Development of an analytical model to estimate the churning losses in high-speed axial piston pumps

导出

摘要 The axial piston pumps in aerospace applications are often characterized by high-speed rotation to achieve great power density. However, their internal rotating parts are fully immersed in the casing oil during operation, leading to considerable churning losses (more than 10% of total power losses) at high rotational speeds. The churning losses deserve much attention at the design stage of high-speed axial piston pumps, but accurate analytical models are not available to estimate the drag torque associated with the churning losses. In this paper, we derive the analytical expressions of the drag torque acting on the key rotating parts immersed in oil, including the cylinder block and the multiple pistons in a circular array. The calculated drag torque agrees well with the experimental data over a wide range of rotational speeds from 1500 to 12000 r/min. The presented analytical model provides practical guidelines for reducing the churning losses in high-speed axial piston pumps or motors.

作者 Qun CHAO Jianfeng TAO Chengliang LIU Zhengliang LI

机构地区 State Key Laboratory of Mechanical System and Vibration State Key Laboratory of Fluid Power and Mechatronic Systems Liyuan Hydraulic(Suzhou)Co.

出处《Frontiers of Mechanical Engineering》 SCIE CSCD 2022年第2期165-175,共11页 机械工程前沿（英文版）

基金 the National Key R&D Program of China(Grant No.2021YFB2011902) the National Natural Science Foundation of China(Grant No.52005323) the National Postdoctoral Program for Innovative Talents(Grant No.BX20200210) the China Postdoctoral Science Foundation(Grant No.2019M660086).

关键词 axial piston pump rotating parts high rotational speed churning losses drag torque

分类号 O35 [理学—流体力学]

引文网络
相关文献

参考文献6

1Qun CHAO,Junhui ZHANG,Bing XU,Qiannan WANG,Fei LYU,Kun LI.Integrated slipper retainer mechanism to eliminate slipper wear in high-speed axial piston pumps[J].Frontiers of Mechanical Engineering,2022,17(1):202-214. 被引量：2
2Qun CHAO,Jianfeng TAO,Junbo LEI,Xiaoliang WEI,Chengliang LIU,Yuanhang WANG,Linghui MENG.Fast scaling approach based on cavitation conditions to estimate the speed limitation for axial piston pump design[J].Frontiers of Mechanical Engineering,2021,16(1):176-185. 被引量：2
3Bing XU,Min HU,Jun-hui ZHANG,Qi SU.宽幅排量工况下轴向柱塞泵容积损失及效率变化特征（英文）[J].Journal of Zhejiang University-Science A(Applied Physics & Engineering),2016,17(3):186-201. 被引量：2
4Shardul Vikram Singh,Praneeti Mitra,Pankaj Kumar.A study of flow interference and heat transfer between two-cylinders at different orientations[J].Journal of Ocean Engineering and Science,2021,6(3):248-256. 被引量：1
5Chongbo Jing,Junjie Zhou,Jichen Zhou.Experimental Study of Churning Losses in Swash Plate Axial Piston Pump[J].Journal of Beijing Institute of Technology,2019,28(3):529-535. 被引量：3
6Junhui ZHANG,Ying LI,Bing XU,Min PAN,Qun CHAO.Experimental study of an insert and its influence on churning losses in a high-speed electro-hydrostatic actuator pump of an aircraft[J].Chinese Journal of Aeronautics,2019,32(8):2028-2036. 被引量：9

