PropellerEfficiency

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Revision as of 01:59, 29 November 2008 by Vincecate (talk | contribs) (Why we need big propellers at slow speeds)
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Why we need big propellers at slow speeds

The push you get from a propeller is proportional to the change in momentum the propeller gives some water which is: mass * deltaV

where deltaV is the change in velocity of the water. The energy put into that water by the propeller is: 1/2 mass * deltaV^2

If a boat is going fast a propeller passes through lots of water and so can push a little bit on many different cubic feet of water and so only change the velocity of any given bit of water by a small amount.

A propeller that makes efficient use of 50 Hp at 15 MPH makes very inefficient use of the same power at 2 MPH. At slow speeds it goes through less water and gives it a much higher deltaV.

An efficient propeller for a slow seastead that will be large so that it can give a small deltaV to a lot of water. Using a small fast propeller on a big slow seastead would take far more energy for the same push.