Study on effect analysis and parameter optimizing of stepless capacity control system on reciprocating compressors 被引量：2

Study on effect analysis and parameter optimizing of stepless capacity control system on reciprocating compressors

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摘要 An improved model of reciprocating compressor operation cycle with a stepless capacity control system is presented and influence of the key parameters of the system is evaluated. In the stepless capacity control system of a reciprocating compressor,mechanical unloaders are used to partially hold suction valves open for a certain time during the compression stroke. The typical working process of the reciprocating compressor is changed by capacity regulation apparatus. However,some critical parameters like the hydraulic force acting at the unloader have not been rigorously studied in previous researches. Here an improved numerical model of a double acting reciprocating compressor under the control stepless capacity is proposed and verified by experimental trials. Numerical simulations are carried out to select and evaluate the acting force which definitely has an influence on indicator diagrams of compressors. It is observed that the optimized range of 350 N to 380 N is preferable for the unloader force such that the intensity of opening and closing impacts are minimized. An improved model of reciprocating compressor operation cycle with a stepless capacity control system is presented and influence of the key parameters of the system is evaluated. In the stepless capacity control system of a reciprocating compressor,mechanical unloaders are used to partially hold suction valves open for a certain time during the compression stroke. The typical working process of the reciprocating compressor is changed by capacity regulation apparatus. However,some critical parameters like the hydraulic force acting at the unloader have not been rigorously studied in previous researches. Here an improved numerical model of a double acting reciprocating compressor under the control stepless capacity is proposed and verified by experimental trials. Numerical simulations are carried out to select and evaluate the acting force which definitely has an influence on indicator diagrams of compressors. It is observed that the optimized range of 350 N to 380 N is preferable for the unloader force such that the intensity of opening and closing impacts are minimized.

作者王瑶 Zhang Jinjie Zhou Chao Liu Wenhua

机构地区 Diagnosis and Self-recovering Engineering Research Center Compressor Health and Intelligent Monitoring Center of National Key Laboratory of Compressor Technology

出处《High Technology Letters》 EI CAS 2018年第1期1-9,共9页 高技术通讯（英文版）

基金 Supported by the National Key Research and Development Plan(No.2016YFF0203305) the National High Technology Research and Development Programme of China(No.2014AA041806) the Fundamental Research Funds for the Central Universities(No.ZY1617)

关键词 reciprocating COMPRESSOR STEPLESS capacity CONTROL NUMERICAL MODEL parametersoptimization reciprocating compressor stepless capacity control numerical model parameters optimization

分类号 TH45 [机械工程—机械制造及自动化]

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参考文献5

1王瑶,张进杰,刘锦南,幺子云,江志农.往复压缩机网状阀瞬态运动模拟与应力分析[J].机械强度,2016,38(3):543-548. 被引量：7
2JIN Jiangming,HONG Weirong.Valve Dynamic and Thermal Cycle Model in Stepless Capacity Regulation for Reciprocating Compressor[J].Chinese Journal of Mechanical Engineering,2012,25(6):1151-1160. 被引量：7
3沈伟,Huang Honglei,Li Yang,Zhang Dijia,Jiang Jihai.Work characteristic analysis of single-rod symmetric cylinders[J].High Technology Letters,2017,23(3):286-292. 被引量：4
4兴成宏,Xu Fengtian,Yao Ziyun,Li Haifeng,Zhang Jinjie.A fault diagnosis method of reciprocating compressor based on sensitive feature evaluation and artificial neural network[J].High Technology Letters,2015,21(4):422-428. 被引量：3
5邓志安,Xiao Xue.Experimental study on pressure fluctuation characteristics of slug flow in horizontal curved tubes[J].High Technology Letters,2017,23(1):23-29. 被引量：1

二级参考文献33

1赵庆军,何利民,徐建中.水平管段塞流压力/压差波动特性分析[J].工程热物理学报,2005,26(3):441-446. 被引量：8
2张东海,梁红.压缩机环状阀工作过程冲击应力的有限元分析研究[J].石油和化工设备,2006,9(4):11-12. 被引量：2
3罗小明,何利民,陈振瑜.下倾管中段塞流液塞长度波动的非线性分析[J].高校化学工程学报,2006,20(5):702-706. 被引量：3
4王朝晖,姚德群,段礼祥.基于模糊聚类的油田往复压缩机气阀故障诊断研究[J].机械强度,2007,29(3):521-524. 被引量：22
5STEINRUCK P, OTTITSCH F, LINSKESEDER M. Better reciprocating compressor capacity control[J]. Hydrocarbon Processing, 1997, 76(2): 79-84.
6STEINRUCK Peter. Device and method for influencing the periodic stroke movement of the closing element of a valve: USA, 5833209[P/OL]. 1995-07-2811998-09-10]. http://www.uspto.gov/ patents/process/search/.
7SPIEGL Bernhard, STEINRUCK Peter, MACHU Gumther, et al. Method of stepless capactiy control of a reciprocating piston compressor and piston compressor with such control: USA, US2004/0091365Al[P/OL]. 2003-09-1712004-05-13]. http://www. uspto.gov/Patents/process/search/.
8HICKMAN Dwayne A, SLUPSKY John, CHRISMAN Bruce M, et al. Development, field testing and implementation of automated hydraulically controlled, variable volume loading systems for reciprocating compressors[C]//Proceeding of the International Pipeline Conference, Calgary, Alberta, Canada: 2002: 1-9.
9HONG W, JIN J, WU R, et al. Theoretical analysis and realization of stepless capacity regulation for reciprocating compressors[J]. Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 2009, 223(4): 205-213.
10YU Yongzhang. Technical manual of reciprocating compressor[M]. Beijing: China Machine Press, 2000. (in Chinese).

