Experimental investigation for thermal performance of series and parallel Ranque-Hilsch vortex tube systems

被引:38
作者
Attalla, M. [1 ]
Ahmed, Hany [2 ]
Ahmed, M. Salem [3 ]
El-Wafa, A. Abo [4 ]
机构
[1] South Valley Univ, Fac Engn, Dept Mech Engn, Qena 83521, Egypt
[2] Asuit Univ, Fac Engn, Dept Mech, Asuit, Egypt
[3] Sohag Univ, Fac Ind Educ, Dept Mech, Sohag, Egypt
[4] Qarun Petr Co, Cairo, Egypt
关键词
Ranque-Hilsch; Vortex tube; Series and parallel; Coefficient of performance; Cold mass fraction; Temperature difference; ENERGY SEPARATION PERFORMANCE; DIVERGENT HOT TUBE; NOZZLE NUMBER; FLOW; REFRIGERATOR; PARAMETERS;
D O I
10.1016/j.applthermaleng.2017.05.084
中图分类号
O414.1 [热力学];
学科分类号
摘要
The present study investigated experimentally the cooling and heating performance of two identical counter flow vortex tubes arranged in-series (VTS) and parallel (VTP). The vortex tube used has general specifications of: aspect ratio AR = 1.6, hot tube length L = 112.5 mm, hot tube inner diameter D = 7.5 mm, cold end diameter d(c) = 5 mm, and generator of three nozzles, N = 3. Dry air is used as a working fluid with different inlet air pressures adjusted from 2 to 6 bars. The experimental results revealed that the maximum cold temperature difference occurred at the inlet air pressure of 6 bars and cold mass fraction of 0.4 for both VTS and VTP systems. The conducted results demonstrated that the values of COPref for VTS system were higher than the values of VTP system. However, the VTP yielded higher values of COPHP over the range of investigation. The VTS system improved the COPref by 22.5% and 31.5% compared with the VTP and the single vortex tube system (VTO), respectively. For the case of VTP system, the COPHP is enhanced by 18.2% and 27.3% than VTS and VTO, respectively. (C) 2017 Elsevier Ltd. All rights reserved.
引用
收藏
页码:327 / 339
页数:13
相关论文
共 50 条
[21]   Computational investigation of precessing vortex breakdown and energy separation in a Ranque-Hilsch vortex tube [J].
Guo, Xiangji ;
Zhang, Bo .
INTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE DU FROID, 2018, 85 :42-57
[22]   AN INVESTIGATION OF THE EFFECT OF THE HOT END PLUGS ON THE EFFICIENCY OF THE RANQUE-HILSCH VORTEX TUBE [J].
Arjomandi, Maziar ;
Xue, Yunpeng .
JOURNAL OF ENGINEERING SCIENCE AND TECHNOLOGY, 2007, 2 (03) :211-217
[23]   Numerical investigation of transient thermo-fluid processes in a Ranque-Hilsch vortex tube [J].
Mirjalili, M. ;
Ghorbanian, K. .
INTERNATIONAL JOURNAL OF REFRIGERATION, 2021, 131 :746-755
[24]   Experimental investigation of Ranque-Hilsch vortex tube and techno - Economical evaluation of its industrial utility [J].
Thakare, Hitesh R. ;
Parekh, Ashok D. .
APPLIED THERMAL ENGINEERING, 2020, 169
[25]   Using artificial neural network for predicting performance of the Ranque-Hilsch vortex tube [J].
Korkmaz, Murat Eray ;
Gumusel, Levent ;
Markal, Burak .
INTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE DU FROID, 2012, 35 (06) :1690-1696
[26]   Fluid properties impact on energy separation in Ranque-Hilsch vortex tube [J].
Alsaghir, Ahmad ;
Hamdan, Mohammad O. ;
Orhan, Mehmet F. .
SN APPLIED SCIENCES, 2022, 4 (08)
[27]   Optimization of Ranque-Hilsch vortex tube performances via Taguchi method [J].
Gokce, Huseyin .
JOURNAL OF THE BRAZILIAN SOCIETY OF MECHANICAL SCIENCES AND ENGINEERING, 2020, 42 (11)
[28]   Experimental and numerical study of the gas-gas separation efficiency in a Ranque-Hilsch vortex tube [J].
Mohammadi, Samira ;
Farhadi, Fatola .
SEPARATION AND PURIFICATION TECHNOLOGY, 2014, 138 :177-185
[29]   An optimization method on managing Ranque-Hilsch vortex tube with the synergy between flow structure and performance [J].
Guo, Xiangji ;
Liu, Bo ;
Lv, Jinsheng ;
Zhang, Bo ;
Shan, Yong .
INTERNATIONAL JOURNAL OF REFRIGERATION, 2021, 126 :123-132
[30]   Energy separation for Ranque-Hilsch vortex tube: A short review [J].
Hu, Zhuohuan ;
Li, Rui ;
Yang, Xin ;
Yang, Mo ;
Day, Rodney ;
Wu, Hongwei .
THERMAL SCIENCE AND ENGINEERING PROGRESS, 2020, 19