Influence of Key Process Parameters on Vibration Characteristics of Centrifugal Pump

Abstract

The low-noise operation of ships will be affected by the vibration of centrifugal pumps, which are widely implemented in vessels. Available papers mainly focused on the structural optimization of pump components with less concentration on their assembly process, which include coaxiality, circle-runout and clearance fit, etc. The clearance between the impeller and wear ring, which is named wear-ring clearance, is influenced by the manufacturing and assembly process and has an impact on vibration. An investigation of the influence of key process parameters on the vibration characteristics of the pump based on wear-ring clearance is presented. A numerical model of the internal flow field of the pump is presented. The dynamic behavior in the frequency domain is obtained for fluid-solid interaction. The vibration is found to be more pronounced at some frequencies. A closed-loop dimensional chain system is constructed targeting the wear-ring clearance, and the circle-runout and coaxiality of some parts are found to have a prominent influence on it. A relationship between the key process parameters of the pump and vibration characteristics is established.