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Neutronic analysis of PROMETHEUS reactor fueled with various compounds of thorium and uranium
Affiliation:1. Erciyes Üniversitesi, Mühendislik Fakültesi, 38039 Kayseri, Turkey;2. Gazi Üniversitesi, Teknik Eǧitim Fakültesi, Ankara, Turkey;3. Bahçeşehir Üniversitesi, Fen-Edebiyat Fakültesi, İstanbul, Turkey;1. Key Laboratory of Mechanics on Disaster and Environment in Western China Attached to the Ministry of Education of China, PR China;2. Department of Mechanics and Engineering Sciences, College of Civil Engineering and Mechanics, Lanzhou University, Lanzhou, Gansu 730000, PR China;3. Lanzhou Urban Construction Design Institute, Lanzhou, Gansu 730000, PR China;1. Key Laboratory of Magnetic Levitation Technologies and Maglev Trains (Ministry of Education), Superconductor and New Energy R&D Center, Mail Stop 165#, Southwest Jiaotong University, Chengdu, 610031, China;2. Northwest Institute for Nonferrous Metal Research, Xi’an, 710016, China
Abstract:In this study, neutronic performance of the DT driven blanket in the PROMETHEUS-H (heavy ion) fueled with different fuels, namely, ThO2, ThC, UO2, UC, U3Si2 and UN is investigated. Helium is used as coolant, and SiC is used as cladding material to prevent fission products from contaminating coolant and direct contact fuel with coolant in the blanket. Calculations of neutronic data per DT fusion neutron are performed by using SCALE 4.3 Code. M (energy multiplication factor) changes from 1.480 to 2.097 depending on the fuel types in the blanket under resonance-effect. M reaches the highest value in the blanket fueled with UN. Therefore, the investigated reactor can produce substantial electricity in situ. UN has the highest value of 239Pu breeding capability among the uranium fuels whereas UO2 has the lowest one. 239Pu production ratio changes from 0.119 to 0.169 according to the uranium fuel types, and 233U production values are 0.125 and 0.140 in the blanket fueled with ThO2 and ThC under resonance-effect, respectively. Heat production per MW (D,T) fusion neutron load varies from 1.30 to 7.89 W/cm3 in the first row of fissile fuel breeding zone depending on the fuel types. Heat production attains the maximum value in the blanket fueled with UN. Values of TBR (tritium breeding ratio) being one of the most important parameters in a fusion reactor are greater than 1.05 for all type of fuels so that tritium self-sufficiency is maintained for DT fusion driver. Values of peak-to-average fission power density ratio, Γ, are in the range of 1.390 and ∼1.476 depending on the fuel types in the blanket. Values of neutron leakage out of the blanket for all fuels are quite low due to SiC reflector. The maximum neutron leakage is only ∼0.025. Consequently, for all cases, the investigated reactor has high neutronic performance and can produce substantial electricity in situ, fissile fuel and tritium required for (D,T) fusion reaction.
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