Difference between revisions of "Emerging Physics For a Brerakthrough Thin-Film Electrolytic Cell Power Unit"
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− | Electrolytic cell experiments are described using cathodes coated with thin metallic films (order of 500 A, using variously Ni, Pd and Ti) in a flowing packed-bed electrolytic cell producting - 1 W/cc excess power. Measurements of nuclear isotopes produced in the films suggest a nuclear reaction origin for the heat. The characteristic "signatures" of the isotope array observed in these experiments are discussed, along with speculations about the reaction physics involved. | + | Electrolytic cell experiments are described using cathodes coated with thin metallic films (order of 500 A, using variously Ni, Pd and Ti) in a flowing packed-bed electrolytic cell producting - 1 W/cc excess power. Measurements of nuclear isotopes produced in the films suggest a nuclear reaction origin for the heat. The characteristic "signatures" of the isotope array observed in these experiments are discussed, along with speculations about the reaction physics involved. |
− | [[Category:New Energy]] | + | [[Category:Scientific Paper|emerging physics brerakthrough thin-film electrolytic cell power unit]] |
+ | |||
+ | [[Category:New Energy|emerging physics brerakthrough thin-film electrolytic cell power unit]] |
Latest revision as of 19:30, 1 January 2017
Scientific Paper | |
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Title | Emerging Physics For a Brerakthrough Thin-Film Electrolytic Cell Power Unit |
Author(s) | George H Miley |
Keywords | emerging physics, breakthrough, thin-film, electrolytic, cell power unit, x-rays, betas, cathodes |
Published | 1999 |
Journal | None |
Pages | 126-130 |
Abstract
Electrolytic cell experiments are described using cathodes coated with thin metallic films (order of 500 A, using variously Ni, Pd and Ti) in a flowing packed-bed electrolytic cell producting - 1 W/cc excess power. Measurements of nuclear isotopes produced in the films suggest a nuclear reaction origin for the heat. The characteristic "signatures" of the isotope array observed in these experiments are discussed, along with speculations about the reaction physics involved.