Kapanadze Cousin - DALLY FREE ENERGY

[Hoppy]

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.

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.

[kolbacict]

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

[lancaIV]

What is he doing during the last fourty years ?
https://worldwide.espacenet.com/searchResults?submitted=true&locale=en_EP&DB=EPODOC&ST=advanced&TI=&AB=&PN=&AP=&PR=&PD=&PA=Pavel+imris&IN=&CPC=&IC=

[AlienGrey]

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!

[T-1000]

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.

In my previous experiments the amount of time required to charge capacitors with high frequency was not very promising. It took at least 10+ seconds to charge few micro-farads capacitor up to few hundred volts from the power source around 5-20W.
Unless you draw in ambient energy somehow the energy spent is still more than energy harvested from capacitor. For the pulse yes, you can get hundreds of amps for fraction of second. But the second cycle will still take much more time to get capacitor charge up to same level.

Cheers!