Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[bass]

Unfortunately patent only in Russian

[bass]

May be so

[gyulasun]

Continuing with captainkt or can we do the schematic of this build so that we can replicate?

Hoppy I don't think that the video is fake cause it's true the bulbs were lit slowly. If hooked to the grid they would not act that way.
Gyulasun can you post a scheme that you're trying to explain please?
Thanks

Hi guruji,

In fact, I am trying to interpret the 1kW Russian video and the schematic what x_name has shown.  So you have a schema and recently member bass has also shown a few schematics. 
Basically it seems that first a HV AC or DC voltage source is needed, voltage level at least around 1kV, can be higher of course,  if AC then at least in the some hundred kHz or 1MHz range. This can be ,say, a small Tesla secondary coil, you excite it from a ground-independent voltage source, or from the mains by a transformer which insures a galvanic separation from the mains.
If you prefer a HV DC source then you need a spark gap or an equivalent HV switch to feed a resonant LC tank with HV pulses, this LC tank should resonate also in the some hundred kHz -1 MHz range.
Here is a notice: x_name41 supposes a 50 Hz modulating frequency is added to the some hundred kHz wave to get an AM amplitude modulated output, while bass shows no AM modulated output,  I do not know if this AM modulation is needed or not, only tests can reveal.

Now suppose you have the HV resonant LC tank and I think the idea is to harness somehow the reactive current circulating in the tank. To achive this the Russian video suggests (if I accept it is not a fake) the following:  connect one of your load connection points directly to the ground. Then connect the other connection point of the load to the ground independent LC tank but use only a single wire. To achive this, you can use one leg of a coupling coil wound near to the HV LC tank, the other leg of the coupling coil may be left floating or connected to the negative point of the full circuit driving the LC tank, all is ground independent.

Another method for achiving the one wire drive for the load is to use capacitive coupling by using say an Alu sheet positioned near to the HV tank coil and connect it to the single free point of load (the other point of the load is grounded of course).

IF you have an old line output transformer which does not include built-in HV rectifier diodes, then you could use it to produce AC HV, the frequency could probably be less than some hundred kHz (these transformers were designed for the 15-40kHz range, maybe they work over the 100 kHz range.  If you have such transformer with built-in HV diodes then you have use spark gap to bang its HV output into the LC tank at its own resonant frequency. Either way you need at least a 5-6kV or higher voltage rated HV capacitors in the some ten nanoFarad range if you have a HV source of say under 1kV as is shown in x_name41 drawing),  also x_name41 showed calculations for the 8 turn tank coil inductance needed for resonance (frequency is not critical, anywhere in the 600-1000kHz range.  You may of course alter a little with the number of turns and with the HV cap values.

Of course all this is a hypotese at the moment till proved or disproved.  Why I give a chance for this? Because the single wire power transfer is achived by an arrangement whereby (at the some hundred kHz-1Mhz frequencies) the HV LC tank's  EM  near-field can penetrate into the ground, this can be considered as the  second wire of the power transfer.  And there is a single wire for connecting one leg of the load to the HV tank coil by methods I mentioned above and the other leg of the load is grounded. So certain part of the circulating energy included in the resonant LC tank is also shared to the load via the ground and the circuit closes via the EM coupling back to the tank by the EM near-field path. I believe it is a kind of Avramenko plug, without the rectifing diodes and with a grounded load.

Guruji, and anybody else, be very careful when dealing with HV!!

rgds,  Gyula

Edit:  you can read Tesla on similar power transfer here but the tank coil is grounded and not the load: www.tfcbooks.com/tesla/1893-02-24.htm  and go down to title: 
ON CURRENT OR DYNAMIC ELECTRICITY PHENOMENA

[guruji]

Thanks gyulasun for explaining. The thing you're giving more an image of Don Smith circuit than Kapandze.
Anyway thanks.

[gyulasun]

Hej guruji, 

Is it known how Kapanadze does it?  We can compare known things.

regards,  Gyula

PS  Is this video a fake?  it is shown in this forum front page but here is it on youtube http://www.youtube.com/watch?v=wAmDpqhvxZE
A 40W 220V bulb is run from a 9V battery, current draw is about 110mA...   Anyone knows any news on it?