二级参考文献10

1Shengrong GUO,Jinhua CHEN,Yueliang LU,Yan WANG,Hongkang DONG.Hydraulic piston pump in civil aircraft: Current status, future directions and critical technologies[J].Chinese Journal of Aeronautics,2020,33(1):16-30. 被引量：26
2XU Bing,ZHANG JunHui,YANG HuaYong.Investigation on structural optimization of anti-overturning slipper of axial piston pump[J].Science China(Technological Sciences),2012,55(11):3010-3018. 被引量：32
3Guan Changbin,Jiao Zongxia,He Shouzhan.Theoretical study of flow ripple for an aviation axial-piston pump with damping holes in the valve plate[J].Chinese Journal of Aeronautics,2014,27(1):169-181. 被引量：23
4Junhui ZHANG,Qun CHAO,Bing XU.Analysis of the cylinder block tilting inertia moment and its effect on the performance of high-speed electro-hydrostatic actuator pumps of aircraft[J].Chinese Journal of Aeronautics,2018,31(1):169-177. 被引量：27
5Cun SHI,Shaoping WANG,Xingjian WANG,Yixin ZHANG.Variable load failure mechanism for high-speed load sensing electro-hydrostatic actuator pump of aircraft[J].Chinese Journal of Aeronautics,2018,31(5):949-964. 被引量：10
6Yan WANG,Hongkang DONG,Yongling HE.A novel approach for predicting inlet pressure of aircraft hydraulic pumps under transient conditions[J].Chinese Journal of Aeronautics,2019,32(11):2566-2576. 被引量：5
7Huaichao WU,Limei ZHAO,Siliang NI,Yongyong HE.Study on friction performance and mechanism of slipper pair under different paired materials in high-pressure axial piston pump[J].Friction,2020,8(5):957-969. 被引量：5
8Qun CHAO,Jianfeng TAO,Junbo LEI,Xiaoliang WEI,Chengliang LIU,Yuanhang WANG,Linghui MENG.Fast scaling approach based on cavitation conditions to estimate the speed limitation for axial piston pump design[J].Frontiers of Mechanical Engineering,2021,16(1):176-185. 被引量：2
9Junhui ZHANG,Yuan CHEN,Bing XU,Min PAN,Qun CHAO.Effects of splined shaft bending rigidity on cylinder tilt behaviour for high-speed electrohydrostatic actuator pumps[J].Chinese Journal of Aeronautics,2019,32(2):499-512. 被引量：5
10Kai-Xian Ba,Bin Yu,Xiang-Dong Kong,Chun-He Li,Qi-Xin Zhu,Hua-Long Zhao,Ling-Jian Kong.Parameters Sensitivity Characteristics of Highly Integrated Valve-Controlled Cylinder Force Control System[J].Chinese Journal of Mechanical Engineering,2018,31(2):159-175. 被引量：7

共引文献12

1Yan WANG,Hongkang DONG,Yongling HE.A novel approach for predicting inlet pressure of aircraft hydraulic pumps under transient conditions[J].Chinese Journal of Aeronautics,2019,32(11):2566-2576. 被引量：5
2Junjie Zhou,Jichen Zhou,Chongbo Jing.Experimental Research on the Dynamic Lubricating Performance of Slipper/Swash Plate Interface in Axial Piston Pumps[J].Chinese Journal of Mechanical Engineering,2020,33(2):80-86. 被引量：5
3孔祥东,朱琦歆,姚静,尚耀星,祝毅.高端移动装备液压元件与系统轻量化发展综述[J].燕山大学学报,2020,44(3):203-217. 被引量：21
4Bobo HELIAN,Zheng CHEN,Bin YAO.Energy-saving and accurate motion control of a hydraulic actuator with uncertain negative loads[J].Chinese Journal of Aeronautics,2021,34(5):253-264. 被引量：2
5田晴晴,谷立臣.考虑定常能量损失因子的柱塞泵效率特性建模[J].排灌机械工程学报,2021,39(9):877-883. 被引量：3
6钱韡恺,卞永明,马利忠,秦利升,蒋哲,周怡和,刘广军.基于AMESim的双液压缸同步提升系统仿真分析[J].机电一体化,2022,28(1):15-21. 被引量：1
7Qun CHAO,Junhui ZHANG,Bing XU,Qiannan WANG,Fei LYU,Kun LI.Integrated slipper retainer mechanism to eliminate slipper wear in high-speed axial piston pumps[J].Frontiers of Mechanical Engineering,2022,17(1):202-214. 被引量：2
8王娟,王涛,袁怀杰,孙成珍,赵亮.联体泵-马达壳体内部流动传热特性[J].液压与气动,2022,46(8):132-141.
9冀海,王娟,袁怀杰,孙德灿,孙成珍,赵亮.联体泵-马达壳体内流场功率损失特性[J].液压与气动,2022,46(11):132-139.
10李沛剑,叶绍干,李旭,侯亮,赵守军,刘会祥.微型高速轴向柱塞泵转子系统力矩损失仿真分析[J].液压与气动,2023,47(11):25-33.

