Difference between revisions of "User:Vincecate/KiteAndSeaAnchor"
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The force on a scale model should scale with the mass, which is with the cube of the scaling factor. | The force on a scale model should scale with the mass, which is with the cube of the scaling factor. | ||
| − | So for a 1/25th scale model, the force should be 1/15625. For 16 tons this about 2 lb of force and for 32 tons about 4 lbs. Weights from a weight set or a gallon jug filled | + | So for a 1/25th scale model, the force should be 1/15625. For 16 tons this about 2 lb of force and for 32 tons about 4 lbs. Weights from a weight set or a gallon jug filled with the right amount of water could be a good weight. Using the weight with a rope and a pulley you can pull a model with the right force. Just have to keep pulling the pulley forward at the right speed so that the weight stays between the pulley and the ground. With a Hobie peddle powered kayak I think this will be easy enough. |
With speed results from this we can see how fast such a kite could pull a full sized seastead. | With speed results from this we can see how fast such a kite could pull a full sized seastead. | ||
Revision as of 02:31, 20 June 2008
There are at least two companies making kites to pull ships:
* skysails * kiteship
With a two rope kite you can have it pull you to the left or right of downwind by maybe 75 degrees. So you can use it to pull you in the direction you want if you are mostly moving in the direction of the wind as you might with a migration. A computer can control the kite. By adjusting where it is in the sky and if it is moving back and forth the computer can control how much it pulls and what the average direction of pull is.
A sea anchor can slow down a seastead. With no kite, the wind on a Tension Circle House might push it faster than a Pipe Spar with a kite. So for a group of different seasteads to travel together sea anchors would be good to have. Also, some seasteads would need sea anchors to go slow enough for an annual migration.
A fleet of seasteads with kites and sea anchors would need their computers to be able to communicate so the whole fleet could move in formation without bumping into each other.
Force from kite
Skysails says their different kites provide around 8, 16, or 32 tons of force in the direction of movement for their rating conditions. Their rating conditions are 25 knots wind, 10 knots movement, and wind at 130 degrees. We are probably more like 16 knots wind and 1 knots movment, but that should be about the same force.
Scale model testing
The force on a scale model should scale with the mass, which is with the cube of the scaling factor. So for a 1/25th scale model, the force should be 1/15625. For 16 tons this about 2 lb of force and for 32 tons about 4 lbs. Weights from a weight set or a gallon jug filled with the right amount of water could be a good weight. Using the weight with a rope and a pulley you can pull a model with the right force. Just have to keep pulling the pulley forward at the right speed so that the weight stays between the pulley and the ground. With a Hobie peddle powered kayak I think this will be easy enough.
With speed results from this we can see how fast such a kite could pull a full sized seastead.
