STUDY ON THE PERIODIC WATERHAMMER INITIATEDBY A NOVEL HYDRAULIC SHOCK GENERATOR
被引量:1
STUDY ON THE PERIODIC WATERHAMMER INITIATED BY A NOVEL HYDRAULIC SHOCK GENERATOR
基金
This project is supported by National Natural Science Foundation of China(59835160). Manuscript received on November 18, 1999
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参考文献9
-
1[1]Streeter V L,Lai C.Water hammer analysis including friction.J.Hyd.Div.,ASCE,1962,88(HY3)∶79~112
-
2[2]Streeter V L.Waterhammer analysis.J.Hyd.Div.,ASCE,1969,88(HY3)∶79~113
-
3[3]Streeter V L.Unsteady flow calculations by numerical methods.J.Basic Eng.,ASME,1972,94(4)∶457~466
-
4[4]Swaffield J A.A study of the influence of air release on column separation in an aviation kerosene pipeline.Procs.In∶I.Mech.E.,Thermodynamics and Fluid Mechanics Group,1972,186(56/72)∶693~703
-
5[5]Swaffield J A,MaxwellStanding.Improvements in the application of the numerical method of characteristics to predict attenuation in unsteady partially filled pipe flow.J.of Research,1986,91(3)∶125~131
-
6[6]Talavera,Peter G.Hydraulic hammer theory and application.Developments in Pressure Vessels and Piping ASME,1994,278∶67~83
-
7[7]McInnis,Duncan,Karney,Bryan W.Transients in distribution networks∶Field tests and demand models.J.of Hyd.Eng.,1995,121(3)∶218~231
-
8[8]Jovic,Vinko.Finite elements and the method of characteristics applied to water hammer modeling.Int.J.for Eng.Modeling,1995,8(34)∶51~58
-
9[9]Lai A,Hau K F,Noghrehkar R, et al.Investigation of waterhammer in piping networks with voids containing noncondensable gas.Pressure Vessels and Piping ASME,1997,347∶43~48
同被引文献10
-
1叶宏开,何枫,陈国祥.管路中有气泡时的水锤计算[J].清华大学学报(自然科学版),1993,33(5):17-22. 被引量:9
-
2Shu J J, Burrows C R, Edge K A. Pressure pulsation in reciprocating pump piping systems Part 1: Modelling [J]. Proceedings Institution of Mechanical Engineers, Part I,1997,211:229-237.
-
3Wylie E B, Streeter V L. Fluid transients in systems [M] Englewood Cliffs: Prentice-Hall,1993.
-
4Jiang D, Li S J. Simulation of hydraulic pipeline pressure transients accompanying cavitation and gas bubbles using Matlab/Simulink [A]. ASME Joint U.S.-European Fluids Engineering Summer Meeting [C]. Miami, USA, No. FEDSM98389, 2006.
-
5Li S J, Edge K A, Bao W. Simulation of hydraulic pipeline pressure transient using Matlab Simulink [A]. Proceedings of the Sixth International Conference on Fluid Power Transmission and Control [C]. Hangzhou, China: Internation Academic Publishers/Beijing World Publising Lorporation,2005,468-471.
-
6Bergant A, Simpson A R. Pipeline column separation flow regimes [J]. Journal of Hydraulic Engineering,1999,125(8): 835-848.
-
7Kranenburg C. Gas release during transient cavitation in pipes [J]. Hydraulic Division ASCE, 1974,100(10):11-15.
-
8Watt C S, Boldy A P, Hobbs J M. Combination of finite difference and finite element techniques in hydraulic transient problems [A]. Proceedings of the Third International Conference on Pressure Surges [C]. Canterbury, UK: BHRA Fluid Engineering, 1980,43-62.
-
9Kagawa T, Lee I Y, Kitagawa A, Takenaka T. High speed and accurate computing method of frequency-dependent friction in laminar pipe flow for characteristic method [J]. Transaction of Japan Society Mechanical Engineering, Series B, 1983, 49(447): 2638-2644.
-
10Harris R M, Edge K A, Tilley D G. Suction dynamics of positive displacement axial piston pumps [J]. Journal of Dynamic Systems, Measurement and Control, 1994,116(2): 281-287.
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