Status of research in internal flow in impeller pumps under gas-liquid two-phase conditions
YUAN Jianping1, DENG Fanjie1, ZHANG Keyu2, CUI Qianglei1, SI Qiaorui1*
1. National Research Center of Pumps, Jiangsu University, Zhenjiang, Jiangsu 212013, China; 2. Commercial Vehicle Technology Center of SAIC Motor Corporation Limited, Shanghai 200041, China
袁建平,邓凡杰,张克玉,崔强磊,司乔瑞*. 气液两相流下叶片泵内部流动研究现状[J]. 排灌机械工程学报, 2019, 37(7): 553-561.
YUAN Jianping, DENG Fanjie, ZHANG Keyu, CUI Qianglei, SI Qiaorui*. Status of research in internal flow in impeller pumps under gas-liquid two-phase conditions. Journal of Drainage and Irrigation Machinery Engin, 2019, 37(7): 553-561.
[1]袁寿其, 袁建平, 裴吉. 离心泵内部流动与运行节能[M]. 北京:科学出版社, 2016.[2]JOHANN F G. Centrifugal Pumps[M]. New York: Spri-nger Berlin Heidelberg, 2008.[3]张武高, 薛敦松. 国外多相流泵的研究进展[J]. 水泵技术, 1995(6): 7-13. ZHANG Wugao, XUE Dunsong. Research progress of foreign multiphase flow pumps[J]. Pump technology, 1995(6): 7-13.(in Chinese)[4]付强, 袁寿其, 朱荣生, 等. 离心泵气液混输瞬态过渡过程水力特性研究[J]. 哈尔滨工程大学学报, 2012, 33(11): 1-6. FU Qiang, YUAN Shouqi, ZHU Rongsheng, et al. Hydraulic characteristics of transient transition process of gas-liquid mixed flow in a centrifugal pump[J]. Journal of Harbin Engineering University, 2012, 33(11): 1-6.(in Chinese)[5]高波, 杨敏官, 吴承福. BPX 型排水泵内流分析及降噪方案[J]. 排灌机械工程学报, 2011, 29(5): 401-405. GAO Bo, YANG Minguan, WU Chengfu. Internal flow field analysis and noise reduction means of BPX drain pump[J]. Journal of drainage and irrigation machinery engineering, 2011, 29(5): 401-405.(in Chinese)[6]FURUYA O. An analytical model for prediction of two-phase(noncondensable)flow pump performance[J]. Journal of fluids engineering, 1985, 107:(1):139-147.[7]NOGHREHKAR G R, KAWAJI M, CHAN A M C, et al. Investigation of centrifugal pump performance under two-phase flow conditions[J]. International journal of multiphase flow, 1995, 22(1):147-149.[8]阎昌琪. 气液两相流[M]. 2版. 哈尔滨: 哈尔滨工程大学出版社, 2010.[9]劳力云, 郑之初, 吴应湘,等. 关于气液两相流流型及其判别的若干问题[J]. 力学进展, 2002, 32(2):235-249. LAO Liyun, ZHENG Zhichu, WU Yingxiang, et al. On the gas-liquid two-phase flow regimes and their recognition methods[J]. Advances in mechanics, 2002, 32(2):235-249.(in Chinese)[10]ZHANG Y J, SU G H, YANG X B, et al. Theoretical research on two-phase flow instability in parallel chan-nels[J]. Nuclear engineering and design, 2009, 239(7):1294-1303.[11]PODOWSKI M Z. On the consistency of mechanistic multidimensional modeling of gas/liquid two-phase flows[J]. Nuclear engineering and design, 2009, 239(5): 933-940.[12]KOSMOWSKI I. Behaviour of centrifugal pump when conveying gas entrained liquids[C]//Proceedings of the 7th Technical Conference of BPMA, 1981: 283-291.[13]POULLIKKAS A. Two phase flow performance of nuclear reactor cooling pumps[J]. Progress in nuclear energy, 2000, 36(2): 123-130.[14]李清平, 薛敦松. 叶片式多相泵内部相态分离过程的研究[J]. 中国石油大学学报(自然科学版), 1997(3):53-56. LI Qingping, XUE Dunsong. Study on internal phase se-paration process of vane multiphase pump[J]. Journal of the University of Petro leum, China(natural science edition), 1997(3):53-56.(in Chinese)[15]傅春. 气液两相流动结构复杂性分析[D]. 天津:天津大学, 2015.[16]陈次昌, 刘正英, 刘天宝, 等. 两相流泵的理论与设计[M]. 北京: 兵器工业出版社, 1993.[17]FURUKAWA A, SHIRASU S. Experiments on air-water two-phase flow pump impeller with rotating-stationary circular cascades and recirculating flow holes[J]. International journal series B fluids and thermal engineering, 1996, 39(3): 575-582.[18]SATO S, FURUKAWA A, TAKAMATSU Y, et al. Air-water two-phase flow performance of centrifugal pump impellers with various blade angles[J]. Bulletin of the JSME, 1996, 39(2):223-229.