Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[forest]

Nowhere  isn't that AC current  they are pulled and when AC crossing zero they return back, at least I imagine that so. In fact they are almost not moving , just energy is flowing.
Btw,In TPU current is a problem due to rectification into DC and missing ground connection.IMHO TPU require a load always connected

[the_big_m_in_ok]

@znel,
With respect to Reply #1620:
A couple of theoretical questions?

Will an ordinary MOT work in place of a NST?  Will the efficiency improve or deteriorate?

Doesn't the neon get blown out by 10 kv pulses?  Even if they're short in duration?

Something to think about.

--Lee

[znel]

@znel,
With respect to Reply #1620:
A couple of theoretical questions?

Will an ordinary MOT work in place of a NST?  Will the efficiency improve or deteriorate?

Doesn't the neon get blown out by 10 kv pulses?  Even if they're short in duration?

Something to think about.

--Lee

I haven't tried a MOT with that experiment but I would imagine as long as you can create a resevour of HV DC in the cap it would react the same way.  How you get it isn't as imortant.    My original one was done with a 2500v Ventex where I noticed it originally.   Higher voltages produce better results.  Keep in mind 16 joule and above HV DC storage is lethal, 5 joule at 6500 volts hurts considerably, make sure your caps are no larger than .25 uf for experimenting as the chances of making a mistake is high.   

The output through the neon has to be controlled, as does any output path.  A direct connection will obvioulsly discharge the cap ( and most likely blow the neon ).  I used a light bulb with tin foil over the top portion as a capacitor or corona discharge of sorts to only allow a small portion of the energy in the main cap to be released.   

Dynatron is using 2 spark gaps in his design to control the discharge.   

[the_big_m_in_ok]

I haven't tried a MOT with that experiment but I would imagine as long as you can create a resevour of HV DC in the cap it would react the same way.  How you get it isn't as imortant.

Right.  Since I have no old TV(s) to salvage, other kinds of transformers may be needed.  Even hand winding a transformer would allow one to design exactly what's needed.

    My original one was done with a 2500v Ventex where I noticed it originally.   Higher voltages produce better results.  Keep in mind 16 joule and above HV DC storage is lethal, 5 joule at 6500 volts hurts considerably, make sure your caps are no larger than .25 uf for experimenting as the chances of making a mistake is high.

Exactly, yes.  In a rainstorm, the fatal current level falls considerably.  3,000 volts from a static charge on a doorknob can be a sharp sting to some, along with a 'snap' arc.   

The output through the neon has to be controlled, as does any output path.  A direct connection will obvioulsly discharge the cap ( and most likely blow the neon ).  I used a light bulb with tin foil over the top portion as a capacitor or corona discharge of sorts to only allow a small portion of the energy in the main cap to be released.   

Very interesting.  An inexpensive, self-constructed HV capacitor.  Is coronal discharge between the aluminum and the base a problem?

Dynatron is using 2 spark gaps in his design to control the discharge.

It can be a backup safety feature for excessive voltages in some designs.


--Lee

[znel]

  An inexpensive, self-constructed HV A.  Is coronal discharge between the aluminum and the base a problem?
--Lee

I put tin foil on the very top portion of the bulb so there was a 1.5 to 2 inch distance between the base and foil.   The actual discharge is inside the bulb similar to a plasma globe.