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Analytical and numerical performance models of a Heisenberg Vortex Tube

机译：Heisenberg Vortex管的分析和数值性能模型

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Analytical and numerical investigations of a Heisenberg Vortex Tube (HVT) are performed to estimate the cooling potential with cryogenic hydrogen. The Ranque-Hilsch Vortex Tube (RHVT) is a device that tangentially injects a compressed fluid stream into a cylindrical geometry to promote enthalpy streaming and temperature separation between inner and outer flows. The HVT is the result of lining the inside of a RHVT with a hydrogen catalyst. This is the first concept to utilize the endothermic heat of para-orthohydrogen conversion to aid primary cooling. A review of 1st order vortex tube models available in the literature is presented and adapted to accommodate cryogenic hydrogen properties. These first order model predictions are compared with 2-D axisymmetric Computational Fluid Dynamics (CFD) simulations.

机译：进行Heisenberg Vortex管（HVT）的分析和数值研究以估计低温氢的冷却电位。 RANQUE-HILSCH涡旋管（RHVT）是将压缩的流体流反射到圆柱形几何形状中以促进内部和外部流动之间的焓流和温度分离的装置。 HVT是用氢催化剂在RHVT内部衬里的结果。这是利用对邻氨酸转化的吸热热的第一概念，以帮助初级冷却。提出了文献中可用的1阶涡旋管型号的综述，适于适应低温氢性能。将这些第一阶模型预测与二维轴对称计算流体动力学（CFD）仿真进行比较。

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《Cryogenic Engineering Conference》|2018年|763-1537 p.|共8页
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C D Bunge; K A Cavender; K I Matveev;
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1. Numerical CFD analysis and experimental investigation of the geometric performance parameter influences on the counter-flow Ranque-Hilsch vortex tube (C-RHVT) by using optimized turbulence model [J] . Bazgir Adib, Khosravi-Nikou Mohammadreza, Heydari Ali Heat and mass transfer . 2019,第9期

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2. Numerical CFD analysis and experimental investigation of the geometric performance parameter influences on the counter-flow Ranque-Hilsch vortex tube (C-RHVT) by using optimized turbulence model [J] . Bazgir Adib, Khosravi-Nikou Mohammadreza, Heydari Ali Heat and mass transfer . 2019,第9期

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Analytical and numerical performance models of a Heisenberg Vortex Tube

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