Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[TinselKoala]

I just got my Induction Heater hooked up today, so After watching the video above pertaining to the one wire transmission, I tried several different grounding (hook-up_) configurations. Not sure how to accurately measure the output power (I'm open to any suggestions ).  Currently, I just watched the intensity change of the load . The following is the first test.
http://www.youtube.com/watch?v=mduKk4Agts4
Thank You ahead of time for you viewing endurance, and any suggestions.

You have a very nice laboratory and evident building skills. But you lost my careful attention when you said the lights are "maybe 90 percent bright" while moving your pickup coil around on the hob. Come on.
1. Surely you know that "brightness" is a physiological sensation and isn't linearly related to power dissipation in lights.
2. Surely you have the equipment and knowledge to make a calibrated light sensor.
3. Surely you understand "power factor" and you know that your consumer-grade wattmeter is likely not very accurate when used with things like your low-end induction hob's input power.
4. Surely you know that the power dissipated in a load is determined by the voltage and current passing through it, not by the "wattage rating" on the box the bulbs came in, or the number of switches you flick. Calling your load a "1500 Watt load" is basically meaningless, but very misleading. After all, a  normal white LED is a "30 mW" LED, but in Joule Thief service it looks plenty bright.... so can we say it's a "30 mW load" or must we actually measure and calculate what it is dissipating based on what it's being supplied?

Anyhow, you are off to a good start, but with that impressive workbench and all that equipment, along with your nice load bank.... I really did expect a better performance.

If you want to measure the input and output power properly it's important that you understand the waveform + envelope that these induction hobs put out. I hope you've looked at Jean-Louis Naudin's work with these devices; you can see the complexities of trying to measure instantaneous power when you have a low frequency envelope riding on top of the basic high-frequency oscillations.

[Сергей В.]

I recommend you watch the video - The Hidden History of the Human Race - by Austrian researcher Klaus Dona

Klaus Dona: The Hidden History of the Human Race 45m:57sek
https://www.youtube.com/watch?v=syWq6_oVhD0

Take a look on Big picture carefully. These Ancient Lightning Bulbs are so Big, Bigger than Human in natural proportions !! Look how DJED power up these Lightning Bulbs !!
http://s019.radikal.ru/i610/1305/59/4fe593c4aca6.jpg

What to say about perfectly cutted stone blocks in 3D with 3 sides exactly on 90 degrees at once which CAN'T BE MANUFECTURED TODAY. What about stone pillars of several hundred tons cutted in one peace ?? What about 3D map of Ancient world carved on 360 2 tons Limestone blocks!! Part of Maps were Confirmed Russian Cosmic Army by satellite measurement !! WHO MADE ALL OF THIS THINGS ?? I DON"T THINK ALIENS DID IT !! I THINK WE ARE BUT MANY HUMAN MINDS WERE BLOCKED PERMANENTLY TO REMEMBER PAST LIFES !!

And some people said humankind have high technology !! ABSURD !!

All what mankind doing now is reinventing the wheel. HM !! Maybe i show you Nano and Pico Technology from Ancient Past. For example Nano-Springs for NANO-CLOCKS  madе from Tungsten-Molibden alloy together with some UNKNOWN ELEMENT!!  The springs were founded in Russia on depth of 10 meters. It's about more than 100,000 years old parts - components had been parts of some machine or mechanism . The grooves on springs are under nano-dimesnions. Who today can made nano and pico grooves ?? NOBODY !! CAN'T BE MANUFECTURED TODAY !! Conclusions made yourself !!

......................

[Eniac5state]

TinselKoala said:
>1. Surely you know that "brightness" is a physiological sensation and isn't linearly related to >power dissipation in lights.

Yes indeed ! He can better measure the heat with a laser thermometer. Cheap these days and
very handy.  So... measure the temp of the lamps.

-How many people here, have a high ego and a low knowledge of what this is all about ?
-Is Kapanadze an entertainer who escaped from a circus ?

All questions that need to be answered..

