Processes, Vol. 11, Pages 1106: Analysis of Regulating Valve Stem Fracture in a Petrochemical Plant

Processes, Vol. 11, Pages 1106: Analysis of Regulating Valve Stem Fracture in a Petrochemical Plant

Processes doi: 10.3390/pr11041106

Authors: Fuping Guo Yunrong Lyu Zhihong Duan Zhiqing Fan Weiming Li Falin Chen

This paper investigates the failure of a regulating valve stem in a petrochemical plant, which was mainly caused by vibration fatigue under small opening conditions. The fractured valve stem was analyzed using macroscopic analysis, chemical composition analysis, mechanical property analysis, metallographic analysis, fracture surface observation, and energy spectrum analysis. Additionally, fluid-structure interaction (FSI) modal analysis was used to investigate the failure of the regulating valve. The results indicate that the valve opening had a direct impact on the vibration of the valve body, which, when operated at small openings, led to fatigue fracture at the step of variable cross-section. The paper suggests a smooth transition treatment be performed at the variable cross-section of the valve stem to avoid stress concentration. Although this study is limited to a specific case, it provides valuable insights for the failure analysis of valves operating at small openings.