This paper reports on a series of laboratory tests on two reciprocating pump systems. Factors affecting pressure and flow pulsation characteristics are discussed. Measured time-domain characteristics, under non-cavitating and cavitating conditions, are compared with predictions from the computer model developed in Part 1 of this paper. Generally, good agreement is achieved.
ShuJ.-J.BurrowsC. R.EdgeK. A.Pressure pulsations in reciprocating pump piping systems. Part 1: Modelling. Proc. Instn Mech. Engrs, Part I, 1997, 211 (13), 229–237.
2.
EdgeK. A.JohnstonD. N.The secondary source method for the measurement of pump pressure ripple characteristics. Part 1: Description of method. Proc. Instn Mech. Engrs, Part C, 1990, 204 (C1), 33–40.
3.
EdgeK. A.JohnstonD. N.The secondary source method for the measurement of pump pressure ripple characteristics. Part 2: Experimental results. Proc. Instn Mech. Engrs, Part C, 1990, 204 (C1), 41–46.
4.
ISO 10767–1 Hydraulic fluid power—determination of pressure ripple levels generated in systems and components. Part 1. Systems method for pumps, 1996 (International Standardization Organization).
5.
EdgeK. A.TilleyD. G.The use of plane wave theory in the modelling of pressure ripple in hydraulic systems. Trans. Inst. MC, October-December1983, 5 (4), 171–178.
6.
SinghP. J.MadavanN. K.Complete analysis and simulation of reciprocating pumps including system piping. In Proceedings of Fourth International Pump Symposium, 1987, pp. 55–73 (American Society of Mechanical Engineers, New York).
