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严苛条件下承压系统安全阀技术 被引量:10

Safety valve technology of pressure systems under harsh conditions
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摘要 安全阀作为承压系统主要的安全附件对保证化学与能源工业装置的安全运行起着举足轻重的作用。近年来,随着承压系统工作压力与温度环境等日益严苛,对安全阀性能也提出了更加精准与严苛的要求。为了探索先进安全阀的设计、制造与运维技术,本文概述了安全阀的研究现状和取得的重要技术进展,包括安全阀动作和排量性能的精准设计、安全阀密封设计、安全阀抗震设计、安全阀可靠性的精准设计、热态试验验证及安全阀本身的结构完整性保障和健康监测等,在此基础上,指出了今后亟待解决的若干科学技术问题,包括极端工况(高温、高压、地震、火灾等)流体流场下安全阀瞬态响应的计算模拟技术、极端工况下安全阀全性能试验装置和试验方法、精确测量安全阀流量系数的多尺度方法、智能安全阀技术、极端工况安全阀结构完整性评价技术。 Safety valves,as major safety accessories of pressure systems,play a very important role in ensuring safe operation of chemical and energy installations.More precision and strict requirements have been put forward on the performance of safety valves as the result of harsher condition such as increased pressure and temperature.In order to develop advanced design,manufacturing and maintenance technology for safety valves,the state-of-the-art of safety valves was reviewed and key science and technology progresses were summarized,which include precision design of action and displacement,sealing design,seismic design,reliability design,high temperature mock-up testing verification and structural integrity and health monitoring and so on.On this basis,several future technical challenges were identified,including computer simulation of dynamic responses of safety valves under extreme fluid flows(higher temperature,higher pressure,earthquake,fire),testing setup and methods under extreme conditions,multi-scaling methods for determining the coefficient of flow,smart safety valve technology and structural integrity assessment of safety valves under extreme conditions.
作者 涂善东 于新海 张健 TU Shan-Tung;YU Xinhai;ZHANG Jian(MOE Key Laboratory of Pressure Systems and Safety, School of Mechanical and Power Engineering, East China Universityof Science and Technology, Shanghai 200237, China)
出处 《化工进展》 EI CAS CSCD 北大核心 2019年第1期145-154,共10页 Chemical Industry and Engineering Progress
基金 国家重点研发计划"严苛环境下承压类特种设备的安全评价与失效预防技术"项目(2018YFC0808800)
关键词 安全阀 设计 试验 抗震 可靠性 结构完整性 safety valve design testing anti-earthquake design reliability structural integrity
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