I want to share something with you. T1000 and Nelson knows well what I want to say is that . I previously wanted to tell on this site but some of you were opposed to what I said. And they wrote again and again that what I said was wrong. But what I said was true. No one has to believe my writing. But maybe it's useful for one of you.
The most important part of free energy is the capacitor. If you charge a capacitor with high voltage and high frequency and rectified with fast bridge diode has no resistance anymore and the cap charges instantly.  Then you got charge inside a cap and making that flow is amps.
 If you load push&pulls at 50-60Hz per second and your cap charging circuit is doing 220-300kHz a second you got a lot of charge in the cap bank to pull into amps. I won't tell you exactly how to do this. But I will tell you the right way. The energy stored in a capacitor is a function of the voltage across it and the capacitance. Stepping up the voltage to any desired high value is very easy to do with the use of a high voltage module. Example is a flyback transformer. This means large amount of energy we can be created and stored inside a capacitor from any source of small input voltage and current.  And this energy directly into an inductor after each recharge. When the LC tank circuit is in resonance the entirety of the capacitor energy is transferred to the inductor and stored in its magnetic field. This means the previous electric energy is now to magnetic and thereby yielding desired amperage. You should use for switching mechanism  such as transistor, high voltage power Mosphet,Thrystor..etc. The most important is to match resonant frequency of the LC to guarantee at each cycle the energy gets fully transferred from the electric field of the capacitor C1 to the magnetic field of the inductor L1. Then released by L2 in the form of current out to the load and output capacitor C2.
That's all for now...
Best regards.

I want to share something with you. T1000 and Nelson knows well what I want to say is that . I previously wanted to tell on this site but some of you were opposed to what I said. And they wrote again and again that what I said was wrong. But what I said was true. No one has to believe my writing. But maybe it's useful for one of you.
The most important part of free energy is the capacitor. If you charge a capacitor with high voltage and high frequency and rectified with fast bridge diode has no resistance anymore and the cap charges instantly.  Then you got charge inside a cap and making that flow is amps.
 If you load push&pulls at 50-60Hz per second and your cap charging circuit is doing 220-300kHz a second you got a lot of charge in the cap bank to pull into amps. I won't tell you exactly how to do this. But I will tell you the right way. The energy stored in a capacitor is a function of the voltage across it and the capacitance. Stepping up the voltage to any desired high value is very easy to do with the use of a high voltage module. Example is a flyback transformer. This means large amount of energy we can be created and stored inside a capacitor from any source of small input voltage and current.  And this energy directly into an inductor after each recharge. When the LC tank circuit is in resonance the entirety of the capacitor energy is transferred to the inductor and stored in its magnetic field. This means the previous electric energy is now to magnetic and thereby yielding desired amperage. You should use for switching mechanism  such as transistor, high voltage power Mosphet,Thrystor..etc. The most important is to match resonant frequency of the LC to guarantee at each cycle the energy gets fully transferred from the electric field of the capacitor C1 to the magnetic field of the inductor L1. Then released by L2 in the form of current out to the load and output capacitor C2.
That's all for now...
Best regards.

Hi Urfa , it has been a while and Hi all,
Yes that is what we need to focus on.
the discharge creates so much amps after fast charging with DC.
I have blown two diode bridges by doing this and was able to light up 500W very bright.
 I did a pause after accident... but will continue.
Cheers.

Urfa thanks for sharing your insight. Indeed capacitive reactance drops by frequency increcement as Xc=1/2πFC
While a series LC is oscillating, there might be a "time window" during which we can charge the resonating capacitor through a HV-HF module as you say. This time window is when current inside the LC is zero. Thanks for your refreshing idea. We really need to focus our minds again after the initial shock. 

Oh Yeah' Shock horror to quote the late comedian Spike Milligan! 

 Anyway URFA'
URFA, thanks for the interesting chat with a really interesting collection of disclosure of facts.

And on the quadratic dependence of voltage and energy in a capacitor, can we have something?

The big question in relation to energy storage is; can it be demonstated beyond doubt that the energy required to charge a given cap is less that the energy dissipated in load on cap discharge over a given number of cycles? A very important term in connection with charging caps but not mentioned in Urfa's post is dV/dt. A loud crack from a very fast and high current discharging cap into a short circuit or bright flashes from a powerful bulb may look and sound impressive but in terms of time-related charge v discharge energy levels, may prove less impressive.

Hoppy I hate to be a bore here but you're really ignoring two forms of electricity here everything is electricity
so next time you wash or bath explain why you don't short out !!!
Oh hoppy days!

capacitor load time for 80% his capacity
                                          100% his capacity ?
Working with 2 capacitors : one is charging and the other in recharge

The today electric storage systems are working as array- network :
Minute 3:00.    hundreds of batteries in one pack
https://m.youtube.com/watch?v=Lj1a8rdX6DU

Hi. T1000
Please watch my little experiment. How fast charge capacitor. In this experiment two 400 V capacitors in series. This capacitors not good. I must use low ESR capacitor for best resoult.
Input power for only Kacher. 12V 0.2A and other video 12V 0.1A
Load  Standart 220v 28W bulb.
https://m.youtube.com/watch?v=LgL4kG7lpig

https://m.youtube.com/watch?v=BVTS6zmv7LE&t=2s

Yep, I remember those videos. The time for bulb is off is greater than time bulb is on plus filament heating decay time.
If you would attach step-down inverter instead of bulb and try to harvest rectified energy it still won't stay with output capacitor  charged and load attached to it.