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NMB4.0: development of integrated nuclear fuel cycle simulator from the front to back-end

Tomohiro Okamura, Ryota Katano, Akito Oizumi, Kenji Nishihara, Masahiko Nakase, Hidekazu Asano, Kenji Takeshita

2021EPJ Nuclear Sciences & Technologies13 citationsDOIOpen Access PDF

Abstract

Nuclear Material Balance code version 4.0 (NMB4.0) has been developed through collaborative R&D between TokyoTech&JAEA. Conventional nuclear fuel cycle simulation codes mainly analyze actinides and are specialized for front-end mass balance analysis. However, quantitative back-end simulation has recently become necessary for considering R&D strategies and sustainable nuclear energy utilization. Therefore, NMB4.0 was developed to realize the integrated nuclear fuel cycle simulation from front- to back-end. There are three technical features in NMB4.0: 179 nuclides are tracked, more than any other code, throughout the nuclear fuel cycle; the Okamura explicit method is implemented, which contributes to reducing the numerical cost while maintaining the accuracy of depletion calculations on nuclides with a shorter half-life; and flexibility of back-end simulation is achieved. The main objective of this paper is to show the newly developed functions, made for integrated back-end simulation, and verify NMB4.0 through a benchmark study to show the computational performance.

Topics & Concepts

NuclideBenchmark (surveying)Nuclear fuel cycleFlexibility (engineering)Computer scienceSpent nuclear fuelNuclear engineeringCode (set theory)Fuel cycleNuclear dataFront and back endsSimulationEnvironmental scienceNuclear physicsEngineeringPhysicsGeologyNeutronStatisticsProgramming languageGeodesyMathematicsSet (abstract data type)Operating systemNuclear reactor physics and engineeringNuclear Materials and PropertiesNuclear and radioactivity studies
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