[1] He L J,Wu X W,Wang D,et al. Numerical simulation of vortex tube performance and three-dimensional vortex flow based on Fluent[J]. Acta Energiae Solaris Sinica,2020,41(11):143−148 (何丽娟,吴心伟,王荻,等. 基于Fluent的涡流管性能及三维强漩流流动的数值模拟[J]. 太阳能学报,2020,41(11):143−148(in chinese) He L J, Wu X W, Wang D, et al. Numerical simulation of vortex tube performance and three-dimensional vortex flow based on Fluent [J]. Acta Energiae Solaris Sinica, 2020, 41(11): 143-148
[2] Hu Z H,Yang X. Effect of vortex chamber diameter on the performance of vortex tube[J]. Vacuum and Cryogenics,2017,23(01):52−57 (胡卓焕,杨欣. 涡流室直径对涡流管性能的影响[J]. 真空与低温,2017,23(01):52−57(in chinese) Hu Z H, Yang X. Effect of vortex chamber diameter on the performance of vortex tube [J]. Vacuum and Cryogenics, 2017, 23(01): 52-57
[3] Wang K,Xie L,OuYang X,et al. Numerical simulation of flow field and temperature field in natural gas single flow vortex tube[J]. Natural Gas Industry,2020,40(07):113−119 (王凯,谢磊,欧阳欣,等. 天然气单流涡流管流场与温度场数值模拟[J]. 天然气工业,2020,40(07):113−119(in chinese) Wang K, Xie L, OuYang X, et al. Numerical simulation of flow field and temperature field in natural gas single flow vortex tube [J]. Natural Gas Industry, 2020, 40(07): 113-119
[4] He P,Zhang C B. Numerical simulation of flow and heat transfer in a large diameter eight-channel spiral nozzle eddy current tube[J]. Science Technology and Engineering,2020,20(11):4264−4272 (何鹏,张成斌. 大管径八流道螺旋喷嘴涡流管流动与传热数值模拟[J]. 科学技术与工程,2020,20(11):4264−4272(in chinese) He P, Zhang C B. Numerical simulation of flow and heat transfer in a large diameter eight-channel spiral nozzle eddy current tube [J]. Science Technology and Engineering, 2020, 20(11): 4264-4272
[5] Hao J S,Yang Y Y,Jiang J,et al. Review of vortex tube design and application[J]. Cryogenics & Superconductivity,2019,47(11):16−21+50 (郝金顺,杨义勇,蒋杰,等. 涡流管设计及应用进展综述[J]. 低温与超导,2019,47(11):16−21+50(in chinese) Hao J S, Yang Y Y, Jiang J, et al. Review of vortex tube design and application [J]. Cryogenics & Superconductivity, 2019, 47(11): 16-21+50
[6] Zhou S W,Jiang R Q,Song F Y,et al. Numerical simulation of flow and heat transfer in eddy current tube[J]. Ciesc Journal,2006(07):1548−1552 (周少伟,姜任秋,宋福元,等. 涡流管内流动与传热数值模拟[J]. 化工学报,2006(07):1548−1552(in chinese) Zhou S W, Jiang R Q, Song F Y, et al. Numerical simulation of flow and heat transfer in eddy current tube[J]. Ciesc Journal, 2006(07): 1548-1552
[7] Ding C,Huang Y W,Gu H,et al. Research on refrigeration characteristics of new vortex tube[J]. Cryogenics & Superconductivity,2020,48(03):75−80 (丁昌,黄宇巍,顾华,吕林鹏. 新型涡流管的制冷特性研究[J]. 低温与超导,2020,48(03):75−80(in chinese) Ding C, Huang Y W, Gu H, et al. Research on refrigeration characteristics of new vortex tube [J]. Cryogenics & Superconductivity, 2020, 48(03): 75-80
[8] Li H R,Ai G S,Zhang H R,et al. Strengthening the effect of hot end heat transfer on vortex tube performance[J]. Journal of Dalian University of Technology,2021,61(06):601−607 (李昊睿,艾国生,张恒瑞,等. 强化热端换热对涡流管性能影响[J]. 大连理工大学学报,2021,61(06):601−607(in chinese) Li H R, Ai G S, Zhang H R, et al. Strengthening the effect of hot end heat transfer on vortex tube performance [J]. Journal of Dalian University of Technology, 2021, 61(06): 601-607
[9] Zhang B,Guo X J. Numerical simulation of unsteady swirl flow field in vortex tube[J]. Journal of Thermal Science and Technology,2017,16(01):47−51 (张博,郭向吉. 涡流管非稳态旋流流场数值模拟研究[J]. 热科学与技术,2017,16(01):47−51(in chinese) Zhang B, Guo X J. Numerical simulation of unsteady swirl flow field in vortex tube [J]. Journal of Thermal Science and Technology, 2017, 16(01): 47-51
[10] Skye H M,Nellis G F,Klein S A. Comparison of CFD analysis to empirical aata in a commercial vortex tube[J]. International Journal of Refrigeration,2006,29(1):71−80 doi: 10.1016/j.ijrefrig.2005.05.004
[11] Thakare H R,Parekh A D. CFD analysis of energy separation of vortex tube employing different gases, turbulence models and discretisation schemes[J]. International Journal of heat and Mass Transfer,2014,78:360−370 doi: 10.1016/j.ijheatmasstransfer.2014.06.083
