论文信息 - A method to reduce noise in hydraulic systems by optimizing pipe clamp locations

A method to reduce noise in hydraulic systems by optimizing pipe clamp locations

Abstract This paper describes a novel technique to reduce noise and vibration in hydraulic systems. The approach involves finding the best hydraulic circuit mounting locations to avoid excessive coupling between the hydraulic pipes and the supporting structures. Using a well-developed transfer matrix method, the dynamic response to disturbance by fluid flow ripples can be predicted at all pipe locations. By making appropriate assumptions concerning the mounting impedance, the force and displacement parameters involved in clamping the pipes can be estimated. These results can be used to quantify the fitness of the hydraulic circuit in an optimization program using genetic algorithms. An example is included using a simple hydraulic rig. The predicted results for the best and worst clamping locations are compared. Experimental studies have confirmed that, with the optimal clamping locations, significant reductions in both noise and vibration were obtained.

K A Edge | A H M Kwong | A. Kwong | K. Edge

[1] F. T. Brown. A Unified Approach to the Analysis of Uniform One-Dimensional Distributed Systems , 1967 .

[2] A. Kwong,et al. Structure-Borne Noise Prediction in Liquid-Conveying Pipe Systems , 1996 .

[3] D. Wiggert,et al. Analysis of Liquid and Structural Transients in Piping by the Method of Characteristics , 1987 .

[4] G. Cowper. The Shear Coefficient in Timoshenko’s Beam Theory , 1966 .

[5] K A Edge,et al. Wave propagation in fluid-filled pipe systems , 1995 .

[6] D. Wiggert,et al. Modal Analysis of Vibrations in Liquid-Filled Piping Systems , 1990 .

[7] K A Edge,et al. Towards the design of quiet hydraulic circuits , 1994 .

[8] G. A. Parker,et al. Transmission of Power by Sinusoidal Wave Motion through Hydraulic Oil in a Uniform Pipe , 1964 .