[19]SATO S, FURUKAWA A. Air-water two-phase flow performances of centrifugal pump with movable bladed impeller and effects of installing diffuser vanes[J]. International journal of fluid machinery and systems, 2010, 3(3):245-252.[20]钱红军, 韦章兵. 气体对离心泵性能影响的试验研究[J]. 流体机械, 2003, 31(7): 1-4. QIAN Hongjun, WEI Zhangbing. Study of air's effect on the performance of centrifugal pump[J]. Fluid machinery, 2003, 31(7): 1-4.(in Chinese)[21]李清平, 薛敦松, 李忠芳,等. 螺旋轴流式多相泵的实验研究与优化设计[J]. 工程热物理学报, 2004, 25(6):962-964. LI Qingping, XUE Dunsong, LI Zhongfang, et al. Optimize of the helico-axial multiphase pump prototype and its experimental studies on performances[J]. Journal of engineering thermophysics, 2004, 25(6):962-964.(in Chinese)[22]丁浩. 新型信息处理技术在气液两相流流型辨识中的应用研究[D]. 杭州:浙江大学, 2005.[23]HEINDEL T J. A review of X-ray flow visualization with applications to multiphase flows[J]. Journal of fluids engineering, 2011, 133(7):074001.[24]孙斌, 王二朋, 郑永军. 气液两相流波动信号的时频谱分析研究[J]. 物理学报, 2011, 60(1):381-388. SUN Bin, WANG Erpeng, ZHENG Yongjun. Time-frequency spectral analysis of gas-liquid two-phase flow′s fluctuations[J]. Acta physica sinica, 2011, 60(1):381-388.(in Chinese)[25]方立军, 薛瑞轩, 孙伟晋. 基于超声波的气液两相流测量技术综述[J]. 华北电力技术, 2014(8):66-70. FANG Lijun, XUE Ruixuan, SUN Weijin. Gas-liquid flow based on ultrasonic measurement technology[J]. North China electric power, 2014(8):66-70.(in Chinese)[26]KIM Y T, TANAKA K, MATSUMOTO Y, et al. Characteristics and flow patterns of a small screw-type centrifugal pump operating in air-water two-phase flow[J]. Nihon kikai gakkai ronbunshu B hen/transactions of the Japan Society of Mechanical Engineers Part B, 1999, 65(639):3690-3696.[27]MURAKAMI M,MINEMURA K.Effects of entrained air on the performance of a centrifugal pump:1st report,performance and flow conditions[J].Bulletin of the JSME,1974,17(110):1047-1055.[28]PATEL B R,RUNSTADLER J P W.Investigations into the two-phase flow behavior of centrifugal pumps[J].Polyphase flow in turbomachinery,1978:79-100.[29]SEKOGUCHI K,TAKADA S,KANEMORI Y.Study of air-water two-phase centrifugal pump by means of electric resistivity probe technique for void fraction measurement:1st report,measurement of void fraction distri-bution in a radial flow impeller[J].Bulletin of the JSME,1984,27(227):931-938.[30]POULLIKKAS A.Compressibility and condensation effe-cts when pumping gas-liquid mixtures[J].Fluids dynamics research,1999(25):55-62.[31]MATSUSHITA N, WATANABE S, OKUMA K, et al. Similarity law of air-water two-phase flow performance of centrifugal pump[C]//Proceedings of the ASME/JSME 2007 5th Joint Fluids Engineering Conference. American Society of Mechanical Engineers, 2007: 915-920.[32]VERDE W M, BIAZUSSI J L, SASSIM N A, et al. Experimental study of gas-liquid two-phase flow patterns within centrifugal pumps impellers[J]. Experimental thermal & fluid science, 2017, 85:37-51.[33]SCHAFER T, BIEBERLE A, NEUMANN M, et al. Application of gamma-ray computed tomography for the analysis of gas holdup distributions in centrifugal pumps[J]. Flow measurement & instrumentation, 2015, 46:262-267.[34]NEUMANN M, SCHAFER T, BIEBERLE A, et al. An experimental study on the gas entrainment in horizontally and vertically installed centrifugal pumps[J]. Journal of fluids engineering, 2016, 138(9):97-106.[35]SCHAFER T, NEUMANN M, BIEBERLE A, et al. Experimental investigations on a common centrifugal pump operating under gas entrainment conditions[J]. Nuclear engineering & design, 2017, 316:1-8.