Remember that in both the high school reactor and the DGT reactor, these use electric sparks where very high temperatures are produced. Rossi does not use sparks, but might use cesium.
On Sat, May 4, 2013 at 3:44 AM, Teslaalset <robbiehobbiesh...@gmail.com>wrote: > Interestingly, the boiling temperature of potassium is 759 degrees C at 1 > bar. > Vapourizing potassium could cause such subnano effect. > > > > The “secret sauce” is a chemical additive that forms solid dust like >> metal nano-particles, little solid balls of alkali metal droplets, with >> sizes that range in the hundreds to thousands of atoms. >> >> There sizes are about 1 nanometer or less. These small bits of matter >> form in the billions, like dust settling on the nanowire covered >> micro-particles. >> >> The contract points between these dust particles and the nickel >> nanostructures are the nuclear active areas. >> >> This potassium 1 nn Nano dust is constantly renewed and there is >> literally billions of such sites produced by chemical processes in the >> hydrogen as the dust falls like snow on the nickel micro particles >> >> The strength of the charge concentration is proportional to the smallness >> of the smallest nano-particle in the nanostructure aggregation. >> >> A nano-particle that is just a few hundred atoms in size will produce a >> huge electric field concentration. >> >> EMF concentration of up to 10 to the 15th power has been experimentally >> verified. This “secret sauce” mechanism may produce even higher levels of >> charge amplification. >> >> For example, in the high school tungsten reactor where tungsten >> nano-particle of random sizes is covered in a solution of potassium >> carbonate, that reactor produces a COP of 4. The potassium carbonate >> produces solid potassium nanodust that mixes with and sticks to the >> tungsten particles and it is this dust that forms the NAE in that reactor >> design. >> >> >
