electrondady1
sorry to have confused the monica's of yourself and daveb. Got it right this time.
I see no reason why you shouldn,t go on with your original premise of multiple wind gennies. The capacitor you speak of will not transfer dc. If you pulse the capacitor you may as well pulse the load directly, and cut out the middleman.
However, once rectified you could tie them all together anyway, and use a simple relay to pull the load on line when it gets up to your nominated cut-in voltage (directly determined by the relay.) The relay shouldn't chatter around the startup region. When it pulls in, it may take 18v or so for a 24v relay, but once pulled in,it may only require 8v to hold it in. (if not soften the spring a little that returns the points back to original position). Take the relay voltage off before the rectifiers, and this will give you some isolation from the load variations. (use seperate rectifiers and a big cap for driving the relay this will also help antichatter))
This is a useful property, as when the load pulls in, the voltage on the output will drop, and the relay would have fallen out, but by fiddling with the spring and gap, you can put on a fair amount of voltage variation on and the relay stays on.
Anyway, if you build your first one, you can play with all kinds of setups. For 100w you could electronically pulse, switch or whathave you cheaply, and experiment with what works for what you are capable of. That capability will increase markedly once you start playing for real. If you fiddle around and cook up your own brew, you are in a much better position to fix it up later.
This last point is useful if you plan 30 of them.
You are probably correct in thinking bigger could be better, but building a little one first seems to be the tried and true method for getting started into this kind of thing.
I do things upside down .I would get the mill up and running first, and then figure out the best way to utilise it... ie build your first mill, and then play.
.............oztules