Vol. 9, no.1, 2017
РусскийEnglish

NUCLEAR PHYSICS



NICKEL-HYDROGEN REACTORS: HEAT GENERATION, ISOTOPIC AND ELEMENTAL COMPOSITION OF FUEL
Alexander G. Parkhomov, Sergey N. Zabavin, Timur R. Timerbulatov
Experimental-design laboratory "K.I.T."
Moscow 121108 Russian Federation
alexparh@mail.ru, sergeyzabavin@gmail.com, konfi1@konfi.ru
Kirill A. Alabin, Stepan N. Andreev
Prokhorov General Physics Institute of the Russian Academy of Sciences, http://www.gpi.ru
Moscow 119991 Russian Federation
alabin.kirill@gmail.com, naukagpi@yandex.ru
Alexander G. Sobolev
Lebedev Physical Institute of the Russian Academy of Sciences, http://www.lebedev.ru
Moscow 119991 Russian Federation
asob09@gmail.com

Received 19.06.2017
Abstract. At the interaction of hydrogen with a number of metals, including Nickel, are observed not only mechanical and chemical changes, but also such extraordinary phenomena as the anomalously large heat generation and the change in isotopic and elemental composition. An overview of experiments that explore these phenomena is presented. Also the results of analysis of the isotopic and elemental composition of the fuel and substances near the active zone of nickel-hydrogen reactors before and after work with the production of excess energy to 790 MJ are presented. Reliable changes in the isotopic composition of nickel and lithium are not detected. A significant increase in the concentration of impurities of a number of nuclides discovered, not only in fuel but also in structural elements adjacent to the active zones of reactors.

Keywords: hydrogen, nickel, heat generation, isotopic composition, radiation

UDC 53.043

RENSIT, 2017, 9(1):74-93 DOI: 10.17725/rensit.2017.09.074

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