摘要
超高压压缩机工作过程中产生的动态载荷是影响压缩机强度与寿命的一个重要因素,其中热载荷与机械载荷的耦合又是非常严重。以有限元法为基础,建立了52 MPa超高压气缸在工作循环中的热载荷的动态模型,预测了动态响应与稳态响应之间的函数关系,并通过冷启动和热启动的仿真分析,给出了其作用规律。该模型还可用于气缸危险区域的排查和气缸结构的优化分析。
Dynamic load produced in the working process of ultra-high pressure compressor is an important factor affecting the strength and life, and the coupling between thermal load and mechanical load is very serious. Based on the finite element method, this paper establishes the dynamic model of thermal load of ultra-high pressure cylinder up to 52 MPa in working cycle, predicts the functional relationship between dynamic response and steady-state response, and gives its action rule through the simulation analysis of cold start and hot start. The model can also be used to check the dangerous area of cylinder and optimize the structure of cylinder.
作者
刘彪
黄远明
刘欢
余祖耀
LIU Biao;HUANG YuanMing;LIU Huan;YU ZuYao(School of Naval Architecture&Ocean Engineering,Huazhong University of Science and Technology,Wuhan 430074,China;San Ji Branch Company of Sinopec Oilfield Equipment Corporation,Wuhan 430040,China)
出处
《机械强度》
CAS
CSCD
北大核心
2021年第6期1467-1471,共5页
Journal of Mechanical Strength
基金
国家科技重大专项(2016Z05038-004-LH001)资助。
关键词
超高压气缸
动态特性
热应力
有限元分析
High pressure cylinder
Dynamic characteristics
Thermal stress
Finite element analysis
