不同频率下缓冲罐体积对有阀线性压缩机管系压力脉动的实验研究

Experimental study of effects of buffer tank volume on pressure pulsation in valved linear compressor′s pipe system at different frequencies

下载PDF

导出

摘要有阀线性压缩机是液氦温区Joule-Thomson(J-T)节流制冷机重要部件,而管系压力脉动会造成制冷机出现温度与制冷量波动,从而影响制冷机温度稳定性。针对有阀线性压缩机管系压力脉动问题,以有线性阻尼的平面波动理论为基础,采用传递矩阵法构造了有阀线性压缩机管路缓冲罐压力脉动传递模型,获得有阀线性压缩机脉动质量流量的量化表达。搭建了有阀线性压缩机管系压力脉动测试平台,讨论了压缩机运行频率与进排气缓冲罐体积对压力脉动的影响。研究结果表明:管系压力脉动与压缩机运行频率有关,随着压缩机运行频率增大,管系压力脉动增大。进排气缓冲罐均可有效抑制压力脉动,但两者的压力脉动抑制能力相互独立,且缓冲罐体积越大,压力脉动抑制效果越好。随着缓冲罐体积的增加,进气缓冲罐进口处压力不均匀度减小到164/423,排气缓冲罐出口处压力不均度减小到8/23。 The valved linear compressor(VLC)is an essential part of the Joule-Thompson(J-T)throttling cryocooler in the liquid helium temperature region.The pressure pulsation may cause the fluctuation of the temperature and cooling capacity of the cryocooler,thus affecting its temperature stability.To measure the pressure pulsation of the VLC′s pipe system,the mathematical model of pressure pulsation in the buffer tank of the VLC was established with the transfer matrix method based on the plane wave theory.The quantitative representation of the pulsating mass flow of the VLC was obtained with the linear damping based on the plane wave theory.Then,a test bench was set up to measure the pressure pulsation.The influence of the VLC′s operating frequency and the suction and discharge buffer tank volume on the pressure pulsation was discussed.Results show that the pressure pulsation of the pipe system is related to the VLC′s operating frequency.The pressure pulsation of the pipe system increases with the increase of the VLC′s operating frequency.Both the inlet and outlet buffer tanks can effectively inhibit the pressure pulsation,but their capability is independent of each other.The pressure pulsation inhibition effect is better with the increase of the buffer tank volume.With the increase of the buffer tank volume,the pressure inhomogeneity at the inlet of the inlet buffer tank decreases to 164 over 423,but the pressure inhomogeneity at the outlet of the outlet buffer tank decreases to 8 over 23.

作者黄琦丁磊沙鑫权李子成刘少帅蒋珍华董德平 HUANG Qi;DING Lei;SHA Xinquan;LI Zicheng;LIU Shaoshuai;JIANG Zhenhua;DONG Deping(Shanghai Institute of Technical Physics,Chinese Academy of Science,Shanghai 200083,China;University of Chinese Academy of Sciences,Beijing 100049,China)

机构地区中国科学院上海技术物理研究所中国科学院大学

出处《西北工业大学学报》 EI CAS CSCD 北大核心 2024年第2期286-294,共9页 Journal of Northwestern Polytechnical University

基金中国科学院率先行动“引才计划” 国家自然科学基金(51806231) 中国科学院战略性先导专项(XDB35000000,XDB35040102)资助。

关键词有阀线性压缩机平面波动理论压力脉动运行频率缓冲罐体积 valved linear compressor plane wave theory pressure pulsation operating frequency buffer tank volume

分类号 TB652 [一般工业技术—制冷工程] TB535 [理学—物理]

引文网络
相关文献

参考文献9

1张传鑫,张卫义,孙笠峰,涂俊,任园.气流脉动的分析与消减[J].压缩机技术,2014(4):19-21. 被引量：6
2韩文龙,韩省亮,白长青.往复式压缩机管道系统气流脉动的数值与实验研究[J].西安交通大学学报,2013,47(5):61-66. 被引量：24
3李元,全恺,吴睿,畅云峰,郭蓓,张博.往复压缩机管路大气流脉动的数值模拟和实验研究[J].西安交通大学学报,2019,53(11):20-26. 被引量：8
4徐斌,冯全科,余小玲.往复压缩机级间管路气流脉动研究[J].压缩机技术,2009(3):1-3. 被引量：7
5党锡淇,陈守五编..活塞式压缩机气流脉动与管道振动[M].西安:西安交通大学出版社,1984:360.
6门晓苏,张卫义,赵杰,袁伟.基于平面波理论的压缩机气流压力脉动分析与试验研究[J].流体机械,2017,45(12):1-7. 被引量：9
7马屈杨,杨国安,李孟君.径向排气式缓冲罐对往复压缩机管系振动的抑制研究[J].振动与冲击,2019,38(12):17-24. 被引量：6
8董彩倩,刘少帅,蒋珍华,汤逸豪,向振之,崔晓钰,吴亦农.4 K节流制冷机预冷温度及压力特性影响研究[J].化工学报,2019,70(12):4528-4535. 被引量：5
9孙建..千瓦级蒸气压缩制冷系统无油线性压缩机研究[D].中国科学院大学,2021:

