Study of helium cooled fast reactor core design fuelled by thorium carbide-uranium carbide with modified candle axial direction scheme

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Abstract

Human need of energy will increase time to time. Therefore, a safe, renewable, and efficient source of energy, which is Nuclear Energy, is needed. Nuclear Power Plant (NPP) is the most compatible solution to provide electricity to human race in the future. The problem that came within NPP is the danger of proliferation issues. The method that has been developed to overcome this problem is CANDLE [5] and has been modified by Prof. Zaki Su’ud (Modified CANDLE scheme). This research use Axial Modified CANDLE Scheme to Helium-Cooled Fast Reactor with Natural Uranium Carbide-Thorium Carbide as fuel and applied to various size of core as optimization. Neutronic aspect such as, burn up level, multiplication factor, and conversion ratio are utilized in this paper in order to analyse the behaviour of the reactor. Other than that, percentage of Uranium has been varied to reduce power peaking. The neutronic calculation has been done using SRAC and core design calculation by FI-ITB-CH1. This research concludes that power peaking reduction is able to achieve by combining Uranium Carbide and Thorium Carbide to the fuel. The optimum reactor design reached at 360 cm of core radius and 303 cm of core height.

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APA

Su’ud, Z., Galih, N. R., & Ariani, M. (2021). Study of helium cooled fast reactor core design fuelled by thorium carbide-uranium carbide with modified candle axial direction scheme. In Journal of Physics: Conference Series (Vol. 2072). IOP Publishing Ltd. https://doi.org/10.1088/1742-6596/2072/1/012002

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