Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[Acca]

 Wesley, here is a nuclear glass polish for the heavy lead glass link..
http://www.raybar.com/shld_info.htm
http://www.raybar.com/cntrl_wndws.htm[/url]
Lead Glass does not shield against thermal neutrons or fast neutrons
RAY-BAR X-RAY GLASS POLISH

Specially formulated for gently reducing or eliminating haze or hair-line scratches from soft x-ray lead glass surfaces, or refurbishing old existing medical x-ray glass windows and reducing surface "fogging",discoloration and oxidation from age for a clearer view of patients. Polish and applicator are included along with polishing instructions in this kit. Will not remove etches or deep scratches.
And my video on the piezonuclear effect.
http://www.youtube.com/watch?v=ba-FeswwGNQ[/font][/url]

[Hoppy]

Dear hoppy i have only one doubt please tell me why there is no loud noise at here on the video(05:38 and 08:35). Tk directly connects 230V supply from the grid to the primary of the step-down transformer at this time  (05:38 and 08:35 from Tk's 2004 video).........

The noise will only occur if the two mains supplies are sufficiently out of phase when the device is switched-on. In the case of the 2004 video, I think that the mains plug is operating a latching relay that performs the function of S1 on my schematic. The mains supply feeding the lamps is brought directly through the inverter, so that when the inverter output plug is pulled-out, the lamps extinguish.

[Zeitmaschine]

Although I couldn't find it now, I know that I've seen the video where TK shows what is in the tin can. It was an big iron core transformer, as I've mentioned previously. Of that I'm sure.

I would really like to see that !! !!

Why should it take out the inverter output stage as TK's inverter is most likely using a conventional iron transformer output. Anyone using an HF based electronic inverter for this type of application is sure to run into trouble.

Oh yes. On page 1222 we don't even know the type of inverter TK was using. Great progress, I would say.

The video you refer to is faked!

But the spark is real. So we know how a real spark disturbs the measurements.

   Why should the lamp power dissipation be 5000W just because the five bulbs are rated at 1000W each, given that we don't know what voltage was being applied across the bulbs, as the guys meter measurement was fluctuating wildly?

If the voltage is the voltage of the mains grid then we should know the voltage. In other words: If the  five lamps are connected to mains then the power dissipation is 5000 watts, if the five lamps are connected to the device then the power dissipation maybe only 4000 watts but nevertheless the device would be real.

    If you are expecting others to fill in the big gap in your schematic for you, then how will it be a replication of your proposal?

It would be a replication of a proposal based on my previous proposal.

Spark-gaps are still a higher voltage and a faster ON-switches than any transistor.  They are slower OFF-switches than transistors, though.
Single transistors above 1200V are hard to get and expensive and I have never seen a single transistor capable of switching more than 3kV.

But how could faster ON contribute to tapping into a hidden energy source (like the ground)? And why should it be necessary to switch the high voltage directly? Why not just switching the primary coil of the HV transformer with a transistor below 1000V?

The noise will only occur if the two mains supplies are sufficiently out of phase when the device is switched-on.

What if the noise occurs because the output frequency of the inverter is out of phase with the resonator of the device (not mains) which is hidden in the tin can?

Now I have noticed the same random behavior during my experiments with a transformer, inverter and capacitors. My inverter (not transformer!) makes a humming noise when connected to the transformer and the capacitors. But not always. Without changing anything in the setup sometimes after connection the humming noise is there sometimes it is not. I think the difference is whether the connection is closed at maximum or at zero-crossing of the sine wave.

[captainkt]

@Hoppy, just a quick note to say as soon as mains gets near inverter then bang it blows, I have ruined at least a dozen. Also HV near inverter just as bad. So when he self runs it (2004) I do not think mains is connected anywhere.
Regards
Keith

[Hoppy]

@Hoppy, just a quick note to say as soon as mains gets near inverter then bang it blows, I have ruined at least a dozen. Also HV near inverter just as bad. So when he self runs it (2004) I do not think mains is connected anywhere.
Regards
Keith

Yes, it will blow HF based inverters.