Difference between revisions of "User:Vincecate/Pipe Spar"
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After taking out the weight of the pipe, we have 82,048-34,440= 47,608 Kg for ballast and living space. If we use half for ballast then we have 47608/2 = 23,804 Kg for living space. | After taking out the weight of the pipe, we have 82,048-34,440= 47,608 Kg for ballast and living space. If we use half for ballast then we have 47608/2 = 23,804 Kg for living space. | ||
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| + | Could use a thicker pipe and still have interesting size living space. Can also brace the joint between the pipe and the living space. Lots of lift really. | ||
Revision as of 03:39, 10 June 2008
Looking at Red Hawk Spar and thinking about using standard pipes to make a spar.
Lets look at 36 inch sched-40 stainless steel pipe. This is probably 0.375 inch thick. The density of stainless steel is about 8000 Kg/m^3 or 8 grams/cc. At 36 inches diameter it is about 287 cm in circumference. If we have a pipe 150 meters long this is 8*287*150*100=34440000 grams or 34,440 Kg. Stainless costs around $5/Kg with a pipe being a bit more than this.
If we have 20 meters above water we have 130 meters underwater. Displacement for 3 foot diameter pipe is 1.5*1.5*3.141592 = 7.069 cubic-feet per foot of pipe. With 426.5 feet underwater and each cubic foot of water is 60 lbs, then 7.06858200 * 426.5 * 60 = 180885 lbs or 82,048 Kg.
After taking out the weight of the pipe, we have 82,048-34,440= 47,608 Kg for ballast and living space. If we use half for ballast then we have 47608/2 = 23,804 Kg for living space.
Could use a thicker pipe and still have interesting size living space. Can also brace the joint between the pipe and the living space. Lots of lift really.