二级参考文献46

1苏永升,王恒杰,曹利军.应用CFD消除气流脉动[J].华东理工大学学报（自然科学版）,2006,32(4):480-483. 被引量：22
2Jerry E F, Rajendra S. An acoustic transfer matrix model for compressor and condenser interaction [ C ]. Prudue Compressor Technology Conference, 1990:362 - 369. 被引量：1
3Coles B. A simultaneous solution for transfer matrix acoustic models [ C ]. Prudue Compressor Technology Conference, 1992:715 - 721. 被引量：1
4陈守五黄幼玲.往复式压缩机一维不稳定气流方程的数值解法.西安交通大学学报,1982,1:55-66. 被引量：4
5CYKLIS P. Experiment identification of the transmit- tance matrix for any element of the pulsating gas mani- fold [J]. Journal of Sound and Vibration, 2001, 244 (5) : 859-870. 被引量：1
6COLES B. A simultaneous solution for transfer matrix acoustic models [C] // Proceedings of Compressor Technology Conference. West Lafayette, IN, USA: Purdue of University, 1992: 715-721. 被引量：1
7GIACOMELLI E, FALCIANI F. Pressure vessel de- sign for reciprocating compressors applied in refinery and petrochemical plants [C]//2005 Pressure Vessel 8< Piping Conference. New York, USA: ASME, 2005 : 717-721. 被引量：1
8HOWES B C, GREENFIELD S D. Guidelines in pul- sation studies for reciprocating compressors [J]. Pro- ceedings of the International Pipeline, 2002, 30 (3) : 1241-1250. 被引量：1
9ENZO G, MARCO P. Control of pulsation and vibra- tions in hyper compressors for LDPE plants [C]// 2004 Pressure Vessel ~ Piping Conference. New York, USA: ASME, 2004: 719-722. 被引量：1
10ING A B, ANDREA P. ACUSCOMP and ACUSYS: a powerful hybrid linear/nonlinear simulation suite to analyses pressure pulsations in piping [C]//Interna- tional Conference on Noise and Vibration Engineering. Leuven, Belgium: ISMA, 2006: 23-27. 被引量：1

共引文献49

1杨帆,曹红军,刘金平.基于CFD仿真的喷气增焓管压力脉动分析及改善[J].家电科技,2021(S01):279-283. 被引量：3
2白文杰,李涌泉,谢旭梦,段权.孔板消减气流脉动的数值模拟[J].应用力学学报,2013,30(6):828-832. 被引量：16
3郭景宏,苏景武,王芝杰.往复压缩机管道系统振动计算方法的研究[J].化工机械,2014(3):323-326. 被引量：2
4陈章华.压缩机出口管道振动原因分析及对策[J].化工设备与管道,2016,43(2):51-52. 被引量：6
5鄢曙光,祝振杰.基于FLUENT的孔板消减气流脉动的数值模拟[J].液压与气动,2016,40(7):77-82. 被引量：10
6田洪源.以可靠性为核心的往复式压缩机维修方法浅析[J].中国设备工程,2017(2):41-42. 被引量：1
7刘丽思,张杨,付玉东,杨国安.往复压缩机管路中T型三通的气流脉动动力学特征研究[J].化工机械,2017,44(1):73-78. 被引量：4
8熊怡君,张晓青,张栋,侯小兵,叶君超.大型往复压缩机管道系统气流脉动的计算[J].工程热物理学报,2017,38(10):2119-2124. 被引量：9
9沈九兵,王瑞鑫,周明龙,陈文卿.半封闭螺杆制冷压缩机排气噪声模拟与试验研究[J].机械工程学报,2017,53(20):169-175. 被引量：16
10门晓苏,张卫义,赵杰,袁伟.基于平面波理论的压缩机气流压力脉动分析与试验研究[J].流体机械,2017,45(12):1-7. 被引量：9

1冯钰琦,赵杰,姚冉,王朋,于孟瑶.基于磁流变阻尼器的往复压缩机管系减振技术研究[J].振动与冲击,2023,42(15):101-107. 被引量：1
2陈秧秧,卢海碧.带温度显示器的骨科创伤冷敷护理袋的设计与应用[J].中国乡村医药,2024,31(8):51-51.
3陈沛,刘惠康,柴琳,周楠.基于力矩传递模型的风力机叶片颤振抑制方法[J].太阳能学报,2024,45(4):159-165.
4刘宸宁,孔鑫,王雪,陈伟,李浩.装备维修保障知识模型构建及推理方法[J].火力与指挥控制,2024,49(2):151-160.
5隋东,董金涛.基于相对熵逆强化学习的飞行冲突解脱方法[J].安全与环境学报,2024,24(3):1070-1078.
6张小伟,冯敏,盛楠,巨涛,蒋峰.丁二烯装置循环气压缩机出口消音器及管道振动原因分析及改造[J].乙烯工业,2024,36(1):21-23.
7邴柳洁.换热器设计中无相变温度交叉问题的技术措施[J].山东化工,2024,53(6):224-227.
8Richard James Petti.Improved Units of Measure in Rotational Mechanics[J].World Journal of Mechanics,2024,14(1):1-7.
9Marwan Laqdiem,Julio García-Fayos,Laura Almar,Alfonso J.Carrillo,Álvaro Represa,JoséM.López Nieto,Sonia Escolástico,David Catalán-Martinez,Jose M.Serra.Electrifying Ba_(0.5)Sr_(0.5)Co_(0.8)Fe_(0.2)O_(3-δ) for focalized heating in oxygen transport membranes[J].Journal of Energy Chemistry,2024,91(4):99-110.
10Xuan CUI,Rui ZHAO,Min WAN.Modified constitutive models for Inconel 718 considering current density and temperature in electrically assisted forming process[J].Chinese Journal of Aeronautics,2024,37(2):524-540.

西北工业大学学报

2024年第2期

浏览历史

内容加载中请稍等...

不同频率下缓冲罐体积对有阀线性压缩机管系压力脉动的实验研究

参考文献9

二级参考文献46

共引文献49

相关作者

相关机构

相关主题

浏览历史