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Theoretical prerequisites for creating cold fusion reactor
Категория: Энергетика |
Новость от: admin |
23-07-2014
UDK 539.172.12/.16 + 539.172.13
David Davidyan, Igor Danilov, Rafael Tumanyan, Vanush Davtyan
E-mail: serg55@yahoo.com Skype: serg.davtyan
The paper proposes a theoretical model which explains the energy output in cold fusion reactions, while using nickel and copper. The technique, presented by the authors, allows to determine what other isotopes of chemical elements can be used to optimize the energy output. The results can be used to create a source of energy for industrial purposes.
Cold fusion is considered by the example of metal Ni and Cu.
Ni + p (proton) + Ea = isotope Cu + γ (photon), unstable isotope decays with energy release.
Where there is Ea - the activation energy is necessary to penetrate proton into the nucleus of nickel, γ (photon) - radiation associated with the restructuring of the nucleus.
Natural Nickel contains 5 stable isotopes:
58Ni (68.27 %),
60Ni (26.10 %),
61Ni (1.13 %),
62Ni (3.59 %),
64Ni (0.91 %).
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