Playing with the numbers for the capacitor size I think there is a flaw in the cap voltage. If you use 3 100 watt bulbs in parallel you have a resistance of 48 ohms and making approx 2.5 amps, assuming the generator is producing the 240 volts there will be a 120 volt drop across the resistance leaving 120 volts for the cap. In order to get the full 6Joule charge + you would need a cap in the range of 833uf. Is that correct?

The cap discharge into an inductor( motor windings ) would be in the range of 200+ amps according to the formula V*(C/L)^.5 . I measured 151uh on the motor I'm using so.. 120 volts * ( 833uf / 151uh )^.5 = 281 amps. The normal run with the motor provides aproximately 9.5 ft lbs, if it is enhanced to 3 times that then 28.5 ft lbs might be injected into the flywheel per pulse resulting in a 2.85 ft lb continuous assuming a 10% rotation or 1.42 ft lb at 5%. The required continuous torque to produce 300 watts including losses in the generator would be approximately .85 ft lbs which the 5% mark would clearly provide enough of a boost to maintain itself.

I'm machining a flywheel that is 6.75 inches in diameter and I've approximated the finished weight to be at or around 22 lbs. At 3000 rpm it should store 942 ft lbs per sec of energy ( about 1.6 hp ). Getting the energy into it may need a "pre starter" to bring it up to speed then flip some switches to start the motor/generator action.

One thing I seem to have confused myself on is the actual input requirement to the loads ( bulbs and cap ). Is it only 300 watts or is it much higher including both loads ?

I'm still a week away from getting all the parts made to assemble the test unit to begin the tweaking or balancing process.
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Mark, I designed addional plates last Sat for the starter we should be done...in the next day or two
if this works both will be available Reggie my cell is 951-300-3371 if you want to call me any time Thanks Reggie

Dragon, what formula do you have for the amount of stored energy in a flywheel? I tried some calcs of my own, but I'm not finding the right numbers.

Thank you Peter for sharing the depth of info that you have on this subject - truly inspiring!

Daniel

I'm using WV^2/64.32 where W = weight in lbs V = velocity of the wheel at it's mean radius in feet per second. The 64.32 is simply 2g or 2 x 32.16.
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Thanks for the formula! Is there a particular reason you're specifying 2 inches as your mean radius for the flywheel?

Great questions on the electrical side of the setup as well - here are my unfinished thoughts on the matter...

Charge, of course, is not 'lost' in the circuit to the best of my knowlege, but you raise a good point - is the potential (or voltage/dipole) 'lost' or dissipated as it passes through the ballast?

One thing I've noticed in playing with caps is that if you take just the charge side of the circuit (gen through ballast to cap, no further) & use it to charge the cap, there doesn't appear to be an energy loss through the ballast. The cap will charge to the full voltage of the gen, while there is a production of light & heat also. The key element here (imho) is time - the ballast slows the charge rate, so you must allow the appropriate time to charge the cap.

So if we add in the motor side of the circuit, then to me the question is one of time - the higher the draw of the motor (determined primarily by pulse rate), then the higher the apparent 'loss' we may see over the ballast?

Good questions - hopefully someone has a more definitive answer!

Mark I will have the starter end bell done end of this week,[ATTACH]:yahoo: [/ATTACH] can shipped 1st of next week to you. Right now I'm working on a way to fire the motor and will know more on this in a few days Reggie

Goreggie, I sent you a PM.

Thanks
Mark

Actually that was a "lazy number" I pulled out of my hat, I didn't want to take the time to calculate the % of weight in the solid flywheel at the time, just wanted a general idea of what it might store.

I've noticed in an AC circuit a similar outcome. The DC throws me a little in this arrangement. I guess a few test circuits will confirm it one way or the other...
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Ok... feeling a little stupid for asking the question now... I just did a simple test with a battery, bulb and cap. The bulb, as Peter stated, is just a balast - a delay. If the bulb was connected to ground there would be a voltage drop but with it in series with the cap there isn't. All the energy has to flow through the cap so it's simply a time variance. Back on track now. Odd how simple things clutter the mind while complicated things seem so simple...
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Excellent

Dragon,

Yes, you must run all of these little side experiments to see the truth of what is going on in a circuit like this. Another simple test is simply to test the voltage of a battery with a multimeter, and then add a 1K resistor in-line with the test probes and test the voltage of the battery again. As long as your contacts are good and clean, the voltage should read exactly the same as without the 1K resistor.

So, the question is: how much "voltage drop" is there across a resistor?

If the answer is "NONE" as it appears to be, then it becomes clear that we can light the light bulb (resistor) if there is "some current" and a "potential difference" across the bulb. No energy (or at least very little) needs to be dissipated to light the light!

Keep up the great work!!!!

Peter

Hi Peter and Dragon

OK lets going on and thanks for the simple experiment with a 1Kohm resistor

And now something more to think

good luck at all

Laurent

Possibly this effect is because, as Tom Bearden said, the dipole of a battery (or any source most likely) is not 'destroyed' until the electron moves through the entire circuit & then re-enters the battery?

Thus a true voltage drop occurs across the source, not a circuit component?

Hello

did I miss something? The internal resistance of a multimeter in Volts measuring mode is a few Megaohms ; means infinite. So the voltage drop across the 1K resistor is practically zero,because no current flows.
If you put a cap in series, for the first moment a current will flow to load the cap and then it diminishes to zero. These are basics.
For to replicate a FE device one needs a Recipe how to do it. A have not received the 'Electric Motor Secrets, Part 2' yet (Germany), and therefore cannot talk about it.

Lockridge Device: if this is what the african girls did, there are coils use for the motor and other coils for the generator principal. and both function generator / motor alternate. Generator and Motor don't work simultaneously ; the flywheel is the energy buffer; very similar to the bedini watson machine.

Where at in Germany are you from?

I ask because I live in Germany, and am always looking for like minded individuals.... in meine nähe....

Regards

Its in NRW Kreis Heinsberg