Robert E. Godes claims theory and device for .1 MHz AC to drive H2O electrolysis next to Ni or Pd [ wires?], so protons become 4 neutron particles and then He with heat, no local lattice damage, no radiation, no radioactives, 200 C, 129 atm pressure: Rich Murray 2011.02.07
Michael McKubre is on his board -- his site claims their unit is now being tested by SRI. He offers theory and a device to apply ~100,000 Hz high amperage AC to drive H2O into electrolysis next to Ni or Pd, causing protons to capture electrons to form four-neutron particles that are stable enough for just long enough to convert into Helium 4, releasing oodles of energy in the surface of the metal as heat without any radiation or radioactive nucei, and no damage to the lattice reaction sites -- but recent tests show excess power of +23.5% to usually 14-15% to as low as -1%, with electric energy inputs of 100-200 W range, 200 degrees C and up to 1900 psi steam pressure [ 129 atmospheres ], durations of hours to days. Recombination prevents accumulation or venting of the H2 and O2 inside the device. Far better than Rossi ? from Robert Godes <h...@brillouinenergy.com> to Rich Murray <rmfor...@gmail.com>, h-ni_fus...@yahoogroups.com, date Sun, Feb 6, 2011 at 5:54 PM subject Re: [H-Ni_Fusion] Re: failures of H-Ni cold fusion tests with water cooling -- possible heat and O2 and H2 release via electrolysis by up to 220 V AC from shorts and deposited metals with danger of shocks and explosions: Rich Murray 2011.02.05 5:54 PM (18 hours ago) You can see some Early Phase 2 Data on the website. We are improving the system and expect to have something industrially useful down the line. Our technology begins producing heat when you turn it on but like all boilers the system must heat up before you can extract useful energy. I suspect we have greater control over the heat production than Rossi & Co. do and ours is intrinsically safe. If you loose coolant the Brillouin Energy system is limited in how hot it gets before it stops loading. Worst case requires replacing a rupture disk and some electrolyte. If you loose power the reaction just stops when you stop driving it. If you are interested in what drives the reaction there is a paper / Hypothesis that has been reviewed by multidisciplinary groups at MIT labs, Amherst, kilpatrick townsend and several other Ph.D's. LISTEN to the power point at http://www.brillouinenergy.com/BE25Tec.PPS at least once before reading http://www.brillouinenergy.com/GodesIE82.pdf [ 9 pages ] [ see also 13 pages, Initial and Preliminary Findings Brillouin Phase II Data December 24, 2010 brillouinenergy.com/Brillouin_Second_Round_Data.pdf ] Best regards, Robert E. Godes President and Chief Technology Officer Brillouin Energy Corp. V (510) 821-1432 F (510) 280-3137 This message is intended only for the use of the individual or entity to which it is addressed and may contain information that is privileged, confidential, and/or exempt from disclosure by applicable law or court order. If the reader of this message is not the intended recipient, or the employee or agent responsible for delivering the message to the intended recipient, please do not use, disseminate, distribute, or copy this communication. If you have received this communication in error, please notify us immediately by return e-mail at the above address. Please also delete all copies of this message from your computer system. We appreciate your consideration.