-Tesla was a simple man-

[br549]

You have a very nice laboratory and evident building skills. But you lost my careful attention when you said the lights are "maybe 90 percent bright" while moving your pickup coil around on the hob. Come on.
1. Surely you know that "brightness" is a physiological sensation and isn't linearly related to power dissipation in lights.
2. Surely you have the equipment and knowledge to make a calibrated light sensor.
3. Surely you understand "power factor" and you know that your consumer-grade wattmeter is likely not very accurate when used with things like your low-end induction hob's input power.
4. Surely you know that the power dissipated in a load is determined by the voltage and current passing through it, not by the "wattage rating" on the box the bulbs came in, or the number of switches you flick. Calling your load a "1500 Watt load" is basically meaningless, but very misleading. After all, a  normal white LED is a "30 mW" LED, but in Joule Thief service it looks plenty bright.... so can we say it's a "30 mW load" or must we actually measure and calculate what it is dissipating based on what it's being supplied?

Anyhow, you are off to a good start, but with that impressive workbench and all that equipment, along with your nice load bank.... I really did expect a better performance.

If you want to measure the input and output power properly it's important that you understand the waveform + envelope that these induction hobs put out. I hope you've looked at Jean-Louis Naudin's work with these devices; you can see the complexities of trying to measure instantaneous power when you have a low frequency envelope riding on top of the basic high-frequency oscillations.

Tinselkoala: Thank You for the Information.
Your observations are correct.
My hobby has always been in digital electronics and robotics (I am trying to learn some new stuff).
(Teach an old dog some new tricks  - so to speak)
I have found that the beginning phase of most projects is the most important for me,
So I start with the basics and gather information, in order to reduce failure time and expense.  In spite of my ego,
I have found from experience that there are millions of  people that are much smarter than I am, or ever will be,
on any given topic. I have also found from experience that if I approach  people with a judgmental and/or
assuming attitude, that they are reluctant to help me. So to make a long story short, I am starting with the basics
because I am trying to learn as I go, as well as be a participant in a form where there are both experts and
beginners to share the experience with. Again: Thank You for the information.

[sparks]

   If you take a spark gap and calculate it's capacitance then take a coil and calculate it's inductance you will have a tank circuit.  Now if we take the coil and it's magnetic field influences the spark gap then you could magnetically quench the spark gap.  (dc circuit breakers use magnetic blow out coils to disburse the plasma formed on opening of the breaker)  This would save alot of power over compressed air blow out. The other thing that may happen is that an intense accelerating electric field will arise in the dielectric of the capacitor.  Obviously atoms don't like being in intense accelerating electric fields and the first thing to go are the electrons.  Stripped from air molecules accelerated by the electric field diverted by the magnetic field.  A wide spectrum of electromagnetic radiation will be emitted by the gap.  If we calculate the energy of the radiation coming from the gap  will it be in excess of the energy needed to maintain the high voltage high frequency oscillations of the tank.  The tank will ring down due to the resistance of the conductors between the gap and the quench coil but once the tank is brought up to speed it will represent an infinite impedance to the supply voltage scource if the supply voltage is imposed at the resonant frequency of the tank.  The power is totally reactive.  The electric field will arise in the capacitor 90 degrees out of phase with the magnetic field arising in the inductor.  In an electromagnetic wave the two fields are in phase but space displaced.  In the resonant circuit the two fields are out of phase but occupying nearly the same space.  In Tesla's coils of high selfinductance with distributed capacitance they did occupy the same space unlike lumped component oscillators.  What you are really after is the accelerating electric field inside the gap.   This will convert any kinetic energy electrons may have in the bound state into electromagnetic radiation and secondary electrons creating current pulses in the primary oscillator.  These secondary electrons will create a current pulse that lags the primary voltage rise across the gap by nano seconds.   If you have a blocking oscillator in series with the shunts between spark gap and blow out coil that blocks this pulse but passes the lower frequency primary oscillations then you can extract the bonus current by inserting a load resistance in this blocking rlc.