[1] FRANCE D. A review of vibration problems in power station boiler feed pumps[C]//NASA C. P.,US,1994:249-276. [2] LIU H,WANG Y,YUAN S,et al. Effects of blade number on characteristics of centrifugal pumps[J]. Chinese Journal of Mechanical Engineering,2010,23(6):742-747. [3] CHAKRABORTY S,CHOUDHURI K,DUTTA P,et al. Performance prediction of centrifugal pumps with variations of blade number[J]. Journal of Scientific & Industrial Research,2013,72(6):373-378. [4] ZHANG Z. Rotating stall mechanism and stability control in the pump flows[J]. Proceedings of the Institution of Mechanical Engineers,Part A:Journal of Power and Energy,2011,225(6):779-788. [5] BERTEN S,DUPONT P,FABRE L,et al. Experimental investigation of flow instabilities and rotating stall in a high energy centrifugal pump stage[C]//Proceedings of the 2009 ASME Fluids Engineering Division Summer Meetings,Colorado,US,2009:78562.1-78562.6 [6] PACOT O,KATO C,AVELLAN F. High-resolution LES of the rotating stall in a reduced scale model pump-turbine[C]//IAHR Symposium,Canada,2014:22018.1-22018.8. [7] PEDERSEN N,LARSEN P S,JACOBSEN C B. Flow in a centrifugal pump impeller at design and off-design conditions—Part I:Particle image velocimetry (PIV) and laser Doppler velocimetry (LDV) measurements[J]. Journal of Fluids Engineering,2003,125(1):61-72. [8] FENG J,BENRA F K,DOHMEN H J. Unsteady flow visualization at part-load conditions of a radial diffuser pump:By PIV and CFD[J]. Journal of Visualization,2009,12(1):65-72. [9] KRAUSE N,ZAHRINGER K,PAP E. Time-resolved particle imaging velocimetry for the investigation of rotating stall in a radial pump[J]. Experiments in Fluids,2005,39(2):192-201. [10] ULLUM U,WRIGHT J,DAYI O,et al. Prediction of rotating stall within an impeller of a centrifugal pump based on spectral analysis of pressure and velocity data[C]//Journal of Physics:Conference Series,Denmark,2006:36-45. [11] BYSKOV R K,JACOBSEN C B,PEDERSEN N. Flow in a centrifugal pump impeller at design and off-design conditions—Part II:Large eddy simulations[J]. Journal of Fluids Engineering,2003,125(1):73-83. [12] YANG Z,WANG F,ZHOU P. Evaluation of subgrid-scale models in large-eddy simulations of turbulent flow in a centrifugal pump impeller[J]. Chinese Journal of Mechanical Engineering,2012,25(5):911-918. [13] 周佩剑,王福军,姚志峰. 离心泵叶轮旋转失速团特性分析[J]. 水利学报,2015,46(9):1128-1134. ZHOU Peijian,WANG Fujun,YAO Zhifeng. Analysis of rotating stall cells in an impeller of a centrifugal pump [J]. Journal of Hydraulic Engineering,2015,46(9):1128-1134. [14] YANG Z,WANG F. A dynamic mixed nonlinear subgrid-scale model for large-eddy simulation[J]. Engineering Computations,2012,29(7):778-791. [15] LEVY Y,PISMENNY J. The number and speed of stall cells during rotating stall[C]//ASME Turbo Expo,Georgia,USA,2003:889-899. [16] BRENNEN C E. Hydrodynamics of pumps[M]. Cambridge:Cambridge University Press,2011. |