PARTICLE IMAGE VELOCIMETRY MEASUREMENTS IN A REPRESENTATIVE GAS-COOLED PRISMATIC REACTOR CORE MODEL: FLOW IN THE COOLANT CHANNELS AND INTERSTITIAL BYPASS GAPS

机译：代表性的气冷式棱镜反应堆核心模型中的颗粒图像测速：冷却剂通道中的流量和内部间隙

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Core bypass flow is one of the key issues with the prismatic Gas Turbine-Modular Helium Reactor, and it refers to the coolant that navigates through the interstitial passages between the graphite fuel blocks instead of traveling through the designated coolant channels. To determine the bypass flow, a double scale representative model was manufactured and installed in the Matched Index-of-Refraction flow facility; after which, stereo Particle Image Velocimetry (PIV) was employed to measure the flow field within. PIV images were analyzed to produce vector maps, and flow rates were calculated by numerically integrating the velocity field. It was found that the bypass flow varied between 6.9-15.8% for channel Reynolds numbers of 1,746 and 4,618 with a 6mm gap. The results were compared to computational fluid dynamic (CFD) pre-test simulations. When compared to these pretest calculations, the CFD analysis appeared to under predict the flow through the gap.

机译：堆芯旁通流是棱柱形燃气轮机-模块化氦反应堆的关键问题之一，它是指通过石墨燃料块之间的间隙通道而不是通过指定的冷却剂通道流动的冷却剂。为了确定旁路流量，制造了一个双比例代表模型，并将其安装在“匹配的折射率”流量设备中。之后，采用立体粒子图像测速技术（PIV）测量其中的流场。分析PIV图像以生成矢量图，并通过对速度场进行数值积分来计算流速。研究发现，通道雷诺数分别为1,746和4,618，间隙为6mm，旁路流量在6.9-15.8％之间变化。将结果与计算流体力学（CFD）的预测试模拟进行了比较。当与这些预测试计算进行比较时，CFD分析似乎不足以预测通过间隙的流量。

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《ASME international mechanical engineering congress and exposition》|2013年|1291-1299|共9页
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Thomas E. Conder; Richard S. Skifton; Ralph S. Budwig;
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1. Computational fluid dynamics analysis of core bypass flow and crossflow in a prismatic very high temperature gas-cooled nuclear reactor based on a two-layer block model [J] . Huhu Wang, Elvis Dominguez-Ontiveros, Yassin A. Hassan Nuclear Engineering and Design . 2014,第mara期

机译：基于两层模块模型的棱柱形极高温气冷核反应堆堆芯旁流和错流的计算流体动力学分析
2. Thermal analysis of prismatic gas-cooled reactor core under coolant channel blockage accidents [J] . Sung Nam Lee, Nam-il Tak, Min Hwan Kim, Annals of nuclear energy . 2014,第sepa期

机译：棱柱形气冷堆芯在冷却液通道堵塞事故下的热分析
3. VALIDATION OF NUMERICAL METHODS TO CALCULATE BYPASS FLOW IN A PRISMATIC GAS-COOLED REACTOR CORE [J] . NAM-IL TAK, MIN-HWAN KIM, HONG-SIK LIM, Nuclear engineering and technology . 2013,第6期

机译：计算气冷堆核中旁路流量的数值方法的验证
4. PARTICLE IMAGE VELOCIMETRY MEASUREMENTS IN A REPRESENTATIVE GAS- COOLED PRISMATIC REACTOR CORE MODEL: FLOW IN THE COOLANT CHANNELS AND INTERSTITIAL BYPASS GAPS [C] . Thomas E. Conder, Richard S. Skifton, Ralph S. Budwig ASME International Mechanical Engineering Congress and Exposition . 2013

机译：代表性气冷棱镜反应器核心模型中的粒子图像速度测量测量：冷却剂通道中的流动和间隙旁路间隙
5. Particle image velocimetry measurements in a representative gas-cooled prismatic reactor core model for the estimation of bypass flow. [D] . Conder, Thomas E. 2012

机译：在代表性的气冷棱柱形反应堆堆芯模型中的颗粒图像测速测量，用于估算旁路流量。
6. Micro-particle Image Velocimetry for Velocity Profile Measurements of Micro Blood Flows [O] . Katie L. Pitts, Marianne Fenech 2013

机译：用于微血流速度轮廓测量的微粒图像测速
7. CFD Analysis of Core Bypass Flow and Crossflow in the Prismatic Very High Temperature Gas-cooled Nuclear Reactor [O] . Wang Huhu 1985- 2013

机译：棱柱形超高温气冷核反应堆堆芯旁流和错流的CFD分析

PARTICLE IMAGE VELOCIMETRY MEASUREMENTS IN A REPRESENTATIVE GAS-COOLED PRISMATIC REACTOR CORE MODEL: FLOW IN THE COOLANT CHANNELS AND INTERSTITIAL BYPASS GAPS

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