[12] Noor D Z,Mirmanto H,Sarsetiyanto J,et al. Numerical study of flow and thermal field on a parallel flow vortex tube[J]. Engineering,2012,04(11):774−777 doi: 10.4236/eng.2012.411099
[13] Rafiee S E,Sadeghiazad M M. Experimental and CFD analysis on thermal performance of double-circuit vortex tube (DCVT) geometrical optimization, energy transfer and flow structural analysis[J]. Applied Thermal Engineering,2018,128:1223−1237 doi: 10.1016/j.applthermaleng.2017.09.112
[14] Rafiee S E,Sadeghiazad M M. Experimental and 3D CFD analysis on optimization of geometrical parameters of parallel vortex tube cyclone separator[J]. Aerospace Science and Technology,2017,63:110−122 doi: 10.1016/j.ast.2016.12.014
[15] He L J,Wang S,Zhang L,et al. Influence of outlet pressure ratio of eddy current tube on its performance[J]. Chinese Journal of Vacuum Science and Technology,2019,39(12):1161−1165 (何丽娟,王飒,张磊,等. 涡流管热冷出口压力比对其性能的影响研究[J]. 真空科学与技术学报,2019,39(12):1161−1165(in chinese) He L J, Wang S, Zhang L, et al. Influence of outlet pressure ratio of eddy current tube on its performance [J]. Chinese Journal of Vacuum Science and Technology, 2019, 39(12): 1161-1165
[16] Wang Z,Wu K X,Chen G M,et al. Experimental study on the performance of vortex tube with different pressure ratio at hot and cold outlet[J]. Journal of Engineering Thermophysics,2013,34(08):1407−1410 (王征,吴孔祥,陈光明,等. 涡流管热冷出口不同压力比性能实验[J]. 工程热物理学报,2013,34(08):1407−1410(in chinese) Wang Z, Wu K X, Chen G M, et al. Experimental study on the performance of vortex tube with different pressure ratio at hot and cold outlet [J]. Journal of Engineering Thermophysics, 2013, 34(08): 1407-1410
[17] Li N,Chen G M. Research on coupling characteristics of vortex tube and refrigerant[J]. Journal of Engineering Thermophysics,2019,40(01):28−35 (黎念,陈光明. 涡流管与制冷工质的耦合特性研究[J]. 工程热物理学报,2019,40(01):28−35(in chinese) Li N, Chen G M. Research on coupling characteristics of vortex tube and refrigerant [J]. Journal of Engineering Thermophysics, 2019, 40(01): 28-35
[18] Zhao M M,Li H X,Pan P. The effect of the diameter of hot end tube on the performance of vortex tube was simulated[J]. Chinese Journal of Vacuum Science and Technology,2019,39(08):736−743 (赵林林,李海霞,潘鹏. 模拟研究热端管直径对涡流管性能的影响[J]. 真空科学与技术学报,2019,39(08):736−743(in chinese) Zhao M M, Li H X, Pan P. The effect of the diameter of hot end tube on the performance of vortex tube was simulated [J]. Chinese Journal of Vacuum Science and Technology, 2019, 39(08): 736-743
[19] He L J,Pan P,Huang Y W,et al. Numerical simulation and structure optimization of vortex tube based on Fluent[J]. Chinese Journal of Vacuum Science and Technology,2018,38(01):59−64 (何丽娟,潘鹏,黄艳伟,等. 基于Fluent的涡流管数值模拟与结构优化研究[J]. 真空科学与技术学报,2018,38(01):59−64(in chinese) He L J, Pan P, Huang Y W, et al. Numerical simulation and structure optimization of vortex tube based on Fluent [J]. Chinese Journal of Vacuum Science and Technology, 2018, 38(01): 59-64
[20] 吴雪莹. 高压天然气涡流管内能量分离特性及节流换能技术研究[D]. 青岛: 中国石油大学(华东), 2017 Wu X Y. Research on energy separation characteristics and throttling energy exchange technology in vortex tube of high pressure natural gas[D]. Qingdao: China University of Petroleum, 2017
[21] Liang F C,Wu X Y. Numerical simulation of flow and heat transfer in vortex tube with six-channel nozzle[J]. Cryogenics & Superconductivity,2017,45(01):1−5 (梁法春,吴雪莹. 六流道喷嘴涡流管流动与传热数值模拟[J]. 低温与超导,2017,45(01):1−5(in chinese) Liang F C, Wu X Y. Numerical simulation of flow and heat transfer in vortex tube with six-channel nozzle [J]. Cryogenics & Superconductivity, 2017, 45(01): 1-5
[22] Guo Y L,Zhou J L,Wang Y J,et al. Simulation of flow and heat transfer characteristics in a countercurrent eddy current tube[J]. Natural Gas and Oil,2020,38(03):1−6 (郭艳林,周俊龙,汪怡佳,等. 逆流型涡流管流动与传热特性模拟研究[J]. 天然气与石油,2020,38(03):1−6(in chinese) Guo Y L, Zhou J L, Wang Y J, et al. Simulation of flow and heat transfer characteristics in a countercurrent eddy current tube [J]. Natural Gas and Oil, 2020, 38(03): 1-6