Steady State Temperature Distribution Calculation in BN-350 Reactor Fuel Rod


  • Jamal M. Rashid College of Science, University of Sulaimani, Kurdistan Region, Iraq. Author



Temperature distribution, BN-350 reactor


The steady state temperature distribution in one dimension for BN-350 reactor fuel rod has been calculated via solving heat conduction equation numerically. The calculations covers the case of constant and variable heat transfer coefficient considering different heat flux and inlet reactor core temperature. The obtained results at average heat flux and core inlet temperature have been compared with reported results, it is found that these results could be a good references for reactor designing and for reactor safety processes when compared with higher values of material melting points.


Glasstone, S. and Sensoske, A., “Nuclear Reactor Engineering”,Van Nostrand Reinhold Company, 3rd Edition, 1981.

الباهی، عامد معیدی " تکنولوجیا الحرارة، المنشات النوویة" ج٢ هیئة المعاهد الفنیة، بغداد العراق ١٩٩٢

IAEA, “ Directory of Nuclear Reactors”, volt, v11, 1968

James L.Buchanan and Peter R.Turner, “ Numerical Methods and analysis”, Newyork MacGraw-Hill, 1992.

M.M.E1-Wakil , “ Nuclear Power Engineering”, MacGraw-Holl, 1962.

Al-Bahili, H.M. and Radhi, I.A., “ Thermal design for WWER-440 reactor”, IAEC,1992.

حنون، علی " مفاعلات البحث الحدیثة - الخصائص التصمیمیة و قضایا الامان" مجلة عالم الذرة، هیئة الطاقة الذریة السوریة - العدد ٥٦ السنة عشرة ٠ تموز / اب ١٩٩٨.

Sa’eed, G.K., “Temperature distribution calculations in power reactor fuel rod”, Baghdad Univ., College of Science, 1986.

Alan E.Walter, and Albert B.Rynolds, “ Fast Breeder Reactors”, Pergamon Press, 1981.

C.I.M.E., “Numberical Methods in fluid dynamics” New York, edited by F. Brezzi, 1985.

J.R. Lamarsh, “ Introduction to Nuclear Engineering”, Addison— Wesly Publishing Company Inc. 1977. DOI:






How to Cite

Steady State Temperature Distribution Calculation in BN-350 Reactor Fuel Rod. (2001). Journal of Zankoy Sulaimani - Part A, 5(1), 43-50.

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