheaper and onsite should mean a much-increased onshore wind turbine installation capacity, speeding the transition to renewable energy.
Please reply to OP's comment here: https://old.reddit.com/r/Futurology/comments/119ubo8/spiralwelding_machine_lets_engineers_build_wind/j9o27fr/
christinasasa t1_j9o4rtf wrote
I have a nephew that works at one of these plants in Illinois. He said it's dangerous as hell. There's not much keeping the tower from rolling off the machine and crushing them
peadith t1_j9oo0al wrote
Sounds annoyingly easy to fix.
BookMonkeyDude t1_j9otgsh wrote
Finally, we can build colossal paper towel dispensers.
[deleted] t1_j9qapx4 wrote
[removed]
Educational_Yak_5901 t1_j9r42j5 wrote
Kind of strange to list a technology that's been used for a very long time (spiral wound tubes) as futurology.
Catspaw129 t1_j9s0dak wrote
So...
These spiral structures are kinda like the cardboard core of a roll of paper towels?
Or am I misunderstanding?
MegavirusOfDoom t1_j9sa95h wrote
That's like a giant spring! So if the weld fails in high winds it will unfurl very fast and the blades will be ejected very fast towards the nearest car... the nearest human walking their dog in the field. I can just imagine a poor old lady and her dog impaled on a fan blade using this technology.
MegavirusOfDoom t1_j9sb27p wrote
This company is obiously Italian and inspired by tortellini pasta. "I was rolling a Fusilli pasta when it hit me"... Soon there will be Farfalle shape blades on Fettuccine towers throughout all of Italy.
fitblubber t1_j9sfvmz wrote
I wonder if Musk will also be able to use it to manufacture future StarShips?
Happy-Fun-Ball t1_j9srjaj wrote
Unfortunately these are extremely vulnerable to counter-clockwise tornadoes, so they can only be used in the southern hemisphere.
Surur OP t1_j9sy8o6 wrote
Its obviously the application and implication (faster WT production) rather than the technology.
Surur OP t1_j9o27fr wrote
The first commercial spiral-welded 89-meter wind turbine tower has begun operation, built by GE Renewable Energy and wind turbine producer Keystone Tower Systems.
Spiral welding is when the steel used to make the tower is curled into a cylinder; essentially, these towers are built from meters-wide steel plates. The technique requires only one machine to construct a tower section, and it can produce towers up to twice as tall and 10 times faster than conventional towers.
The manufacturing process uses coil steel – flat-rolled steel that’s been coiled up into a roll or coil shape and allows tapered towers with variable wall thickness to be manufactured from constant width sheets of steel.
The manufacturing equipment completes the joining, rolling, fit-up, welding, and severing of a tower section – and that results in the continuous production of steel tower shells:
Keystone says it can make the lightest, lowest-cost, and most structurally optimized towers in the wind turbine industry.
Keystone is also developing mobile factories capable of building taller towers directly at wind sites.
Production is now being ramped up of spiral-welded towers, with additional deliveries targeted for the first quarter of 2023. They’ll make more towers for the GE 2.8-127 turbine, and they can be used interchangeably with GE’s conventional 89-meter-tall tower. The spiral tower has received a component certification from TÜV NORD for a 40-year lifetime.
See a video about the process here.
https://youtu.be/ufu8f1PWYzE
Building towers 10x faster, cheaper and onsite should mean a much-increased onshore wind turbine installation capacity, speeding the transition to renewable energy.