In reply to Jones Beene's message of Sat, 16 May 2009 16:22:02 -0700 (PDT): Hi,
There is a large energy release when two hydrinos combine to form a molecule, hence I would not expect single deuterinos to remain long in a cathode, particularly given the ease with which they can migrate through the lattice. Once combined into a molecule, their external magnetic fields should largely cancel. [snip] > >In all of these explosions - if Mills CQM is even partially correct - the >gradual build-up of below ground state deuterium over time could be risky for >a 'runaway'. > >Perhaps that is one reason that BLP stays away from deuterium. (there are >other reasons) > >The lesson would be NOT to reuse either electrodes or heavy water between >sequential runs with deuterium, especially when they have been exposed to >electrolytes that might be catalytic (as defined by either Mills or de Geuss). > >Fractional deuterium would NOT simply degas from a metal with a magnetic >moment, as would ground state, even with applied heat - due to the extreme >magnetic field of the fractional species. Very high heat under high vacuum >might be required. > >Due the cost of Pd, there would certainly seem to be a temptation to reuse it >in some labs. Regards, Robin van Spaandonk http://rvanspaa.freehostia.com/Project.html
