Here in this articles he gives away some secrets:
https://translate.google.de/translate?sl=auto&tl=en&js=y&prev=_t&hl=de&ie=UTF-8&u=http%3A%2F%2Fwww.hellagen.gr%2F2016%2F01%2Fblog-post_21.htmlCOLD COMBUSTION REACTOR FOR PRODUCTION OF ELECTRICITY '
This is an innovation that converts chemical energy directly into electrical energy through two processes:
A) Through an electrochemical reaction, and
B) Through a space irradiating system, wherein said electrochemical reaction is carried
This particular type of reaction involves the transfer of electrons from one material to another through an external circuit.
This process can be continued until the circuit is interrupted or the supply of external irradiation, or even eliminated if one of the reactants components.
The hardware component that is replaced is usually the rise.
As the reaction in the electrochemical device is not subject to any restrictions or prohibitive provision of the Carnot cycle.
As a result, the cold combustion reactor has the highest energy conversion efficiency.
It is also known that the temperature and pressure within the tube cavity, wherein the reaction proceeds, plays an important role in the conductivity of the liquid solution.
This conductivity of the slurry should be as large as possible, which means a very low ohmic resistance between the electrodes.
The above, ie low resistance and high conductivity, not achieved with strong acids, as this would be disastrous for the environment.
In the system throughout evolution, electromagnetic radiation, which receives the liquid solution and which irradiation should be done at a specific frequency, has a key role in the process, as shown by the appropriate measurements and the effect of the degree of device yield.
In the fluid environment of the cavity tube, wherein the reaction occurs, are suspended metal particles in powder form to be greater absorption of electromagnetic radiation.
Out of these particles in the fluid environment of the cavity tube there are dispersions of colloidal silver in specific proportions, allowing in this way the flow of larger electrical currents.
Obviously, thereby circumvented and the prohibitive provision of the theorem of Carnot cycle, because with this method of direct conversion can easily achieve higher yields by 96%, ie much higher yields than current yields of nuclear reactors electricity.
Use diodes IMPATT XR2F, which can yield larger, up to multiples force of about 2,5 Watt at frequencies TERRAHERZ.
These diodes are manufactured in our laboratory using the technique of photolithography and Probe Scanning Microscope organs.