Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[znel]

Back to the spark gap. Here is an example of a one sided magnetic field. This is not truly magnetic quenching but you should get the drift.


http://www.youtube.com/watch?v=EtLlAljKQ4g


I'll add more as I get them.

Tesla hairpin circuit without spark gap quenching.

http://www.youtube.com/watch?v=_18E6lo3gN4

This might be good to read on the old guys methods:

http://earlyradiohistory.us/1916qnc.htm

Try looking here:

http://www.panorooma.com/free-energy-devices/info-xnf.html

This was my first experience with Spark gaps and it might inform you of the other components as well like the bifilar coil and it's ability to extract the impulse wave.

Interesting sites... I've done similar experiments as shown in the Johnb vid, as long as your working with low currents it is quite controllable.   I actually thought I had it operating the way I wanted it several times - each test rig using lower currents - as soon as you went above 500 amps it would start misfiring.   As long as it's stable it's painless - when it's not stable, well, it damn well hurts.   

I'm going to look around for some old commercially made quenched gaps to see the differences in what I'm doing, also curious as to the amount of power they might be able to handle.   If you run into anything let me know....

[verpies]

Probing the outline of the kacher coil (primary) with an av-plug/scope shows i have standing waves on this coil with a dip (node) in the middle and antinodes on top/bottom.

The node in the middle is an indication that you are operating it at the 2nd harmonic. This also means that at half that frequency it would operate at its 1st harmonic (fundamental frequency).  This can be easily seen on that High School video.
http://www.youtube.com/watch?v=4vdSP-580Vw

This only is there with the 3th coil/copper pipe installed.
Moving the 3th coil upwards decreases the kacher coil resonance frequency until it stops oscillating.

The 3rd coil presents a load which decreases the inductance of the system and increases its LC oscillation frequency. Without that L3 coil (or with the coil over the node, or a coil that is opened) the LC resonance frequency differs too much from the frequency necessary to create the standing wave (any harmonic would do).

[verpies]

+HV, -HV does not imply that the voltage is constant. It may imply that the voltage does not change polarity. That is where the role of the switch (implemented for instance as a spark-gap) becomes important. ...
Thus, even in this simple circuit, the coil L1 "experiences" AC excitation.

You are confusing impulse DC excitation with the resulting AC oscillation.
Anyway, why would the oscillation persist and even increase after the excitation ceases?
Conventionally LC circuit's oscillations decay exponentially at the rate e^-t, after the energy stops being delivered to the oscillator (e.g. after SW1 opens).

...Periodic short pulse excitation provides a wide spectrum of AC signals (see Fourier analysis).

In a purely resistive circuit - yes, in an RC or RL or LC circuit - no.


P.S.
I would understand the usage of the phrase "it may imply" in reference to someone else's diagram, but not your own.

[yfree]

You are confusing impulse DC excitation with the resulting AC oscillation.
Anyway, why would the oscillation persist and even increase after the excitation ceases?
Conventionally LC circuit's oscillations decay exponentially at the rate e^-t

P.S.
I would understand the usage of the phrase "it may imply" in reference to someone else's diagram, but not your own.

You seem not to understand basic Fourier analysis. You do not understand the purpose of my post, although I stated it three times. Therefore, I cannot help you anymore.
No further replies, please.

[scratchrobot]

Has anyone ever tried or has more info to get energy from air with a tesla coil like this ?
http://www.free-energy-info.com/Ch11/Fig1.gif

Regards,
Scratchrobot