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This paper summarizes the successful application of Computational Fluid Dynamics (CFD) analysis to optimize the pump suction line configuration of a hydraulic control system. The suction lines receive fluid from hydraulic tank and supply the fluid to different hydraulic components like fan pump, implement pump, charge pump, etc. Field report shows some of the pumps are failing before their expected operation hours. It is suspected that the shortage of fluid from the specified requirement is the probable cause of the early pump failures. This motivates to investigate the fluid flow phenomena in the suction lines. The CFD analysis is applied to study the flow distribution of the current suction line configuration. This paper provides the details of the CFD analysis steps to optimize the pump suction line configuration.

This paper summarizes the successful application of Computational Fluid Dynamics (CFD) analysis to predict and control the cavitation erosion in a hydraulic control valve. The accurate control of different vehicle operations demands very fine spool modulations in a hydraulic valve. The precise spool modulations create very high flow rates and high-pressure drops in the valve. The low local fluid pressure regions create cavitation inside the valve. Due to the explosion of bubbles there is a high erosion damage to the valve body as well as the spool surface. The CFD analysis has been used to predict the location of cavitation origination and also used to control the cavitation by redistributing the flow inside the valve.