1Ahmed Ramadhan Al-Obaidi.Numerical investigation on effect of various pump rotational speeds on performance of centrifugal pump based on CFD analysis technique[J].International Journal of Modeling, Simulation, and Scientific Computing,2021,12(5):210-233. 被引量：2
2Qun CHAO,Junhui ZHANG,Bing XU,Qiannan WANG,Fei LYU,Kun LI.Integrated slipper retainer mechanism to eliminate slipper wear in high-speed axial piston pumps[J].Frontiers of Mechanical Engineering,2022,17(1):202-214. 被引量：2
3Wanfu ZHANG,Lu YIN,Li YANG,Haoyang TIAN,Chun LI.Rotordynamic characteristics prediction for scallop damper seals using computational fluid dynamics[J].Chinese Journal of Aeronautics,2022,35(8):92-106. 被引量：1
4Yu Fang,Junhui Zhang,Bing Xu,Zebing Mao,Changming Li,Changsheng Huang,Fei Lyu,Zhimin Guo.Raising the Speed Limit of Axial Piston Pumps by Optimizing the Suction Duct[J].Chinese Journal of Mechanical Engineering,2021,34(6):271-280. 被引量：1
5Saixuan Chen,Jie Yang,Guohua Cui,Fuzhou Niu,Baiqiang Yao,Yu Zhang.Robot Zero-Moment Control Algorithm Based on Parameter Identification of Low-Speed Dynamic Balance[J].Computer Modeling in Engineering & Sciences,2023(3):2021-2039.
6Li SUN,Shigang ZHOU,Ganxi ZHANG,Baohua SUN.A novel wideband ring antenna for polarization/pattern diversity[J].Frontiers of Information Technology & Electronic Engineering,2022,23(6):975-983.
7Zi-Hang Chen,Li Lin,Chen-Fei Wu,Chao-Feng Li,Rui-Hua Xu,Ying Sun.Artificial intelligence for assisting cancer diagnosis and treatment in the era of precision medicine[J].Cancer Communications,2021,41(11):1100-1115. 被引量：10
8CHAO Qun,GAO HaoHan,TAO JianFeng,WANG YuanHang,ZHOU Jian,LIU ChengLiang.Adaptive decision-level fusion strategy for the fault diagnosis of axial piston pumps using multiple channels of vibration signals[J].Science China(Technological Sciences),2022,65(2):470-480. 被引量：3
9Jiahai Huang,Zhenhua Dou,Zhenglei Wang,Long Quan,Linkai Niu.Tribological Properties of Cylinder Block/Valve Plate Interface of Axial Piston Pump on the Tribometer[J].Chinese Journal of Mechanical Engineering,2021,34(6):281-297.
10Li Jianmin,栗长江.Contemporary Russia's Economic Transition and Development and China-Russia Economic and Trade Cooperation[J].Social Sciences in China,2021,42(4):158-178.

Frontiers of Mechanical Engineering

2022年第2期

浏览历史

内容加载中请稍等...

Development of an analytical model to estimate the churning losses in high-speed axial piston pumps

参考文献6

二级参考文献10

共引文献12

相关作者

相关机构

相关主题

浏览历史