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Multidisciplinary Simulation of Graphite-Composite and Cermet Fuel Elements for NTP Point of Departure Designs.

机译：用于NTp离点设计点的石墨复合材料和金属陶瓷燃料元件的多学科模拟。

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This paper compares the expected performance of two Nuclear Thermal Propulsion fuel types. High fidelity, fluid/thermal/structural + neutronic simulations help predict the performance of graphite-composite and cermet fuel types from point of departure engine designs from the Nuclear Thermal Propulsion project. Materials and nuclear reactivity issues are reviewed for each fuel type. Thermal/structural simulations predict thermal stresses in the fuel and thermal expansion mis-match stresses in the coatings. Fluid/thermal/structural/neutronic simulations provide predictions for full fuel elements. Although NTP engines will utilize many existing chemical engine components and technologies, nuclear fuel elements are a less developed engine component and introduce design uncertainty. Consequently, these fuel element simulations provide important insights into NTP engine performance.

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作者
Stewart, M. E.; Schnitzler, B. G.;
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年度 2015
页码 1-11
总页数 11
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Chemical composition; Nuclear fuel elements; Graphite; Nuclear propulsion; Performance prediction; Reactivity; Ceramic nuclear fuels; Thermal stresses; Thermal simulation; Thermal expansion; Simulation; Engine parts;

机译：化学成分;核燃料元件;石墨;核推进;性能预测;反应性;陶瓷核燃料;热应力;热模拟;热膨胀;模拟;发动机零件;

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专利

1. SCCTE: An LEU NTP Concept with Tungsten Cermet Fuel [J] . Michael Eades, Wesley Deason, Vishal Patel Transactions of the American nuclear society . 2015,第pta1期

机译：SCCTE：使用钨金属陶瓷燃料的LEU NTP概念
2. THERMIONIC FUEL ELEMENT WITH CERMET FUEL [J] . Gontar A. S., Nelidov M. V., Sotnikov V. N. Atomic Energy . 2018,第6期

机译：含金属陶瓷的热燃料元件
3. Toward an In-Depth Material Model for Cermet Nuclear Thermal Rocket Fuel Elements [J] . William C. Tucker, Piyas Chowdhury, Lauren J. Abbott, Nuclear Technology . 2021,第6期

机译：朝着金属陶瓷核热火箭燃料元件的深度材料模型
4. Multidisciplinary Simulation of Graphite-Composite and Cermet Fuel Elements for NTP Point of Departure Designs [C] . Mark E. M. Stewart, Bruce G. Schnitzler AIAA space and astronautics forum and exposition . 2015

机译：NTP出发点设计的石墨复合材料和金属陶瓷燃料元件的多学科模拟
5. Cermet anodes for solid oxide fuel cells (SOFC) systems operating in multiple fuel environments: Effects of sulfur and carbon composition as well as microstructure. [D] . O'Brien, Julie Suzanne. 2012

机译：在多种燃料环境中运行的固体氧化物燃料电池（SOFC）系统的金属陶瓷阳极：硫和碳的组成以及微观结构的影响。
6. Effects of V and Co Element Addition on Microstructures and the Mechanical Properties of In Situ Biphasic Hybrid (TiCxNy–TiB2)/Ni Cermets [O] . Feng Qiu, Xiangzheng Duan, Xiujuan Li, 2018

机译：钒和钴元素添加对原位双相混合体（TiCxNy–TiB2）/ Ni金属陶瓷的组织和力学性能的影响
7. A New Innovative Spherical Cermet Nuclear Fuel Element to Achieve an Ultra-Long Core Life for use in Grid-Appropriate LWRs [O] . Senor, David J., Painter, Chad L., Geelhood, Ken J., 2007

机译：一种新型球形金属陶瓷核燃料元件，可实现超长铁芯寿命，适用于电网适当的轻水堆

Multidisciplinary Simulation of Graphite-Composite and Cermet Fuel Elements for NTP Point of Departure Designs.

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