海水淡化轴向柱塞泵静压支承滑靴副的<br /> 流固耦合分析

doi:10.3785/j.issn.1008-973X.2011.11.001

2011, Vol. 45

Issue (11): 1889-1894 DOI: 10.3785/j.issn.1008-973X.2011.11.001

机械工程

海水淡化轴向柱塞泵静压支承滑靴副的
流固耦合分析

翟江,周华

浙江大学流体传动与控制国家重点实验室,浙江杭州 310027

Fluid-solid coupling analysis for hydrostatic supporting slipper
pair of axial piston pump for seawater desalination

ZHAI Jiang, ZHOU Hua

State Key Laboratory of Fluid Power Transmission and Control, Zhejiang University, Hangzhou 310027, China

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摘要：

为了研究滑靴结构体微小变形对静压支承承载能力的影响,通过流固耦合方法对海水淡化轴向柱塞泵滑靴体的结构场及滑靴副流场进行数值计算.为了进行对比,在相同边界条件下,分别以液压油和海水为工作介质,对忽略滑靴体微小变形的滑靴副流场进行数值计算.结果表明：在海水润滑条件下,滑靴副流动区域中的湍流和速度场的变化使得滑靴小孔及流道变化处产生的阻尼作用得到加强；不锈钢-复合高分子材料结构的滑靴体中不锈钢基体承受主要载荷,密封带处产生的微小变形使流动区域的压力场发生变化；这些都使得滑靴副承载能力与设计值相比有所下降,需要通过减少柱塞固定阻尼、优化滑靴小孔出口流道、提高滑靴体刚度等方法进行补偿.

Abstract:

The micro deformation of the slipper body affects the load carrying ability of the hydrostatic supporting slipper pair. In order to study on it, the seawater lubricated slipper pair of the axial piston pump for seawater desalination was designed based on classic hydrostatic theory. After that the structure-fields of the slipper body and flowfields of the slipper pair were calculated based on fluid-solid coupling method, and the flow-fields of the slipper pair when using mineral oil and seawater as service fluid were also calculated respectively under the same border condition but the micro deformation was neglected. From the calculation and analysis results, it is concluded that the damping effect caused by the slipper orifice and the variable flow channel is intensified due to the turbulent flow and change in velocity-field under seawater lubrication. The base body of the stainless-steel/composite macromolecular plastic slipper supports the main load, and the obvious deformation of the sealing region changes the pressure-field. All these make the load carrying capacity of the slipper pair decreased compared with the design value. So compensation methods such as reducing the length of the fixed orifice on the piston, optimizing the slipper orifice outlet, enhancing the stiffness of the slipper etc. can be adopted．

出版日期: 2011-12-08

TH 322

基金资助:

国家“十一五”科技支撑计划资助项目(2006BAF01B03-02);教育部高等学校博士学科点专项科研基金资助项目(20070335143);教育部新世纪优秀人才支持计划资助项目(NCET-06-0529).

通讯作者: 周华,男，教授，博导. E-mail: hzhou@sfp.zju.edu.cn

作者简介: 翟江(1976-），男，博士生，从事纯水液压技术研究.E-mail: jiangzhai@sina.com

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引用本文:

翟江,周华. 海水淡化轴向柱塞泵静压支承滑靴副的
流固耦合分析[J]. J4, 2011, 45(11): 1889-1894.

ZHAI Jiang, ZHOU Hua. Fluid-solid coupling analysis for hydrostatic supporting slipper
pair of axial piston pump for seawater desalination. J4, 2011, 45(11): 1889-1894.

链接本文:

https://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2011.11.001 或 https://www.zjujournals.com/eng/CN/Y2011/V45/I11/1889

［1］王世昌. 海水淡化工程［M］. 北京：化学工业出版社, 2003:73-74.
［2］ MENS J W M, DE GEE A W J. Friction and wear behaviour of 18 polymers in contact with steel in environments of air and water ［J］. Wear, 1991, 149(1/2): 255-268．
［3］ YANG H, YANG J, ZHOU H. Research on materials of piston and cylinder of water hydraulic pump ［J］. Industrial Lubrication and Tribology, 2003, 55(1): 38-43．
［4］ LIU Y S, WU D F, HE X F, et al. Materials screening of matching pairs in a water hydraulic piston pump ［J］. Industrial Lubrication and Tribology,2009, 61(2/3): 173-178．
［5］ NIE S L, HUANG G H, LI Y P. Tribological study on hydrostatic slipper bearing with annular orifice damper for water hydraulic axial piston motor ［J］. Tribology International, 2006, 39(11): 1342-1354．
［6］ WANG X, YAMAGUCHI A. Characteristics of hydrostatic bearing/seal parts for water hydraulic pumps and motors. Part 1: Experiment and theory ［J］. Tribology International, 2002, 35(7): 425-433．
［7］焦素娟. 纯水液压柱塞泵及溢流阀关键技术的研究［D］. 杭州：浙江大学, 2004．
JIAO Sujuan. The tribological properties of key friction pairs in water hydraulic piston pump and water hydraulic relief valves ［D］.Hangzhou: Zhejiang University, 2004．
［8］ ROKALA M, CALONIUS O, KOSKINEN K T, et al. Study of lubrication conditions in slipperswashplate contact in water hydraulic axial piston pump test rig ［C］// Proceedings of the 7th JFPS International Symposium on Fluid Power. Japan: ［s. n.］, 2008:91-94．
［9］许耀铭. 油膜理论与液压泵和马达的摩擦副设计［M］. 北京：机械工业出版社, 1987：193-261．
［10］盛敬超. 液压流体力学［M］. 北京：机械工业出版社, 1980：125-132.

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