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Conceptual core design and neutronics analysis for a space heat pipe reactor using a low enriched uranium fuel

Sung Hoon Choi, Sung Nam Lee, Chang Keun Jo, Chan Soo Kim

2021Nuclear Engineering and Design18 citationsDOIOpen Access PDF

Abstract

This study developed the conceptual core design of a 5kWth-class space heat pipe reactor that can be mounted on a launch vehicle and can be used on the lunar surface to continuously supply power in a space environment. It was designed to target the core of a nuclear reactor with a mass of less than 1200 kg, a height of less than 5 m, and a diameter of less than 2 m using low-enriched uranium fuel of less than 20 wt%. Studies were also carried out on reactor mass reduction and radiation shielding design for external devices. The design was developed for two types: a fast reactor using a U-7.5Mo fuel and a BeO reflector and an epi-thermal reactor using UO2 fuel rods, a ZrH1.5 moderator monolith/rods and a BeO reflector. Both types of reactors used high-assay low-enriched uranium (HALEU) with an enrichment of 19.5 wt% as fuel. By inserting the moderator rod inside the annular fuel, it was possible to achieve mass reduction of the reactor by softening the neutron spectrum and increasing the neutron utilization efficiency.

Topics & Concepts

Nuclear engineeringNuclear reactor coreNeutron transportNeutron poisonEnriched uraniumRodMaterials scienceSpent nuclear fuelNeutron moderatorResearch reactorUraniumNeutronElectromagnetic shieldingNuclear fuelNeutron temperatureNuclear physicsNeutron cross sectionEngineeringPhysicsComposite materialMedicineAlternative medicinePathologyMetallurgyNuclear reactor physics and engineeringNuclear Physics and ApplicationsNuclear Materials and Properties
Conceptual core design and neutronics analysis for a space heat pipe reactor using a low enriched uranium fuel | Litcius