The dynamics of a spiral groove dry gas seal (DGS) are analyzed using extreme operating conditions based on the semi-analytical method developed by Miller and Green. The compressible form of the Reynolds equation is solved numerically with a finite element method for the DGS gas film model to determine the stiffness model for the gas film during the dynamic process by calculating the gas film response to a step jump in the film thickness. Then, the stiffness model is applied to the kinetic model of the seal ring in the frequency domain. The movement of the seal ring in the time domain is obtained by an inverse Laplace transform. The method is used to solve for the transient response of a DGS to both the axial and tilt initial disturbances. The influences of the geometric parameters are evaluated to find reasonable parameters for parametric design to improve dynamic performance of the DGS for turbine compressor spiral groove DGS designs.
刘向锋, 徐辰, 黄伟峰. 基于半解析法的极端工况干气密封动态特性研究与参数设计[J]. 清华大学学报(自然科学版), 2014, 54(2): 223-228.
Xiangfeng LIU, Chen XU, Weifeng HUANG. Analysis and parametric design of the dynamics of a dry gas seal for extreme operating conditions using a semi-analytical method. Journal of Tsinghua University(Science and Technology), 2014, 54(2): 223-228.
王玉明, 马将发, 陆文高. 高速透平压缩机的轴端密封[J]. 石油化工设备技术, 2000, 21(4): 62-66. WANG Yuming, MA Jiangfa, LU Wengao. Shaft end seal for high speed turbine compressor[J]. Petro-Chemical Equipment Technology, 2000, 21(4): 62-66. (in Chinese)
[2]
彭旭东, 王玉明, 黄兴, 等. 密封技术的现状与发展趋势[J]. 液压气动与密封, 2009(4): 4-11. PENG Xudong, WANG Yuming, HUANG Xing, et al. State-of-the-art and future development of sealing technology[J]. Hydraulics Penumatics & Seals, 2009(4): 4-11. (in Chinese)
[3]
顾永泉. 流体动密封 [M]. 东营: 石油大学出版社, 2000. GU Yongquan. Dynamic Fluid Seals [M]. Dongying: China University of Petroleum Press, 2000. (in Chinese)
[4]
Green I, Barnsby R M. A simultaneous numerical solution for the lubrication and dynamic stability of non contacting gas face seals[J]. ASME J Tribology, 2001, 123(2): 388-394.
[5]
Ruan B. Numerical modeling of dynamic sealing behaviors of spiral groove gas face seals[J]. ASME J Tribology, 2002, 124(1): 186-195.
[6]
刘雨川, 徐万孚, 王之栎, 等. 端面气膜密封动力特性系数的计算[J]. 清华大学学报: 自然科学版, 2002, 42(2): 185-189. LIU Yuchuan, XU Wanfu, WANG Zhili, et al.Dynamic coefficients for gas film face seal[J]. J Tsinghua Univ: Sci & Tech, 2002, 42(2): 185-189. (in Chinese)
[7]
刘雨川, 徐万孚, 王之栎, 等. 气膜端面密封角向摆动自振稳定性[J]. 机械工程学报, 2002, 38(4): 1-6. LIU Yuchuan, XU Wanfu, WANG Zhili, et al.Stability of angular wobble self-excited vibrations for gas film face seal[J]. J Mechanical Engineering, 2002, 38(4): 1-6. (in Chinese)
[8]
Ruan B. A semi-analytical solution to the dynamic tracking of non-contacting gas face seals[J]. ASME J Tribology, 2002, 124(1): 196-202.
[9]
Miller B, Green I. Numerical techniques for computing rotor-dynamic properties of mechanical gas face seals[J]. ASME J Tribology, 2002, 124(4): 755-761.
[10]
Elrod H G, McCabe J T, Chu T Y. Determination of gas-bearing stability by response to a step-jump[J]. ASME J Tribology, 1967, 89(4): 493-498.
[11]
Miller B, Green I. Semi-analytical dynamic analysis of spiral-grooved mechanical gas face seals[J]. ASME J Tribology, 2003, 125(2): 403-413.
[12]
温诗铸, 黄平. 摩擦学原理 [M]. 3版. 北京: 清华大学出版社, 2008. WEN Shizhu, HUANG Ping. Principles of Tribology [M]. 3th Ed. Beijing: Tsinghua University Press, 2008. (in Chinese)
2014, Vol. 54 
),徐辰,黄伟峰
