基于CFD仿真的涡旋压缩机径向柔性分析及改善

doi:10.19784/j.cnki.issn1672-0172.2022.99.002

家电科技 ›› 2022, Vol. 0 ›› Issue (zk): 7-10.doi: 10.19784/j.cnki.issn1672-0172.2022.99.002

基于CFD仿真的涡旋压缩机径向柔性分析及改善

杨帆¹, 刘金平², 曹红军¹, 李霄³

1.美的集团工业技术事业群研究院广东佛山 528000;
2.华南理工大学电力学院广东广州 510000;
3.广东美的环境科技有限公司广东佛山 528000

出版日期:2022-12-07 发布日期:2023-03-28
作者简介:杨帆,博士研究生。研究方向：涡旋压缩机仿真技术、气浮轴承多物理场仿真设计。地址：广东省佛山市顺德区北滘美的工业城东区10号。E-mail：yangfan28@midea.com。

Analysis and improvement of the radial compliance in scroll compressor based on CFD computation

YANG Fan¹, LIU Jinping², CAO Hongjun¹, LI Xiao³

1. Industrial Technology Business Group Research Institute in Midea Company Foshan 528000;
2. School of Electric Power, South China University of Technology Guangzhou 510000;
3. Guangdong Midea Environmental Technology Co., Ltd. Foshan 528000

Online:2022-12-07 Published:2023-03-28

摘要/Abstract

摘要： 涡旋压缩机径向柔性设计通过动盘退让可以避免液击或固体杂质等破坏,但柔性角度过大会导致动静盘接触力过大而摩擦加剧,过小会导致动静盘接触力不够而分离产生泄漏。为了获得合适的柔性驱动角度,采用CFD仿真研究了径向柔性驱动角对动态气体力分布以及动静盘接触力的影响,结果发现随着驱动角度减小动静盘接触力不断减小,通过不同角度整机测试发现驱动角度降低了10°,DOE-B工况入力降低约1.0%,能效提升约1.0%,验证了所建立CFD仿真方法的有效性,研究可为涡旋压缩机柔性驱动角的优化设计提供理论和实践指导。

关键词: 径向柔性, 接触力, 驱动角度, 涡旋压缩机, CFD仿真

Abstract: The radial compliance design of scroll compressor can avoid the damage of liquid hammer or solid impurities through the concession of moving disc. However, too large compliance angle leads to excessive contact force between moving and stationary disc and intensified friction. Too small compliance angle leads to insufficient contact force between moving and stationary disc, contributing to leakage. To obtain a more appropriate radial compliance angle, CFD simulation is used to study the influence of radial compliance driving angle on the dynamic gas force and the contact force between the moving and stationary disc. The results show that the contact force between the moving and stationary disc decreases with the reduction of driving angle. Through the whole machine test at different angles, it is found that the input force under DOE-B condition decreases by about 1.0% when the driving angle is decreased by 10°. The efficiency is improved by about 1.0%, which verifies the effectiveness of the established CFD simulation method. The research can provide theoretical and practical guidance for the optimal design of radial compliance driving angle of scroll compressor.

Key words: Radial compliance, Contact force, Driving angle, Scroll compressor, CFD computation

中图分类号:

杨帆, 刘金平, 曹红军, 李霄. 基于CFD仿真的涡旋压缩机径向柔性分析及改善[J]. 家电科技, 2022, 0(zk): 7-10.

YANG Fan, LIU Jinping, CAO Hongjun, LI Xiao. Analysis and improvement of the radial compliance in scroll compressor based on CFD computation[J]. Journal of Appliance Science & Technology, 2022, 0(zk): 7-10.

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基于CFD仿真的涡旋压缩机径向柔性分析及改善

Analysis and improvement of the radial compliance in scroll compressor based on CFD computation

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