往复式压缩机气阀数值模拟研究进展
The Research Progress of Numerical Simulation for Reciprocating Compressor Valve

作者: 张 琴 , 张慢来 , 周志宏 :长江大学机械工程学院,湖北 荆州;

关键词: 气阀压缩机数值模拟多物理场Valve Compressor Numerical Simulation Multi-Physics Field

摘要:
对往复式压缩机气阀的数值模拟研究进展进行了综述。通过分析发现:随着计算流体动力学学科的不断发展,应用CFD方法模拟气阀内流场对于了解多物理场随空间、时间的变化具有显著优势,根据内流场特点改进结构成为CFD模拟的应用方向,需要在完善多场耦合理论和提高模拟精度方面进一步开展研究。

Abstract: The research progress and application of numerical simulation for reciprocating compressor valve are reviewed in this paper. It shows that the numerical simulation of flow field inner valve is propitious to reveal the spatial distribution pattern of multi-physics field at different times, and the valve can be optimized through comparing several flow fields of different structures. Additionally, it is important to make some efforts on improving the multi-field coupling theory and simulation accuracy for the further development of reciprocating compressor.

文章引用: 张 琴 , 张慢来 , 周志宏 (2014) 往复式压缩机气阀数值模拟研究进展。 流体动力学, 2, 69-72. doi: 10.12677/IJFD.2014.24008

参考文献

[1] Cyklis, P. (1994) CFD simulation of the flow through reciprocating compressor self-acting valves. International Com-pressor Engineering Conference, Purdue, 17-21 July 1990, 427-432.

[2] Peskin, A.P. (1999) The effects of different property models in a computational fluid dynamics simulation of a reciprocating compressor. International Journal of Thermophysics, 20, 175-185.

[3] Pérez-Segarra, C.D., Cadafalch, J., Rigola, J. and Oliva, A. (1999) Numerical study of turbulent fluid flow through valves. International Conference on Compressors and Their Systems, C542/021/99, London, 13-15 September 1999, 736-743.

[4] Rovaris, J.B. and Deschamps, C.J. (2006) Large eddy simulation applied to reciprocating compressors. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 28, 208-215.

[5] Colaciti, A.K., Valdés ópez, L.M., Navarro, H.A. and Cabezas-Gómez, L. (2007) Numerical simulation of a radial diffuser turbulent airflow. Applied Mathematics and Computation, 189, 1491-1504.

[6] Rigola, J., Lehm-kuhl Barba, O., Ventosa, J., Pérez Segarra, C.D. and Oliva Llena, A. (2012) Numerical simulation of the turbulent fluid flow through valves based on low mach models. International Compressor Engineering Conference, Purdue, 16-19 July 2012, 1375-1382.

[7] Aigner, R., Meyer, G. and Steinrück, H. (2005) Valve dynamics and internal waves in a reciprocating compressor. 4th Conference of the EFRC, Antwerp, 9-10 June 2005, 1275-1283.

[8] Birari, Y.V., Gosavi, S.S. and Jorwekar, P.P. (2006) Use of CFD in design and development of R404A reciprocating compressor. In-ternational Compressor Engineering Conference, Purdue, 17-20 July 2006, 72-78.

[9] Nakano, A. and Kinjo, K. (2008) CFD applications for development of reciprocating compressor. International Compressor Engineering Confe-rence, Purdue, 17-20 July 2006, 1326-1333.

[10] Kinjo, K., Nakano, A., Hikichi, T. and Morinishi, K. (2010) Study of CFD considering valve behavior in reciprocating compressor. International Compressor Engineering Conference, Purdue, 12-15 July 2010, 1256-1263.

[11] Almbauer, R., Lang, W., Nagy, D. and Berger, E. (2010) Application of computational fluid dynamics for the thermodynamic development of a new generation of hermetic reciprocating com-pressor. International Compressor Engineering Conference, Purdue, 12-15 July 2010, 1230-1236.

[12] Pratelli, G., et al. (2012) Valve dynamics and internal waves in a reciprocating compressor. 8th EFRC Conference, Budapest, 17-20 May 2012, 1042-1050.

[13] Mistry, H., Bhakta, A., Dhar, S., Bahadur, V. and Dey, S. (2012) Capturing valve dy-namics in reciprocating compressors through computational fluid dynamics. International Compressor Engineering Conference, Purdue , 16-19 July 2012,1210-1215.

[14] 赵斌 (2007) 基于CFD的气阀内气体流动规律模拟. 石油化工设备, 6, 66-68.

[15] 卢朝霞, 王玉鹏, 张增营, 潘树林, 梁景, 孙建华 (2008) 往复式压缩机环状阀工作过程冲击应力分析. 流体机械, 11, 11-16.

[16] 武炳, 江志农 (2011) 往复式压缩机气阀受力的CFD 分析. 压缩机技术, 4, 24-26.

分享
Top