Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[havuhung]

Hi All,
Why until now no one has successfully built an FE devices small capacity, based on the principle of the Tariel Kapanadze? 

[captainkt]

@havuhung, I believe that TK said you need 240 volt push for his device to work, hence the 240 volt inverter in early vids. I have only been working with 240volts and after 5 years nothing positive, but have seen OU be it for just a few minutes before melt down.

Regards
Keith

[jbignes5]

Afraid not.

Again why are you here if you don't know anything about TK and his devices?


For your reference:


http://www.youtube.com/watch?v=3thvqFhFIfY


http://www.youtube.com/watch?v=qVUN3GsekKQ


See this is the problem. You want to chime in on things you have no idea about. You blather and distract instead of letting others see the connections. Do your homework before coming here and saying things about a process you don't understand.

[jbignes5]

This one wire motor consumes power and has a return path to the supply via displacement current. It is featured on page 234 of this book https://ia700302.us.archive.org/16/items/inventionsresear00martiala/inventionsresear00martiala.pdf

http://i128.photobucket.com/albums/p171/jbignes5/onewiremotor.gif

An example of the power draw from a single wire connection and displacement return is below. Keep in mind that is a 30 amp meter so it's input is changing by a couple of hundred milliamps from a 12 volt battery.

http://www.youtube.com/watch?v=ZXE7z6UAYSw

Cheers

Well Certainly it draws power in that setup. But in a real one wire setup there is a diode like block to keep the pathway from effecting the source. Although your experiments have show the simple process it doesn't show the correct way to do such experiments.


The driver is the issue and if it is not separated properly from the load by a gap then yes it will effect the source. With the addition of magnetic quenching to that gap you will get a real impulse and I am betting quite a lot of current will appear to flow in the motor.


To increase that flow one could put a mass on one terminal of the special transformer that I have shown like a plate and then the other terminal goes to the one wire motor then to another plate. The flow or circuit path will include the two plates as terminals and act like a normal circuit. But if you properly separate the source from the load it should not affect the source in any appreciable manner and hence why TK uses a small battery to start the unit then disconnects it when the source cap has charged up enough.


Your experiment shows the basic concepts are there. But in order to complete the experiment you must separate the source from the load which TK did and you did not.


We all know how a spark gap works right? It builds up then breaks down at predictable voltage levels. Well the spark gap is the dam in this case. Once the dam overflows or discharges it flows till the potential across the spark gap falls below the breakdown voltage. This can be made to fire quicker by using magnets across the spark gap.

The plates in the case of TK's example include the big metal shroud the surround the source unit and control device. The input goes into the metal shroud and to the source cap. This starts the process and the unit begins to power up.

[stivep]

This one wire motor consumes power and has a return path to the supply via displacement current. It is featured on page 234 of ..................................( look  above at  original  post and link)


An example of the power draw from a single wire connection and displacement return is below. Keep in mind that is a 30 amp meter so it's input is changing by a couple of hundred milliamps from a 12 volt battery.

http://www.youtube.com/watch?v=ZXE7z6UAYSw

Cheers

this is the comment on that video  from  Stefan:

Seems like the current only increase 100 or 200 milliAmps ! But you light up an 18 Watts tube! The drawn difference power is not 18 Watts! So you win power from the environment!

This Question is addressed primarily but not only to Farmhand.
I would be delighted if  anyone else respond to it. e.g Verpies.

How do you understand Displacement Current Mechanism
in open wire circuit from that video?


Please explain Displacement Current Mechanism:
-for DC
-for AC
-for electrostatic charge

simple "open  air" one wire  circuit must obey the same condition - please explain Displacement Current Mechanism with respect to wire gap size or space distance .






Wesley