Difference between revisions of "SparBuoy"
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* Material issues - steel (expensive) concrete (can't handle tilting). | * Material issues - steel (expensive) concrete (can't handle tilting). | ||
* Constructed in disc-shaped sections - only need one set of molds per diameter, then make any length. | * Constructed in disc-shaped sections - only need one set of molds per diameter, then make any length. | ||
| + | * Not much topside weight, probably won't need [[User:Patri/HangingBallast]] or [[User:Patri/LightTopHull]] | ||
| + | * If square-shaped, [[User:Patri/FractalTiling]] is possible, but it will cut off all the light except to the tiny top deck, which would make for an unpleasant habitation. | ||
== Requirements Analysis == | == Requirements Analysis == | ||
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** May have significant response to large waves. | ** May have significant response to large waves. | ||
** The smaller the spar (narrower, shorter), the large the response. | ** The smaller the spar (narrower, shorter), the large the response. | ||
| − | ** Heave plates will help | + | ** Heave plates will help via [[User:Patri/EntrainedSeawater]] |
** Not much solar area, so windows will be important. | ** Not much solar area, so windows will be important. | ||
* Cost - We suspect this is the cheapest design. It's very simple. | * Cost - We suspect this is the cheapest design. It's very simple. | ||
Revision as of 22:28, 1 June 2008
Description
One cylindrical column. Height and diameter determined by desired size and comfort parameters.
Detail
http://farm3.static.flickr.com/2153/2533681301_996f2cf479_t.jpg (from http://flickr.com/photos/27160491@N06/2533681301/)
- Material issues - steel (expensive) concrete (can't handle tilting).
- Constructed in disc-shaped sections - only need one set of molds per diameter, then make any length.
- Not much topside weight, probably won't need User:Patri/HangingBallast or User:Patri/LightTopHull
- If square-shaped, User:Patri/FractalTiling is possible, but it will cut off all the light except to the tiny top deck, which would make for an unpleasant habitation.
Requirements Analysis
- Safety
- It takes a licking and keeps on ticking.
- Essentially unsinkable, since the airspace is fully enclosed, unless a porthole breaks.
- Things on the top deck may get ripped off, though, so solar panels / wind turbines will need to be brought inside during big storms.
- Comfort
- May have significant response to large waves.
- The smaller the spar (narrower, shorter), the large the response.
- Heave plates will help via User:Patri/EntrainedSeawater
- Not much solar area, so windows will be important.
- Cost - We suspect this is the cheapest design. It's very simple.
- Pretty - Moderate. Not lovely, not awful.
- Modular
- We should be able to combine by connecting (perhaps w/ small rubber spacers).
- Possibly we can even do this w/ different sized spars.
- Using stationkeeping to just float near each other is extremely modular
- Cargo - Doesn't address this problem.
- Free Floating - Definitely.
- Scalable
- Scales up or down in size (height, diameter).
- Standards
- Mobile - Definitely, although it will move slow because of the high wetted area. Could design in a teardrop shape to reduce drag.
- Draft
- It is not clear how we can make it shallow draft. Turn it sideways? Not good for your furniture!
- Crazy idea: can be assembled/dissassembled in sections, like a stack of poker chips. For shallow waters, we pop one off at a time, turning it from a cylinder into a snake of small cylinders, with the lead one towing the rest. If it's a square, we can actually turn it into a horizontal rectangular prism without changing the orientation of any of the boxes - good for your furniture! Takes up a lot of space, though. Could do a combination - the lowest decks are just bulk storage, don't mind being turned sideways, top decks are rooms, those we disconnect and rearrange.