[36]DUPLAA S, COUTIER D O, DAZIN A, et al. X-ray measurements in a cavitating centrifugal pump during fast start-ups[J]. Journal of fluids engineering, 2013, 135(4): 041204. [37]PIROUZPANAH S, GUDIGOPURAM S R, MORRISON G L. Two-phase flow characterization in a split vane impeller electrical submersible pump[J]. Journal of petroleum science & engineering, 2017,148:82-93.[38]杨敦敏, 陈刚, 刘超. 离心泵内气液两相流动的图像测量[J]. 水利学报, 2005, 1(1): 1-7. YANG Dunmin, CHEN Gang, LIU Chao. Image measurement of gas-liquid two-phase flow in centrifugal pump[J]. Journal of hydraulic engineering, 2005, 1(1): 1-7.(in Chinese)[39]ZHANG J, CAI S, ZHU H, et al. Experimental investigation of the flow at the entrance of a rotodynamic multiphase pump by visualization[J]. Journal of petroleum science & engineering, 2015, 126:254-261.[40]李红, 姜波, 陆天桥. 泵自吸过程气液两相流的可视化试验[J]. 农业机械学报, 2015,46(8):59-65. LI Hong, JIANG Bo, LU Tianqiao. Visualization experiment of gas-liquid two-phase flow of pump during self-priming process[J]. Transactions of the CSAM, 2015,46(8):59-65.(in Chinese)[41]LINDKEN R, MERZKIRCH W. A novel PIV technique for measurements in multiphase flows and its application to two-phase bubbly flows[J]. Experiments in fluids, 2002, 33(6):814-825. [42]TAKEI M, HASSAN Y A, ORTIZ V J, et al. Modal wavelets analysis to gas-liquid two phase flow piv images[C]//Proceedings of the 14th International Conference on Nuclear Engineering. American Society of Mechanical Engineers, 2006:677-683.[43]UENO S, TSURU W, KINOUE Y, et al. PIV measurement of carbon dioxide gas-liquid two-phase nozzle flow[C]//Proceedings of the ASME/JSME/KSME 2015 Joint Fluids Engineering Conference, 2015.[44]SHAH S R, JAIN S V, PATEL R N, et al. CFD for centrifugal pumps: a review of the state-of-the-art[J]. Procedia engineering, 2013, 51:715-720.[45]MINEMURA K,MURAKAMI M.A theoretical study on air bubble motion in a centrifugal pump impeller[J].Journal of fluids engineering,1980,102(4):446-455.[46]FURUYA O. An analytical model for prediction of two-phase(noncondensable)flow pump performance[J]. Journal of fluids engineering,1985, 107(1): 139-147.[47]MINEMURA K, TOMOMI U. Three dimension calcula-tion of air water two-phase flow in centrifugal pump impeller based on a bubbly flow model[J]. Journal of fluids engineering,1993, 115(4): 781-783.[48]MINEMURA K, TOMOMI U. Three dimension calcula-tion of air water two-phase flow in centrifugal pump impeller based on a bubbly flow model with fixed cavity[J]. JSME international journal series B,1994, 37(4):726-735.[49]MINEMURA K, TOMOMI U. Prediction of air-water two-phase flow performance of a centrifugal pump based on one-dimension two-fluid model[J]. Journal of fluids engineering, 1998,120(3): 327-334.[50]李清平. 螺旋轴流式多相泵设计初探及其内部气液两相流动的三维数值分析[D]. 北京: 中国石油大学, 1998.[51]WU Yulin. Three-dimension calculation of oil-bubble flows through a centrifugal Pump impeller[C]//Proceedings of the Third International Conference on Pump and Fan. Beijing:Tsinghua University Press, 1998: 526-532.[52]班耀涛, 赵宏. 螺旋轴流式油气多相泵的性能预测模型[J]. 工程热物理学报, 2000, 21(2): 187-190. BAN Yaotao, ZHAO Hong. Performance prediction model of helico-axial multiphase pump[J]. Journal of engineering thermophysics, 2000, 21(2): 187-190.(in Chinese)[53]黄思, 吴玉林. 叶片式泵内气液两相泡状流的三维数值计算[J]. 水利学报, 2001(6): 57-61. HUANG Si, WU Yulin. 3-D calculation of gas-oil flow in rotodynamic pump based on a bubbly flow model[J]. Journal of hydraulic engineering, 2001(6): 57-61.(in Chinese)[54]余志毅,曹树良,王国玉.叶片泵内气液两相流的三维流动数值模型[J].