I'm not sure what you're trying to attempt. Perhaps you could make a sketch in MS Paint, and upload it to the forum.
But if I'm guessing at what your trying to do, (a magnetically driven generator) than I'm going to say it isn't going to work. The number one problem is, no matter what method is used, it always takes more energy to produce what is generated. Take wind energy for example. After all is said and done, the calculated energy in the wind which hit's the blades, the theoretical amount that can be extracted is something like 59%, and that doesn't even figure for mechanical and electrical losses. Most wind turbines are around 40% efficient.
Look at this another way. Lets take an electric motor and hook it to a generator. It will take more power to run the motor, than the amount of power that comes out of the generator. Keep in mind, I'm talking about watts when I say power. Yes, you could use a 12 volt motor to turn a 120 volt generator, but wattage will be lower on the generator's output, than the motor's input. There's never a free lunch.
Anyhow, not trying to discourage you. Just keep in mind that perpetual motion machines are fantasy (for now, until someone cracks quantum physics problems) but if you think you still got something, post back some more details, and we'll lookl it over. :-)
Greets All!
Just curious if I might pass a thought by you for any feedback.
I really have no idea if this is feasible or even possible for that matter:
A magnet driven (or magnetically assisted windmill) for those days that aren't as windy.
Build or use a standard windmill except for the blades that are engineered;
1-a specific distance from the magnet to be determined.
2-using the highest probable 'attracted' magnetic properties; eg aluminum or other alloy.
3-design blades so that the alloy is at the leading edge of the blade to the magnet; facing the magnet instead of leaving; thus creating the attraction/pull.
4-figure out how not to get whacked by the blades.
I suppose the same could be used in a "helix' type (someone linked a site with this info somewhere I read here, my apologies as I forgot!)
A 'helix' method would probably be a lot safer and the magnet much, much smaller, but would still have no idea as to any practical usage.
Maybe something like this graphic:
__ __
|| ||
|| || M
|| || M
|| || |
_a_______b_ |
| |
| |
| |
| |
______________|_
this is where 'a' and 'b' are the wind 'sails' for lack of proper terms and 'M' is the magnet; except
a light allow on the leading edge of 'a' and 'b' towards 'M' to induce attraction.
the lines connecting the host between 'a' and 'b' to 'M' would be maybe some type of PVC to avoid distraction or interference of 'M' to the leading edge of the 'sail'.
In my mind as someone who is not very technical despite working in a noc; this might allow a constant speed maybe for use in charging a bank?
Thanks for any response!
Bryan
***note on the graphic...I can't seem to get it to display correctly....fan it out a bit..1 set of || over the 'a', another over the 'b', then | (pipes) from the top to the bottom and at the top of those to the right is the 'M'...if this makes any sense-