Thanks Flux,
Firstly I am not looking at a Direct connected device here! so no synchro to the mains! I am planning to create Dirty AC and turning this Dirty AC into a PWM DC then to AC or to DC (coupled with an AC supply) to produce a regulated voltage and frequency output.
I work for Schneider Electric here in Ireland its a long time since I've done generator theory !
I have access to group of excellent products which I wish to try this out on, one of which or more may work with the re polarised magnetic rotor that I wish to use.
These products are called
1 an active front end
2 an ATV61/71 drive configured in Constant voltage and frequency output
3 a UPS
The theory behind the active front end. is that it takes the regenerated kinetic energy on dynamic electrical loads which have high inertia and then in essence it turns the back emf from a stopping load into DC and then into a PWM AC, at constant Voltage and frequency.
The input voltage and frequency into the Active front end doesn't matter because it will give a constant voltage and frequency as long as the peak to peak voltage is maintained for some of the inputted voltage cycle, but I understand that now they have a new revision of firmware which also uses the input primary input voltage to generate the peak to peak voltage for the output also, although this is just hear say and I have yet to check this out.
The second alternative is to use an ATV61/71 of the correct KVA rating to the output of the turbine, turn the output voltage from the modified motor (IE the now alternator) into a 3 phase bridge and input this DC voltage to the DC bus of the ATV61/71. The minimum DC voltage is the peak to peak voltage from the rms supply, so if its single phase 230v output you require from the ATV 61/71 the DC bus voltage at the ATV 61/71 should be about 394vDC (that would be (230 * 1.717), similarly if its a 3 phase output one requires about 686vDC (400 *1.717).
Lastly I can use a correctly rated UPS to charge the Battery string at DC voltage levels and or use the proposed turbines input into the UPS to 1 charge the batteries or 2 supply the UPS.
Phew! sorry that was a lot to take in there!
So Flux and ghurd, my plan or perhaps dumb idea is to take a 10 KW squirrel cage motor, engineer the rotor, with the best magnets available and then subject it to the prime mover of wind... and input the crappy voltage into either of the 3 above to get some free power!
I know I'm mad...... but I love a challenge!
My query really boils down to these questions even if its theory only:
if the n of the motor is 1500 rpm and I put in the same amount of magnets in the rotor as there are coils in the stator, will I have to turn the rotor at 1500rpm to create the nominal face plate voltage?
would you say its the same for a n of 3000 rpm?
which would even in theory generate and produce more power for the same speed i.e. will a a3000 rpm motor produce more than a 1500 rpm modified alternator motor because it has more physical coils at low RPM?
If so how many magnet salient poles do I need per n of the motor
If I put X times the amount of magnets in the motor will I increase the power output per generation cycle or increase the voltage?
as far as I recall m (mue)=B * I * L where m= the permeability of the material B= the direction of the magnetic field force? I= the current and L = the CSA
