Quantum Energy Generator (QEG) Open Sourced (by HopeGirl)

[TinselKoala]

Hmm, so the equivalent of 10 x 100 watt light bulbs dimly.

Weill, I was within an order of magnitude. 

My SPICE sim is using a CEG rotor speed of 24,000.   I would say for your rotor speed of 2,800, you're doing well.

Chosen of course because 24,000 RPM is 400 Hz. I would just love to see Robitaille's contraption spinning that fast, with its 0.001 inch clearances and its 28 kV output. I think I'll watch from behind you, though.

Those capacitors crack me up. I can tell he's never blown up a capacitor by overcharging it... yet. They are going to kill someone pretty soon if they keep clowning around with that thing.

[F_Brown]

Chosen of course because 24,000 RPM is 400 Hz. I would just love to see Robitaille's contraption spinning that fast, with its 0.001 inch clearances and its 28 kV output. I think I'll watch from behind you, though.

Those capacitors crack me up. I can tell he's never blown up a capacitor by overcharging it... yet. They are going to kill someone pretty soon if they keep clowning around with that thing.

In my FEMM analysis I used a 2 x 0.012" gap as shown in the manual.  I had wondered about that too. 

[gotoluc]

That's because the device is highly load dependent and therefore will be of no real multi-purpose practical use in a fixed resonant and directly output to load coupled condition. The energy needs to be transferred in pulses into an impedance matched load and subsequently stored in an accumulator for practical use via an inverter. However, getting to this stage adds complexity and cost and is only viable if an overall performance gain (COP>1) from can be confirmed by correct measurement.

I agree, I just tested my device same setup as my test 3 video (2 x 40w bulb in series) and added one extra 40w 120v bulb in series and nothing happens. There needs to be enough load (not too much resistance) for it to kick in.
One thing to note is, bulbs are good for this device as when resonance kicks in the bulb resistance rises and keeps the device under control. I tried it with a 78 Ohm 50w resistor instead of the bulbs and when resonance kicks in I get rotor lock up since the resistor is too fixed of a load. I then tried it with a 100 Ohm resistor and nothing happens (too much resistance for resonance to kick in)

Luc

[MileHigh]

All:

Note 0.010" of an inch is roughly the thickness of a sheet of paper.  There is not a chance that the QEG could be built to that dimensional size, not to mention 0.001" which is ridiculous.  If that's in the manual somewhere that's laughable.  Now notice saying "laughable" is not malicious bashing, it's simply a true statement.  Note we haven't even been discussing tolerances.

F_Brown,

I am not sure if you are simulating with ideal components or component models that include hidden parameters to make them "real world."  In reading your statements there is one thing I want to make clear about the switching of the inductance value, where you toggle back and forth between two values.  For starters that's a pretty cool trick that you are doing with the sim.  The big point is that just the act of dynamically switching the value of an inductor that's in a circuit in the "real time" of your simulation cannot be a source of energy.  It simply can't happen.  So I am not sure how you are getting increasing resonant oscillations in your simulation.

Here is something for your consideration, and I will assume we are working with ideal components here:  Your circuit is [12-volt battery] -> [2-ohm resistor] -> [ inductor(t)] ->  [Ground]

Let's say the inductor(t) toggles between 2 Henries and 4 Henries every 30 seconds.   What will the sim show?   How will it handle the abrupt change in the value of the inductance?  It's effectively a discontinuity in the value of the inductance, will the sim be able to cope with it?

Let's forget about the sim for a second and crunch it in our heads.  Let's assume ideal components.  Do you know what will happen when the inductance toggles in value?  It's an important question because if you do know then great, but if you aren't sure, then how can you be sure your sim is running correctly?

MileHigh 

[gotoluc]

Here is a Spectrum Analysis of my MOT QEG test device.

Note that my rotor RPM is in the 1,500 RPM range... But my Electrical Resonance is in the 29Hz range.

My MOT Inductance swings from 6H to 12H and Resonating Capacitor is 2.5uf

From the Spectrum my test devices Mechanical Resonance is in the 225Hz range with a second peak in the 500Hz range.

Luc