Heat transfer to a heavy liquid metal in curved geometry: Code validation and CFD simulation for the MEGAPIE lower target

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Heat transfer to a heavy liquid metal in curved geometry: Code validation and CFD simulation for the MEGAPIE lower target

机译：传热到弯曲几何形状的重液态金属：MEGAPIE下目标的代码验证和CFD模拟

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The ESS and SINQ Heat Emitting Temperature Sensing Surface (HETSS) mercury experiments have been used to validate the Computational Fluid Dynamics (CFD) code CFX-4 employed in designing the lower region of the international liquid-metal cooled MEGAPIE target, to be installed at SINQ PSI, in 2006. Conclusions were drawn on the best turbulence models and degrees of mesh refinement to apply, and a new CFD model of the MEGAPIE geometry was made, based on the CATIA CAD design of the exact geometry constructed. This model contained the fill and drain tubes as well as the bypass feed duct, with the differences in relative vertical length due to thermal expansion being considered between these tubes and the window.

机译：ESS和SINQ散热温度传感表面（HETSS）汞实验已用于验证计算流体动力学（CFD）代码CFX-4，该代码用于设计要安装在以下位置的国际液态金属冷却MEGAPIE目标的下部区域SINQ PSI，2006年。得出了最佳湍流模型和适用的网格细化度的结论，并基于所构建精确几何体的CATIA CAD设计，制作了MEGAPIE几何体的新CFD模型。该模型包含填充管和排放管以及旁路供料管，并考虑了由于这些管和窗户之间的热膨胀而导致的相对垂直长度的差异。

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《Nuclear Instruments & Methods in Physics Research. Section A, Accelerators, Spectrometers, Detectors and Associated Equipment》 |2006年第2期|p. 859-862|共4页
作者
Dury TV;
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作者单位

Paul Scherrer Inst, Thermal Hydraul Lab, Nucl Energy & Safety Dept, CH-5232 Villigen, Switzerland;

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原文格式 PDF
正文语种 eng
中图分类计量学;
关键词
spallation targets; SINQ; MEGAPIE; curved surface heat trasfer; CFD simulation; CFX-4 code validation;

机译：散裂目标;SINQ;MEGAPIE;曲面传热;CFD模拟;CFX-4代码验证;

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Heat transfer to a heavy liquid metal in curved geometry: Code validation and CFD simulation for the MEGAPIE lower target

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