Modeling and simulation of low pressure oil-hydraulic pipeline transients

In order to predict more accurately the pressure transients accompanying air release and vaporous cavitation inside oil-hydraulic low pressure pipelines, a new method using genetic algorithms (GAs) for parameter identification is described. A mathematical model for pressure and flow transients is presented in which models of vaporous cavitation and dynamic air release and re-solution are incorporated. This model enables the prediction of both the vaporous cavitation and the air bubble volumes in the pipeline during the transients following a sudden cut-off of the flow. The accurate prediction of behavior largely depends on three generally unknown parameters required by the model, namely: the initial air bubble volume in the oil, and the air release and re-solution time constants. Through the use of the GAs, these parameters can be identified. Predicted results and experimental data show close correspondence.

[1]  Jian-Jun Shu,et al.  Modelling vaporous cavitation on fluid transients , 2014 .

[2]  Masaaki Shinada,et al.  Fluid Transient Phenomena Accompanied with Column Separation in Fluid Power Pipeline : 1st Report, On the Horizontal Pipeline Downstream of a Valve Instantaneously Closed , 1984 .

[3]  K A Edge,et al.  The Suction Dynamics of Positive Displacement Axial Piston Pumps , 1992 .

[4]  K A Edge,et al.  Pressure pulsations in reciprocating pump piping systems Part 1: Modelling , 1997, 1410.0803.

[5]  T. Takenaka,et al.  On the Transient Behavior of Oil Flow under Negative Pressure , 1985 .

[6]  Victor Szebehely,et al.  Gas Evolution in Liquids and Cavitation , 1950 .

[7]  Angus R. Simpson,et al.  Water hammer with column separation: A historical review , 2006 .

[8]  J. Paul Tullis,et al.  Air Release During Column Separation , 1983 .

[9]  D. C. Wiggert,et al.  The Effect of Gaseous Cavitation on Fluid Transients , 1979 .

[10]  Songjing Li,et al.  Simulation of Hydraulic Pipeline Pressure Transients Accompanying Cavitation and Gas Bubbles Using Matlab/Simulink , 2006 .

[11]  C. Kranenburg,et al.  Gas Release During Transient Cavitation in Pipes , 1974 .

[12]  D N Johnston,et al.  Modelling of transient flow in hydraulic pipelines , 1997 .

[13]  Angus R. Simpson,et al.  Pipeline column separation flow regimes , 1999 .

[14]  Jian-Jun Shu A Finite Element Model and Electronic Analogue of Pipeline Pressure Transients With Frequency-Dependent Friction , 2003 .

[15]  K A Edge,et al.  Simulation of hydraulic pipeline pressure transients using Matlab Simulink , 2005 .