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2包彬彬,张赟新,马增辉,江志农,张进杰.往复压缩机变工况下吸气阀运动及冲击特性研究[J].流体机械,2016,44(8):1-5. 被引量：9
3刘广彬,唐斌,赵远扬,李连生.往复压缩机流量无级调节系统动态特性研究[J].机械工程学报,2017,53(23):26-31. 被引量：7
4程寿国.往复压缩机十字头销与连杆小头磨损过大故障机理研究[J].计量与测试技术,2018,45(4):96-98. 被引量：1
5江志农,Zhu Lina,Zhang Jinjie,Zhou Chao.Research on fault diagnosis method of piston rod based on harmonic wavelet and manifold learning[J].High Technology Letters,2018,24(3):232-240. 被引量：3
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10潘小聪,林建平,许志典.污水处理在化妆品中的应用[J].化工管理,2019(27):53-55. 被引量：1

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1胡玉清.燃机电厂天然气增压系统的选择概述[J].电力勘测设计,2006,18(5):61-64. 被引量：7
2邹虎,雷玉勇,吴雄,杨振,吕华.液压活塞式天然气压缩机余隙控制研究[J].液压与气动,2011,35(2):59-62. 被引量：3
3李颖,洪伟荣.往复压缩机气量调节气阀顶开力设计[J].压缩机技术,2015(2):30-32. 被引量：3
4刘刚.天然气输送环节的节能降耗综述[J].中外能源,2016,21(3):92-95. 被引量：3
5徐明.燃气轮机电厂天然气增压站压缩机变频调速技术的应用[J].电力科技与环保,2017,33(6):61-62. 被引量：8
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1WIDER OPENING UP[J].Beijing Review,2018,61(15):16-17.
2杨丽,陈玉烛,车良菊,祝小燕,熊烨.失效模式与效应分析对泌尿外科留置导尿患者尿路感染的影响[J].中华医院感染学杂志,2018,28(4):610-613. 被引量：45
3Tianyun Wang,Xing Jin,Yandan Huang,Yongxiang Wei.Real-time 3-D space numerical shake prediction for earthquake early warning[J].Earthquake Science,2017,30(5):269-281. 被引量：2
4Salvatore Villani.Recovery Capacity of the Finance System of Italian Municipalities After the Currency Crisis of 1992[J].Journal of Modern Accounting and Auditing,2018,14(3):121-135.
5Antonio Nenna,Mario Lusini,Cristiano Spadaccio,Francesco Nappi,Salvatore Matteo Greco,Raffaele Barbato,Elvio Covino,Massimo Chello.Heart rate variability： a new tool to predict complications in adult cardiac surgery[J].Journal of Geriatric Cardiology,2017,14(11):662-668. 被引量：5
6Hanane Zermane,Hayet Mouss.Development of an Internet and Fuzzy Based Control System of Manufacturing Process[J].International Journal of Automation and computing,2017,14(6):706-718. 被引量：1
7Tianyun Wang,Xing Jin,Yongxiang Wei,Yandan Huang.Real-time numerical shake prediction and updating for earthquake early warning[J].Earthquake Science,2017,30(5):251-267.
8ZHANG Wei-bo,JIA De-xian,LI Hong-yan,WEI Yu-long,YAN Huang,ZHAO Peng-na,GU Fei-fei,WANG Guang-jun,WANG Yan-ping.Understanding Qi Running in the Meridians as Interstitial Fluid Flowing via Interstitial Space of Low Hydraulic Resistance[J].Chinese Journal of Integrative Medicine,2018,24(4):304-307. 被引量：10
9晁智强,Ning Chuming,Shen Wei,Li Huaying,Han Shousong.Analysis of energy consumption characteristics of hydraulic system for wrecker truck based on CPR[J].High Technology Letters,2018,24(1):82-89.
10Thiago Gagliano-Juca,Shehzad Basaria.Trials of testosterone replacement reporting cardiovascular adverse events[J].Asian Journal of Andrology,2018,20(2):131-137. 被引量：3

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