- #1
robin9000
- 3
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I can't find anything I can make heads or tails out of so if you guys can help I thank you.
I would like to design a wind turbine and be able to get as much power as I can out of each of it's coils. If I start with a magnet that is 1.1811" in Diameter and it is .125" thick with a grade of N52 and I only allow for a air space of .0625" between the magnets and coils what would be the ideal coil size / wire gauge to use and so forth.
I can't find the exact specs for that particular magnet but from looking at another very similar one the spc's for the magnet would be approximately as follows;
N52
Br: >=14,800 Gauss
Bhmax: 52MGOe
Surface Field: 918 Gauss
Given I make the inside of the coil the diameter 1.1811", (the diameter of the magnet) what
are the other specs I should use to make the coils if I want it to generate power at a low wind speed. I'm thinking it would not be able to go much faster then 300rpm. (my best guess)
So in other words how many loops across should I go with the coil and how many layers of coils should I go and with what gauge of wire.
Also given 300rpm how many volts / amps / watts would the finished coil put out.
Thanks and sorry if I'm missing something here, I'm no physics expert by any means.
I would like to design a wind turbine and be able to get as much power as I can out of each of it's coils. If I start with a magnet that is 1.1811" in Diameter and it is .125" thick with a grade of N52 and I only allow for a air space of .0625" between the magnets and coils what would be the ideal coil size / wire gauge to use and so forth.
I can't find the exact specs for that particular magnet but from looking at another very similar one the spc's for the magnet would be approximately as follows;
N52
Br: >=14,800 Gauss
Bhmax: 52MGOe
Surface Field: 918 Gauss
Given I make the inside of the coil the diameter 1.1811", (the diameter of the magnet) what
are the other specs I should use to make the coils if I want it to generate power at a low wind speed. I'm thinking it would not be able to go much faster then 300rpm. (my best guess)
So in other words how many loops across should I go with the coil and how many layers of coils should I go and with what gauge of wire.
Also given 300rpm how many volts / amps / watts would the finished coil put out.
Thanks and sorry if I'm missing something here, I'm no physics expert by any means.