Optimum Ratio of Coverings Thickness to the Diameter of the Fuel Core of the Dispersive Nuclear Fuel

Igor Shamanin; Sergei Bedenko; Ildar Gubaydulin

doi:10.4028/www.scientific.net/AMR.880.219

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Optimum Ratio of Coverings Thickness to the Diameter of the Fuel Core of the Dispersive Nuclear Fuel

Abstract:

As a result of the conducted calculation experiments, optimum ratio of thickness of coverings to the diameter of the fuel core of the dispersive nuclear fuel was determined. It provides maximum duration of the fuel operating periods. New information about parameters of internal block effect and resonance neutrons capture in a nuclear fuel in the energy range up to 100eV is received. The research has been carried out with the support of the Ministry of Education and Science of the Russian Federation, agreement № 14.B37.21.0473, 2012, August, 3rd.

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Periodical:

Advanced Materials Research (Volume 880)

Pages:

219-228

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.880.219

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Online since:

January 2014

Authors:

Igor Shamanin, Sergei Bedenko*, Ildar Gubaydulin

Keywords:

Capture, Doppler Effect, Internal Block Effect, Nuclear Fuel, Resonance, Thorium, Uranium

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References

[1] V.I. Boiko, V.N. Mesheryakov, I.V. Shamanin, etc., Perspective nuclear fuel cycles and reactors of new generation, Tomsk: Publishing house of TPU, (2005).

Google Scholar

[2] S.V. Bedenko, Features of radiation field of irradiated ceramic nuclear fuel. Neutron radiation of irradiated nuclear fuel. – Saarbrucken: LAP LAMBERT Academic Publishing GmbH & Co. KG, (2012).

Google Scholar

[3] I.V. Shamanin, V.I. Bulanenko, S.V. Bedenko, Neutron radiation field of different kinds of irradiated ceramic fuel. News of high schools. Nuclear power, 2010, 2, pp.97-103.

Google Scholar

[4] S.V. Bedenko, I.V. Shamanin, Neutron activity of the spent ceramic nuclear fuel. News of high schools. Physics, 2011, T. 54, pp.51-56.

Google Scholar

[5] S.V. Bedenko, F.V. Gnetkov, S.D. Kadochnikov, Dose characteristics of neutron field of different kinds of irradiation ceramic nuclear fuel. News of high schools. Nuclear power, 2010, 1, pp.6-12.

Google Scholar

[6] I.V. Shamanin, S.V. Bedenko, A.O. Pavluk, V.A. Lazko, Using of ORGEN-APR program for calculation of a isotope composition of spent nuclear fuel VVER-1000, reactor. News of TPU, 2010, T. 317, 4, pp.25-28.

Google Scholar

[7] I.V. Shamanin, The consequences caused by differences of structures of resonant area of capturing by 238U and 232Th nuclei, Alternative power and ecology, 2006, 11 (43), pp.47-53.

Google Scholar

[8] I.V. Shamanin, A.V. Godovih, Structure of a resonance region of capturing of 238U and 232Th nuclei and dependences of its parametres on temperature, News of TPU, 2006, T. 309, 5. –pp.49-56.

Google Scholar

[9] I.V. Shamanin, S.V. Bedenko, A.V. Godovih, Effect of thin structure of a resonance region of neutron absorption by 232Th and 238U on efficiency of nuclear fuel using, News of high schools" Physics, Tomsk, 2012, pp.367-372.

Google Scholar