Abstract
Mechanical analysis of hydraulic machinery includes two fields, structural dynamics and rotor dynamics. Structural dynamics is a subset that covers areas of structural behavior subjected to dynamic loading. Rotordynamics is a specialized branch of applied mechanics concerned with the behavior and diagnosis of rotating structures.
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References
Blanco, E., Parrondo, J. & Barrio, R. (2006). Fluid-dynamic radial forces at the blade-passing frequency in a centrifugal pump with different impeller diameters. In: Proceeding of IAHR International Meeting of WG on Cavitation and Dynamic Problems in Hydraulic Machinery and Systems, Barcelona.
Chen, C. X., Wu, D. Z., Tan, S. G. & Wang, L. Q. (2008). Computing critical speeds for multiple-stage centrifugal pumps with speed dependent support properties. Fluid Machinery and Fluid Mechanics (pp. 306–309). Hamburg: Springer.
Eide, S. & Dahlhuang, O. G. (2002). Analysis of the leakage flow and wear in guide vanes. In: Proceedings of the XXI IAHR Symposium on Hydraulic Machinery and Systems, Lausanne.
Feng, F. Z. (2000). Dynamic analysis and application of the rotor-bearing system of a large scale pumped storage power generator unit. Ph.D dissertation, Tsinghua University in China.
Feng, F. Z., & Chu, F. L. (2001). Dynamic analysis of a hydraulic turbine unit. Mechanics of Structures and Machines, 29, 505–531.
Hsu, Y., & Brennen, C. E. (2002). F1uid flow equations for rotordynamic flows in seals and leakage paths. ASME Journal of Fluids Engineering, 124, 176–181.
Jiang, Y. (2008). Research on torsion vibration water turbine generator unit. Dissertation for Master degree, Dalian University of Technology in China.
Kumar, A. S., & Sankar, T. S. (1986). A new transfer matrix method for response analysis of large dynamic systems. Computers and Structures, 23, 545–552.
Liao, W. L. & Li J. Z. (2002). Numerical simulation and experimental investigation on the flow in end clearance region of the guide vane of hydraulic turbine. In: Proceedings of the XXI IAHR Symposium on Hydraulic Machinery and Systems, Lausanne.
Ma, C. Z. (2007). The study of dynamic characteristics of shaft system of Francis turbine generator units. Dissertation for Master degree, Guangxi University in China.
Ohashi, H. (1991). Vibration and oscillation of hydraulic machinery. London: Avebury Teehnical Press.
Ping, S. L., Tan, S. G., Wu, D. Z. & Wang, L. Q. (2008). Analysis on modeling rotor system with sliding baring and ring seal by using FEM. Fluid Machinery and Fluid Mechanics (pp. 366–370). Hamburg: Springer.
Swain, M. (2008).Vibrations in a Francis turbine: A case Study, Electrical India 48(5).
Wikipedia. (2008). http://en.wikipedia.org/wiki/Francis_turbine.
Wu, Z. Y. (2002). Computer and analysis of linear characteristic of vibration of shafts of the hydro electric machines, Dissertation for Master degree, Xi’an University of Technology in China.
Zhang, L. (2006). The dynamics characteristic analysis for the shafts of large hydraulic generator unit, Dissertation for Master degree, Xi’an Univ. of Technology in China.
Zhang, W. (2008). Research on dynamics of shaft system of hydro-electric generating set. Dissertation for Master degree, Dalian University of Technology in China.
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Wu, Y., Li, S., Liu, S., Dou, HS., Qian, Z. (2013). Mechanical and Magnetic Excitations in Hydraulic Machinery. In: Vibration of Hydraulic Machinery. Mechanisms and Machine Science, vol 11. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-6422-4_5
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DOI: https://doi.org/10.1007/978-94-007-6422-4_5
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