Kapanadze Cousin - DALLY FREE ENERGY

[magpwr]

Hi all. One interpretation of Kapadnadze's earlier devices is that applying high voltage pulsing through a sparkgap to
a coil wound on a ferrite core causes some process to happen inside the ferrite which releases excess energy into the
system, which can then be used to power a load.

The following short video shows some preliminary tests I am doing to put this concept to the test. The video shows that
arcing increases the input current draw to the flyback driver circuit, as well as tests whether placing a ferrite yoke core
directly in a sparkgap arc causes any noticeable excess power to be available to a load. I did not notice any excess power
in this preliminary and very rough test. I plan to test more extensively over the next while to see if I can see any excess energy
when pulsing ferrite in this way. The specific type of ferrite used may make a big difference however, for all I know, as there are
many different ferrite mixtures out there. If anyone has a suggestion on a specific type of ferrite to use, I'd be interested to hear
about it. Both Acca, who posts here sometimes, and Stela have shown a similar sort of test in their videos, so I thought I'd try a
similar sort of test while monitoring the input current to the flyback driver, so you can get an idea of what is happening with the input
power while conducting the tests. The orange multimeter in the top right hand corner of the video screen is showing the input
current to the flyback driver. 

http://www.youtube.com/watch?v=UYZdb7jSBAA

Here's the comments from the video:
Flyback driver:
Supply voltage: 24 VDC
Input idle current: ~0.6A
Load: 24W, 12V halogen bulb   (P.S. Actually I think the halogen bulb is 35W, but the writing is worn off it now... )

Conducted two basic tests:
Part 1 - Test to see if sparkgap arc distance affects the current draw on the flyback driver.
Demonstrates that with a wide sparkgap the input current increases to roughly 0.7 A to 0.9 A or so. The input current draw to the flyback driver
increases more and more as I make the sparkgap distance shorter and shorter. With a very short sparkgap distance the arc is more concentrated
and intense, which causes more current to flow through the sparkgap, and the 24W (actually 35W) halogen bulb starts to light. The input current draw increases
to about 1.3 A with a very narrow sparkgap distance, while the halogen bulb is lighting. The halogen bulb is not lighting very brightly however.

Part 2 - Test to see if placing a ferrite core directly in the sparkgap arc can provide any extra power to a load. This is based on the concept that
stimulating a ferrite core with high voltage, high frequency pulses can cause the ferrite core to emit extra energy into the system due to the
HV (high stress) pulsing of the ferrite magnetic domains. I placed a ferrite yoke core-half in the direct path of the sparkgap arc to see if I could get
any more power delivered to the load. The arc was hitting the edge of the ferrite core and bending around it. With the sparkgap distance set short,
the halogen light bulb lighted, but it was not noticeably any brighter than without the ferrite core in the arc path. Input current draw to the flyback
driver was also around 1.3 A or a bit higher when the halogen bulb was lighting the brightest, but no increased power to the load was noticed.

Maybe higher voltage is needed, or a different type of waveform, or a specific frequency, or maybe only certain specific types of ferrite mixtures work.
Another option is to try a different type of arc. I was using a HV rectifier to charge a 0.001 uF capacitor, and so the sparkgap was discharging in large HV
pulses. A test could also be tried without the diode and capacitor to produce a different type of a more 'white noise' type of arcing in the sparkgap. I may
try this next to see if there is any difference when placing the ferrite in this different type of sparkgap arc.

All the best...

HI void,

I came across this video yesterday which maybe of interest to many.
High voltage disturbing  2-coils transformerhttp://www.youtube.com/watch?v=fURFkTC1rmQ

[AlienGrey]

Stella

merci pour votre dernier message, nous ne sommes pas tous du même avis, comme certains gens impolis sur ici, je ai remarqué que vous donnez deux mots clés loin comme au problème qu'ils ont tous des, telle est la vie, se il vous plaît ont une bonne journée , avec ce qui est à gauche de celui-ci;)

[Void]

@Void:
That yellow color around/in an arc often means that your arc is energetic enough to be "burning" the air gases themselves. Creating oxides of nitrogen, which then create nitric acid when in contact with water or water vapor. You can try making the arc inside a small glass container, like an inverted shotglass, and if the air in there becomes yellowish over time, that's what is happening. Needless to say you don't want to be breathing much of this stuff, but the tiny amount from your arc isn't going to be harmful.
The yellow color can also be a result of cadmium plating on the electrodes burning, this cadmium vapor is also dangerous to breathe. Sodium is another substance that makes yellow tints in flames and arcs, like if the electrodes are contaminated with salt. I don't remember what zinc plating does at the moment.
As to photography, that will depend on a lot of variables. It helps if you have a good camera that can be completely manually controlled. You need to play with f-stop, shutter speed, ISO number, white balance until you find a pleasing result. I get the best results with flash and autofocus off, manual white balance and low ISO numbers for good color saturation.

Hi TK. Thanks for the info! It looks like you were able to capture that yellow color pretty well
in your picture. Looks similar to what I am seeing as well. Yes, not likely good at all to breath such gases.
I will play around with my camera settings when I get the chance, but I need to look up how to do
manual settings on my camera. My camera does give me some control over such settings, but maybe
not all.
All the best...

[Void]

@Void

Could you approach a magnet near the spark to generate "white noise" high frequencies  and tell us if your bulb is coming brighter?
(Stela got 44 Mhz on his spectrum analyzer)

Hi cheors. I can give it a try. As soon as I get a chance I will be doing more experiments
with the sparkgap and ferrite combo.

P.S. I tried a few different things including using magnets but did not see anything unusual....

All the best...

[Void]

Hi void,
I came across this video yesterday which maybe of interest to many.
High voltage disturbing  2-coils transformerhttp://www.youtube.com/watch?v=fURFkTC1rmQ

Hi magpwr. Not sure what to make of that video. If you are putting enough power
into the primary, I guess you should be able to light the light bulb even if the secondary
only has one turn. I have watched a number of this guy's videos. He has another video
called "Free Energy generator is not possible." that is similar to the video you linked
All the best...