The influence of graphite moderator density on the neutronic performance and fuel economy of a Molten Salt Reactor

Dwijayanto, R.A.P. and Khakim, A. and Zuhair, Z and Harto, A.W. (2024) The influence of graphite moderator density on the neutronic performance and fuel economy of a Molten Salt Reactor. Annals of Nuclear Energy, 196. ISSN 03064549

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Abstract

Typical thermal molten salt reactor (MSR) employs graphite as its neutron moderator, due to its chemical compatibility and low neutron absorption. It is not without issues, however, since graphite provides positive temperature feedback when the MSR is fueled with U-233. Reducing the graphite density can possibly ameliorate this issue, but at the cost of other neutronic parameters, such as fertile conversion into fissile nuclide, and fuel economy, such as fissile makeup cost. This study evaluates the influence of graphite moderator density on the neutronic performance and fuel economy of an MSR. Passive Compact Molten Salt Reactor (PCMSR) design was used as the MSR model. To evaluate the neutronic parameters, MCNP6.2 radiation transport code with ENDF/B-VII.0 neutron cross section library were used. The evaluated neutronic parameters were temperature coefficient of reactivity (TCR), kinetic parameters, and conversion ratio (CR). Meanwhile, the fuel economy evaluation comprised the initial fuel inventory cost and fissile makeup cost. From the calculation results, lowering graphite density remarkably improves TCR, but also decreased CR in a notable amount. While effective delayed neutron fraction (βeff) was not particularly affected, mean neutron generation time (�) was reduced in lower graphite density. Considering the fuel economy, initial fuel cost is not significantly affected, but the fissile makeup cost can be sensitive of graphite density. © 2023 Elsevier Ltd

Item Type: Article
Additional Information: cited By 0
Uncontrolled Keywords: Fuel economy; Fused salts; Moderators; Molten salt reactor; Neutron scattering; Neutrons; Temperature, Chemical compatibility; Conversion ratio; ENDF/B-VII.0; Graphite density; MCNP; Neutron moderators; Neutronics parameters; Neutronics performance; Temperature coefficient; Thermal, Graphite
Subjects: T Technology > TK Electrical engineering. Electronics Nuclear engineering
T Technology > TK Electrical engineering. Electronics Nuclear engineering > Nuclear engineering. Atomic power
Divisions: Faculty of Engineering > Nuclear and Physics Engineering Department
Depositing User: Arif Surachman
Date Deposited: 28 Aug 2024 03:23
Last Modified: 28 Aug 2024 03:23
URI: https://ir.lib.ugm.ac.id/id/eprint/17

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