叶片形式对旋流泵性能的影响Influence of blade types on the performance of vortex pump
倪雁,顾磊,王珺,李洪彬
NI Yan,GU Lei,WANG Jun,LI Hongbin
摘要(Abstract):
旋流泵因其具有无堵塞的优点而在疏浚清淤工程得以广泛应用。叶片是旋流泵的关键部件,改变叶片形式会引起旋流泵内部流场发生截然不同的变化,从而改变旋流泵性能。本文针对直叶片、后弯叶片、前弯叶片和双向倾斜叶片4种叶片形式,通过数值模拟手段,研究了不同叶片形式对旋流泵扬程、功率和效率等性能参数的影响。研究表明,泵叶腔内流体由后弯叶片所获得的速度较小,向无叶腔流体传递的能量较少,而在这种传递过程中,后弯叶片所产生的漩涡强度和范围却远远高于其它3种叶轮,故采用后弯叶轮的旋流泵扬程、轴功率和效率均为最低。而采用直叶片形式可以使旋流泵获得最大效率。本文研究可以为旋流泵的叶片设计提供参考。
Vortex pumps is widely used in dredging projects due to its non-clogging advantages. The blade is a key component of vortex pumps. Blade types give rise to significant changes in the internal flow field of vortex pumps, and further change pump performance. The effects of different blade types on the performance parameters such as head, power and efficiency of vortex pumps are studied by numerical simulation methods. Four types of blades, i.e., straight, back-bent, forward-bent and two-way inclined blades, are studied. Studies show that the speed of the fluid in the pump cavity obtained by the back-bend blade is lower, and the energy transferred to the fluid is therefore less. In this transfer process, the vortex intensity and range generated by the backbent blade are far higher than those generated by other three blade types. Therefore, the vortex pump with back-bent blade has the lowest head, shaft power and efficiency. The maximum efficiency can be obtained when forward-bent blades are adopted. This study can provide some reference for blade selection of vortex pumps.
关键词(KeyWords):
叶片形式;旋流泵;扬程;功率;效率
blade type;vortex ump;head;power;efficiency
基金项目(Foundation): 国家重点研发计划项目(2018YFC0407404);; 国家自然科学基金项目(51709094);; 江苏省科技成果转化专项资金项目(BA2016143)
作者(Author):
倪雁,顾磊,王珺,李洪彬
NI Yan,GU Lei,WANG Jun,LI Hongbin
参考文献(References):
- [1]王晶晶.清淤船用旋流式泥浆泵内流分析与优化设计[D].扬州:扬州大学,2014.WANG J J.Internal flow analysis and optimization of vortex sludgy pump for dredge ship[D].Yangzhou:Yangzhou University,2014.
- [2]刘天宝,赵万勇,李易松.旋流泵的研究现状与展望[J].流体机械,2007,35(1):32-36.LIU T B,ZHAO W Y,LI Y S.Present status and development prospect of vortex pump[J].Fluid Machinery,2007,35(1):32-36.
- [3]关醒凡.现代泵技术手册[M].北京:宇航出版社,1995.GUAN X F.Modern pump technical manual[M].Beijing:Yuhang Publisher,1995.
- [4]沙毅.无堵塞泵结构参数对性能影响的试验分析[J].排灌机械,1989(3):21-25.SHA Y.Experimental analysis of influence of structure parameters on performance of non-clogging pump[J].Drainage and Irrigation Machinery,1989(3):21-25.
- [5]朱荣生,陈景俊,王秀礼,等.高低折边叶片对旋流泵影响的数值模拟与试验研究[J].流体机械,2012,40(1):1-5.ZHU R S,CHEN J J,WANG X L,et al.Numerical simulation and experimental of influence of hem and high-low blade on performance of vortex pump[J].Fluid Machinery,2012,40(1):1-5.
- [6]王晶晶,陈杰,朱峰雷.大流量高效率旋流式泥浆泵数值模拟与优化设计[J].上海水务,2015(3):8-13.WANG J J,CHEN J,ZHU F L.Dredger with large flow efficiency of swirling mud pump numerical simulation and optimization design[J].Shanghai Water,2015(3):8-13.
- [7]刘天宝.旋流泵内部流动的三维数值模拟[D].兰州:兰州理工大学,2007.LIU T B.Three-dimensional numerical simulation of internal flow of vortex pump[D].Lanzhou:Lanzhou University of Technology,2007.
- [8]史广泰,李和林,刘宗库,等.轮毂比对多相混输泵内流特性的影响[J].流体机械,2020,48(5):49-54.SHI G T,LI H L,LIU Z K,et al.Effect of hub ratio on flow field characteristics in multiphase pump[J].Fluid Machinery,2020,48(5):49-54.
- [9]温智炜,闫素英,苏世良,等.基于流固耦合的旋转轴唇型油封流场特性及泵汲率研究[J].流体机械,2020,48(4):6-11.WEN Z W,YAN S Y,SU S L,et al.Study on flow field characteristics and pump drainage rate of rotary shaft-lip seal based on fluid-solid coupling[J].Fluid Machinery,2020,48(4):6-11.
- [10]吴琦,刘雪林.某项目主泵轴封水管线固定点设计优化[J].压力容器,2018,35(2):29-34.WU Q,LIU X L.Design optimization for fixed point of pump sealing pipes in the project[J].Pressure Vessel Technology,2018,35(2):29-34.
- [11]汪永志,施卫东,董颖,等.旋流泵的研究现状与展望[J].排灌机械,2004,22(2):8-11.WANG Y Z,SHI W D,DONG Y,et al.Present status and development prospect of vortex pump[J].Drainage and Irrigation Machinery,2004,22(2):8-11.
- [12]沈姗姗,左强.叶片仿鲨鱼鳍的导叶式离心泵数值仿真研究[J].机电工程,2020,37(3):221-226.SHEN S S,ZUO Q.Numerical simulation of the guided vane centrifugal pump with bionic shark fin blade[J].Journal of Mechanical&Electrical Engineering,2020,37(3):221-226.
- [13]陶仁和,张勇,陈旭来,等.叶片空间型面造型对离心泵性能的影响研究[J].机电工程,2017,34(11):1283-1286.TAO R H,ZHANG Y,CHEN X L,et al.Effect of different blade surface profileson performance of centrifugal pump[J].Journal of Mechanical&Electrical Engineering,2017,34(11):1283-1286.
- [14]权辉,傅百恒,李仁年,等.旋流泵的研究现状及发展趋势[J].流体机械,2016,44(9):36-40.QUAN H,FU B H,LI R N,et al.Research stage and development tendency of vortex pump[J].Fluid Machinery,2016,44(9):36-40.
- [15] DAI L,GU L,WANG J,et al.The effect of impeller indent distance on the performance of vortex pump[J].International Journal of Fluid Machinery and Systems2020,13(1):42-54.