The hydrogen (H) is packed to form a hydride before the heat is applied and it will penetrant only a short way into the bulk of the micro-particle. ***Then how do they achieve a high D/Pd ratio? How many Hydrogen atoms can fit into a Pd box?
On Thu, Feb 14, 2013 at 11:58 PM, Axil Axil <janap...@gmail.com> wrote: > I was thinking about the Rossi type reactor and NiH system, but the > principle is the same for the Palladium system. > > The hydrogen (H) is packed to form a hydride before the heat is applied > and it will penetrant only a short way into the bulk of the micro-particle. > > When the particle is heated, charge separation will occur, the electron > will be stripped from some of the H, and that hydrogen will be ionized > leaving these protons in the bulk. Then the high negative charge at the > surface will draw the protons outward toward the surface. > > Remember that the proton will be attracted to the positive nucleus as > happens in cooper pair production because of the negative permeability > coefficient of the particle’s surface charge ( the Shukla-Eliasson effect). > > > > Cheers: Axil > > On Fri, Feb 15, 2013 at 2:15 AM, Kevin O'Malley <kevmol...@gmail.com>wrote: > >> >> >> In the balloon analogy, all the balloons will be drawn to the surface just >> under the top of the particle’s bulk. >> ***How is that? In the balloon analogy, the tinker toys represent the >> palladium lattice and the balloons represent Hydrogen atoms. There hasn't >> been indication that hydrogen atoms migrate to the surface, has there? >> > >