A NUMERICAL INVESTIGATION OF THE THERMAL-HYDRAULICS OF THE HELIUM-COOLED MODULAR DIVERTOR WITH MULTIPLE JETS

Zhao B.; Mills B. H.; Abdel-Khalik S. I.; Yoda M.

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A NUMERICAL INVESTIGATION OF THE THERMAL-HYDRAULICS OF THE HELIUM-COOLED MODULAR DIVERTOR WITH MULTIPLE JETS

机译：具有多个喷嘴的氦冷却模块化分流器的热力学数值研究

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Three-dimensional numerical simulations of a test section modeling a single module of the helium-cooled modular divertor with multiple jets (HEMJ) design were performed to complement experimental studies at nearly prototypical conditions as part of the joint US-Japan effort on plasma-facing components evaluation by tritium plasma, heat, and neutron irradiation experiments (PHENIX). The Spalart-Allmaras turbulence model gave numerical predictions of the cooled surface temperature that were in good agreement with experimental estimates from a new helium loop. The simulations showed that spatial variations in incident heat flux, at least in the form of a Gaussian function, had a negligible effect on cooled surface temperatures.

机译：作为美日联合开展的面向等离子工作的一部分，对测试截面进行了三维数值模拟，该截面模拟了具有多喷嘴（HEMJ）设计的氦冷却模块化偏滤器的单个模块，以补充在近似原型条件下的实验研究通过plasma等离子体，热和中子辐照实验（PHENIX）评估成分。 Spalart-Allmaras湍流模型给出了冷却表面温度的数值预测，该数值预测与来自新氦回路的实验估算值非常吻合。模拟表明，入射热通量的空间变化（至少呈高斯函数形式）对冷却表面温度的影响可忽略不计。

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《Fusion Science and Technology》 |2015年第3期|561-565|共5页
作者
Zhao B.; Mills B. H.; Abdel-Khalik S. I.; Yoda M.;
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Georgia Inst Technol, George W Woodruff Sch Mech Engn, Atlanta, GA 30332 USA;

Georgia Inst Technol, George W Woodruff Sch Mech Engn, Atlanta, GA 30332 USA;

Georgia Inst Technol, George W Woodruff Sch Mech Engn, Atlanta, GA 30332 USA;

Georgia Inst Technol, George W Woodruff Sch Mech Engn, Atlanta, GA 30332 USA;

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2. Experimental and numerical studies of helium-cooled modular divertors with multiple jets [J] . Bailey Zhao, Shekaib Musa, Said Abdel-Khalik, Fusion Engineering and Design . 2018,第PTaA期

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7. GEOMETRICAL EFFECTS ON THERMAL-HYDRAULIC PERFORMANCE OF A MULTIPLE JET IMPINGEMENT COOLING SYSTEM IN A DIVERTOR OF NUCLEAR FUSION REACTOR [O] . H.Y. Jung, K.Y. Kim 2017

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A NUMERICAL INVESTIGATION OF THE THERMAL-HYDRAULICS OF THE HELIUM-COOLED MODULAR DIVERTOR WITH MULTIPLE JETS

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