3D Printed Windmill Tower: Difference between revisions
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=Basics= | |||
*It is useful to do in-situ 3D printing of [[250 kW Windmill Towers]] with metal 3D printing using [[WAAM]]. | *It is useful to do in-situ 3D printing of [[250 kW Windmill Towers]] with metal 3D printing using [[WAAM]]. | ||
**Possibly with a sort of combination of the [[WAAM]]/[[D3D Metal Printer]] and a [[Hangprinter]] (Possibly using 3 or more construction cranes arranged in a polygon with each verticy being a crane) | **Possibly with a sort of combination of the [[WAAM]]/[[D3D Metal Printer]] and a [[Hangprinter]] (Possibly using 3 or more construction cranes arranged in a polygon with each verticy being a crane) | ||
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*Metal 3D printing - with MIG welders, 250 amp each at 30V | *Metal 3D printing - with MIG welders, 250 amp each at 30V | ||
*Welding wire - $68 for 44 lb - [https://weldingsupply.com/cgi-bin/einstein.pl?PNUM::1:UNDEF:X:70S603544] | *Welding wire - $68 for 44 lb - [https://weldingsupply.com/cgi-bin/einstein.pl?PNUM::1:UNDEF:X:70S603544] | ||
*Alibaba shows 50 cents per lb - [https://m.alibaba.com/showroom/035-welding-wire.html] | *Alibaba shows down to 50 cents per lb - [https://m.alibaba.com/showroom/035-welding-wire.html]. ($900-1500/ton) | ||
*12' length of diameter. 12 SF per foot of height. 6" build per hour. 400 hours for tower, or just 17 days. Could possibly increase to 12 welders, at 8 days for the tower. | *12' length of diameter. 12 SF per foot of height. 6" build per hour. 400 hours for tower, or just 17 days. Could possibly increase to 12 welders, at 8 days for the tower. | ||
*'''This tower is 24000 lb - 120 lb/ft''' | *'''This tower is 24000 lb - 120 lb/ft''' | ||
*It would be useful to make wire for reduced cost. If produced from scrap, tower could cost not $ | *It would be useful to make wire for reduced cost. If produced from scrap, tower could cost not $12k at Alibaba costs, but much less. | ||
=Use of Delta 3D Printers and/or Hangprinters in the Printi ng of VAWT Towers/Blades= | |||
*The shape stability and speed of deltas all lend themself to printing VAWT turbines | |||
*Hangprinters may be less stable, but otherwise work | |||
=See Also= | |||
*[[Wind Turbine]] | |||
*[[VAWT]] | |||
*[[Hangprinter]] | |||
*[[D3D Metal Printer]] | |||
*[[WAAM]] | |||
*[[Open Source Delta 3D Printer]] | |||
=Useful Links= | |||
* | |||
Latest revision as of 19:12, 12 November 2019
Basics
- It is useful to do in-situ 3D printing of 250 kW Windmill Towers with metal 3D printing using WAAM.
- Possibly with a sort of combination of the WAAM/D3D Metal Printer and a Hangprinter (Possibly using 3 or more construction cranes arranged in a polygon with each verticy being a crane)
Cost of a 200' Tower, 4' Diameter, 1/4" Wall Thickness
- Metal 3D printing - with MIG welders, 250 amp each at 30V
- Welding wire - $68 for 44 lb - [1]
- Alibaba shows down to 50 cents per lb - [2]. ($900-1500/ton)
- 12' length of diameter. 12 SF per foot of height. 6" build per hour. 400 hours for tower, or just 17 days. Could possibly increase to 12 welders, at 8 days for the tower.
- This tower is 24000 lb - 120 lb/ft
- It would be useful to make wire for reduced cost. If produced from scrap, tower could cost not $12k at Alibaba costs, but much less.
Use of Delta 3D Printers and/or Hangprinters in the Printi ng of VAWT Towers/Blades
- The shape stability and speed of deltas all lend themself to printing VAWT turbines
- Hangprinters may be less stable, but otherwise work