I would aim for cut in at 7mph and if it seems earlier then I would increase the air gap. Otherwise leave the gap as it is and choose a suitable line resistor to get best performance in normal winds.
Try to get it to furl at a safe power level with this best resistance in the line. If you have to stop it in high winds then you may have to short before the line resistor.
If you can't get it to furl then you may be able to run it with no resistor and fairly hard stalled. In normal winds I suspect it will stall regulate. The danger of this method is that if it should pull through stall in a high wind it will fry unless you can lower it quickly.
Only if you can get it furling with optimum resistance in line can you be confident that it is completely safe to leave it to its own devices. When properly furling the power will actually drop in very high winds. Unless you see this drop and you see it running almost parallel to the wind ( compare prop to some reference vane) you can't be sure it is really furling.
Running stalled many of these things bend their tail and look to be furling but in this case the power will still rise with increasing wind speed. If it breaks out of stall it may do well over its safe power.
Plenty of offset, optimum line resistance and change the tail weight or reduce the hinge angle until it furls is the safe way to deal with it and you get the best available power in normal winds. you will probably see a significant falling in power in very high winds but this is safe and you will have plenty of power on those days.
Just a few comments about resin rather than another post.
Polyester is virtually useless for magnets, it sticks to nothing but may hold the whole block together. If the climate is mild it may be fine. In a wet climate disc and magnet corrosion is likely. For magnets epoxy is best and vinyl is better than polyester,
For stators polyester is satisfactory, it stands temperature reasonably well. Vinyl is far better, it is rated for higher temperature and has better mechanical properties and is worth the extra cost.
Normal epoxies don't have the temperature ratings for stators. There are specials that will do the job but you have to get the right ones and they are expensive. DaveB has obviously found a satisfactory source but in general I wouldn't use normal epoxies for stators without being absolutely sure of what is on offer.
You can expect the resin in close proximity to the coils to be reaching temperatures that are over 160C and that is being modest ( I am sure many are exceeding 200C) and normal epoxies are completely soft at this temperature.
I have to admit that I have used polyester for stators with no trouble but with my loading the temperatures are not that high. I am not sure that any of these materials are rated for much over 150C so you are probably on a limited life cycle but that may be a few years with just the occasional overload.
Flux