北京理工大学学报,2007,27(12):1057-1060,1064. YU Zhiyi, CAO Shuliang, WANG Guoyu. A numerical model for 3-D gas-liquid two-phase flow in vane pumps[J]. Transactions of Beijing Institute of Technology, 2007,27(12):1057-1060,1064.(in Chinese)[55]李雪琴,玉君,赵鹏,等.多相混输泵内气液两相分布的随机分形模型[J].广西大学学报(自然科学版),2010,35(5):756-761. LI Xueqin,YU Jun, ZHAO Peng, et al. A random fractal model of gas-liquid distribution in multiphase pump[J]. Journal of Guangxi University(natural science edition), 2010,35(5):756-761.(in Chinese)[56]CARIDAD J, KENYERY F. CFD analysis of electric submersible pumps(ESP)handling two-phase mixtures[J]. Journal of energy resources technology, 2004, 126(2):99-104.[57]CARIDAD J, ASUAJE M, KENYERY F, et al. Characterization of a centrifugal pump impeller under two-phase flow conditions[J]. Journal of petroleum science & engineering, 2008, 63(1/2/3/4):18-22.[58]MULLER T, LIMBACH P, SKODA R. Numerical 3D RANS simulation of gas-liquid flow in a centrifugal pump with an Euler-Euler two-phase model and a dispersed phase distribution[C]// Proceedings of the European Turbomachinery Conference, 2015. [59]KIM J H, LEE H C, KIM Y T, et al. Improvement of hydrodynamic performance of a multiphase pump using design of experiment techniques[J]. Journal of fluids engineering, 2015, 137(8): 081301.[60]卢金玲,席光,祁大同.离心泵叶轮内气液两相三维流动数值研究[J].工程热物理学报,2003,24(2):237-240. LU Jinling, XI Guang, QI Datong. Numerical study on the gas-liquid two-phase 3-D flow in the impeller of a centrifugal pump[J]. Journal of engineering thermophy-sics,2003,24(2):237-240.(in Chinese)[61]马希金,王宏亮,赵学. 轴流式油气混输泵压缩级流场 CFD 模拟分析[J].农业机械学报,2006,37(2):41-44. MA Xijin, WANG Hongliang, ZHAO Xue. CFD numeri-cal simulation of flow in the stage of axial gas-oil multiphase pump[J]. Transactions of the CSAM, 2006,37(2):41-44.(in Chinese)[62]黄思, 王宏君, 郑茂溪. 叶片式混输泵气液两相流及性能的数值分析[J]. 华南理工大学学报(自然科学版), 2007, 35(12): 11-16. HUANG Si, WANG Hongjun, ZHENG Maoxi. Numerical analysis of gas-liquid two-phase flow in multiphase rotodynamic pump and pump performance[J]. Journal of South China University of Technology(natural science edition), 2007, 35(12): 11-16.(in Chinese)[63]张金亚, 蔡淑杰, 朱宏武,等. 三级螺旋轴流式混输泵可压缩流场数值模拟[J]. 农业机械学报, 2014, 45(9):89-95. ZHANG Jinya, CAI Shujie, ZHU Hongwu, et al. Nume-rical investigation of compessible flow in a three-stage helico-axial multiphase pump[J]. Transactions of the CSAM, 2014, 45(9):89-95.(in Chinese)[64]袁建平, 张克玉, 司乔瑞, 等. 基于非均相流模型的离心泵气液两相流动数值研究[J].农业机械学报,2017,48(1):89-95. YUAN Jianping, ZHANG Keyu, SI Qiaorui, et al. Numerical investigation of gas-liquid two-phase flow in centrifugal pumps based on inhomogeneous model[J]. Transactions of the CSAM, 2017,48(1):89-95.(in Chinese)[65]刘建瑞, 苏起钦. 自吸泵气液两相流数值模拟分析[J]. 农业机械学报, 2009,40(9):73-76. LIU Jianrui, SU Qiqin. Numerical simulation on gas-liquid two-phase flow in self-priming pump[J]. Transactions of the CSAM, 2009,40(9):73-76.(in Chinese)[66]李红, 徐德怀, 李磊, 等. 自吸泵自吸过程瞬态流动的数值模拟[J]. 排灌机械工程学报, 2013,31(7): 565-569. LI Hong, XU Dehuai, LI Lei, et al. Numerical simula-tion of transient flow in self-priming centrifugal pump during self-priming period[J]. Journal of drainage and irrigation machinery engineering, 2013,31(7): 565-569.(in Chinese)[67]黄思, 岳乐, 郭京,等. 离心泵自吸过程的气液两相流非稳态数值模拟[J]. 科技导报, 2013, 31(14):36-40. HUANG Si, YUE Le, GUO Jin, et al. Unsteady numerical simulation for gas-liquid two-phase flow in the self-priming process of centrifugal pump[J]. Science & technology review, 2013, 31(14):36-40.(in Chinese)[68]岳乐. 自吸离心泵内气液两相流计算及性能实验研究[D].广州:华南理工大学,2013.