CFD analysis of operating condition effects on optimum nozzle exit position of a supersonic ejector using the refrigerant R134a

A. Hadj; M. Boulenouar

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CFD analysis of operating condition effects on optimum nozzle exit position of a supersonic ejector using the refrigerant R134a

机译：使用制冷剂R134A对超音速喷射器的最佳喷嘴出口位置的操作条件效应的CFD分析

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In this work, the computational fluid dynamics technique is employed to study operating condition effects on the optimum value of an important parameter called the nozzle exit position (NXP) for an ejector design. This ejector uses the gas R134a as the working fluid. Numerical tests are carried out using a combination of the REFPROP 7.0 database state equation and the high-Reynolds version of the SST k-ω model. Good agreement in terms of entrainment ratio and critical temperature is obtained between computed values and measurements. In addition, numerical results indicate that the optimum NXP maximizes ejector performance and is highly dependent on operating conditions.

机译：在这项工作中，采用计算流体动力学技术研究了用于喷射器设计的喷嘴出口位置（NXP）的重要参数的最佳值的操作条件效应。该喷射器使用气体R134a作为工作流体。使用SST K-Ω模型的Refprop 7.0数据库状态方程和高雷诺版本的组合进行数值测试。在计算值和测量之间获得夹带比和临界温度的良好一致性。此外，数值结果表明最佳NXP最大化喷射器性能，并且高度依赖于操作条件。

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来源
《Oceanographic Literature Review 》 |2021年第6期| 1411-1411| 共1页
作者
A. Hadj; M. Boulenouar;
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Laboratoire des Sciences et Ingenierie Maritime (LSIM) Department of Maritime Engineering Faculty of Mechanical Engineering El Mnaouar BP 1505 Bir El Djir USTO Oran 31000 Algeria;

Laboratoire des Sciences et Ingenierie Maritime (LSIM) Department of Maritime Engineering Faculty of Mechanical Engineering El Mnaouar BP 1505 Bir El Djir USTO Oran 31000 Algeria;

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1. A cylindrical mixing chamber ejector analysis model to predict the optimal nozzle exit position [J] . Hongjie Chen, Jiahua Zhu, Jing Ge, Energy . 2020 ,第Octa1期

机译：圆柱形混合室喷射器分析模型，以预测最佳喷嘴出口位置
2. Experimental investigation of the characteristics of a jet-ejector and a jet-ejector cooling system operating with R134a as a refrigerant [J] . Zegenhagen M. T., Ziegler F. International Journal of Refrigeration . 2015 ,第Null期

机译：以R134a作为制冷剂运行的喷射器和喷射器冷却系统特性的实验研究
3. Computational fluid dynamics simulation of the supersonic steam ejector. Part 2. Optimal design of geometry and the effect of operating conditions on the ejector [J] . L. Cai, H. T. Zheng, Y. J. Li, Proceedings of the Institution of Mechanical Engineers, Part C. Journal of mechanical engineering science . 2012 ,第3期

机译：超音速蒸汽喷射器的计算流体动力学仿真。第2部分。几何形状的最佳设计以及工作条件对喷射器的影响
4. CFD study on the optimal nozzle exit position in a CO_2 two-phase ejector [C] . Yang He, Jianqiang Deng, Zaoxiao Zhang, International Institute of Refrigeration;IIR International congress of refrigeration;Ministry of Economy, Trade and Industry;Ministry of Agriculture, Forestry and Fisheries . 2015

机译：CFD研究CO_2两相喷射器的最佳喷嘴出口位置
5. Design and analysis of an axisymmetric aerospike supersonic micro-nozzle for a refrigerant-based cold-gas propulsion system for small satellites. [D] . Bani, Abdalla Ali. 2016

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6. Investigation of the Effects of Length to Depth Ratio on Open Supersonic Cavities Using CFD and Proper Orthogonal Decomposition [O] . Ibrahim Yilmaz, Ece Ayli, Selin Aradag 2013

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7. CFD Analysis of Nozzle Exit Position Effect in Ejector Gas Removal System in Geothermal Power Plant [O] . Setyo Nugroho, Ciptananda Citrahardhani 2015

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8. Quadrant CFD Analysis of a Mixer-Ejector Nozzle for HSCT Applications [R] . Yoder, D. A. , Georgiadis, N. J. , Wolter, J. D. 2005

机译：用于HsCT应用的混合器 - 喷射器喷嘴的象限CFD分析

CFD analysis of operating condition effects on optimum nozzle exit position of a supersonic ejector using the refrigerant R134a

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