Analysis of Vibration and Noise Reduction Performance of Compressor Flow Control Actuator Based on Response Surface Methodology
The vibration and noise during the operation of reciprocating compressors can have a negative impact on the health of equipment management personnel.As the flow regulation actuator of compressors,the operating speed of the unloader is a cross contradiction point between flow regulation accuracy,impact vibration noise,and component life.A flow regulation actuator buffer hydraulic cylinder was designed,and a simulation model of the hydraulic cylinder was constructed using the AMESIM software platform.Taking the diameter of throttle hole,the diameter of buffer piston,and the stroke of buffer piston as key parameters to explore,the influence of different parameters on the adjustment performance of the actuator's ejection and withdrawal,such as impact speed,action completion time,and valve plate withdrawal time,was analyzed based on the response surface method(RSM).The correctness of the analysis results was verified through experiments,laying a theoretical foundation for reducing compressor vibration and noise.
buffer hydraulic cylinderRSMreciprocating compressorvibration and noise reduction
万方数据
维普
