高温压力容器设计注意事项
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摘要
石化行业中长期服役于高温环境的承压设备通常会产生蠕变损伤,尤其是在交变载荷下,蠕变损伤还会加剧疲劳失效,严重影响承压设备的运行安全。蠕变疲劳失效是一种牵涉到多因素的复杂失效模式,ASME Ⅷ-1或ASME Ⅷ-2的设计规则并未对此给出处理的指导原则和方向。ASME Code Case 2605和ASME Code Case 2843中的高温设计规则可以作为高温蠕变疲劳失效模式的补充设计规定,但是,在承压设备的蠕变疲劳设计中,除了设计方法和评定准则外,设备的结构、选材、制造、检验检测等方面的注意事项也需要慎重考虑。对高温设备设计的注意事项和细节进行了归纳总结,为工程设计人员在高温设计时提供参考。
While being used in high temperature environment for a long time, creep damage usually occurs to the pressure equipment in petrochemical industry. Especially under alternating loads, creep damage will aggravate fatigue failure, which can seriously affect the operation safety of pressure equipment. Creep fatigue failure is a complex failure mode involving a lot of factors, the guide principles and directions for how to deal with it are not indicated in the design rules of ASME Ⅷ-1 or ASME Ⅷ-2. The elevated temperature design rules in ASME Code Case 2605 and ASME Code Case 2843 can be used as supplementary design rules for high temperature creep fatigue failure. However, in the creep fatigue design of pressure equipment, besides design methods and evaluation criteria, the structure design, material selection, manufacture process, inspection and testing should also be carefully considered. In this paper, the precautions and appropriate details for design of high temperature equipment are summarized, which can provide reference for engineers in high temperature design.
While being used in high temperature environment for a long time, creep damage usually occurs to the pressure equipment in petrochemical industry. Especially under alternating loads, creep damage will aggravate fatigue failure, which can seriously affect the operation safety of pressure equipment. Creep fatigue failure is a complex failure mode involving a lot of factors, the guide principles and directions for how to deal with it are not indicated in the design rules of ASME Ⅷ-1 or ASME Ⅷ-2. The elevated temperature design rules in ASME Code Case 2605 and ASME Code Case 2843 can be used as supplementary design rules for high temperature creep fatigue failure. However, in the creep fatigue design of pressure equipment, besides design methods and evaluation criteria, the structure design, material selection, manufacture process, inspection and testing should also be carefully considered. In this paper, the precautions and appropriate details for design of high temperature equipment are summarized, which can provide reference for engineers in high temperature design.
引文
[1]ASME boiler and pressure vessel code,SectionⅧDivision 1:Rules for construction of pressure vessels[S].New York:The American Society of Mechanical Engineers,2017.
[2]ASME boiler and pressure vessel code,SectionⅧDivision 2:Alternative rules for construction of pressure vessels[S].New York:The American Society of Mechanical Engineers,2017.
[3]VINCENT A,C DOUGLAS J.Recommendations for design of vessels for elevated temperature service[R].New York:Welding Research Council Bulletin,2002.
[4]ASME boiler and pressure vessel code Section III:Rules for construction of nuclear facility components subsection NH:Class 1 components in elevated temperature service[S].New York:The American Society of Mechanical Engineers,2015.
[5]钢制压力容器分析设计标准:JB 4732-1995[S].北京:新华出版社,2007.
[6]ASME code for pressure piping,process piping:B31.3[S].New York:The American Society of Mechanical Engineers,2017.
[7]Manjoine.Simplified methods of creep-fatigue damage evaluations and the application to life extension[R].New York:Welding Research Council Bulletin,1994.
[8]沈鋆,陈志伟,刘应华.复杂加载条件下压力容器蠕变疲劳评定方法:第十届全国压力容器设计学术会议集[C].宁波:中国机械工程学会压力容器分会,2016:7-19.
[9]Case of ASME boiler and pressure vessel code:2605-2[S].New York:The American Society of Mechanical Engineers,2015.
[10]Case of ASME boiler and pressure vessel code:2843[S].New York:The American Society of Mechanical Engineers,2015.
[11]石平非,岳国印,许洋,等.高温裙座支撑设备下封头与裙座交接处的设计[J].化工设备与管道,2014,51(2):9-11.
[12]刘川.化工设备设计中对高温结构的思考[J].科技与创新,2016(15):67.
[13]曹文辉.化工设备设计中对高温结构的考虑[J].化工设备与管道,2008,45(3):14-17.
[14]于莹,赵钢.高温工况下反应器设计不应忽略的几个要素[J].石油化工设备技术,2010,31(5):7-9.
[2]ASME boiler and pressure vessel code,SectionⅧDivision 2:Alternative rules for construction of pressure vessels[S].New York:The American Society of Mechanical Engineers,2017.
[3]VINCENT A,C DOUGLAS J.Recommendations for design of vessels for elevated temperature service[R].New York:Welding Research Council Bulletin,2002.
[4]ASME boiler and pressure vessel code Section III:Rules for construction of nuclear facility components subsection NH:Class 1 components in elevated temperature service[S].New York:The American Society of Mechanical Engineers,2015.
[5]钢制压力容器分析设计标准:JB 4732-1995[S].北京:新华出版社,2007.
[6]ASME code for pressure piping,process piping:B31.3[S].New York:The American Society of Mechanical Engineers,2017.
[7]Manjoine.Simplified methods of creep-fatigue damage evaluations and the application to life extension[R].New York:Welding Research Council Bulletin,1994.
[8]沈鋆,陈志伟,刘应华.复杂加载条件下压力容器蠕变疲劳评定方法:第十届全国压力容器设计学术会议集[C].宁波:中国机械工程学会压力容器分会,2016:7-19.
[9]Case of ASME boiler and pressure vessel code:2605-2[S].New York:The American Society of Mechanical Engineers,2015.
[10]Case of ASME boiler and pressure vessel code:2843[S].New York:The American Society of Mechanical Engineers,2015.
[11]石平非,岳国印,许洋,等.高温裙座支撑设备下封头与裙座交接处的设计[J].化工设备与管道,2014,51(2):9-11.
[12]刘川.化工设备设计中对高温结构的思考[J].科技与创新,2016(15):67.
[13]曹文辉.化工设备设计中对高温结构的考虑[J].化工设备与管道,2008,45(3):14-17.
[14]于莹,赵钢.高温工况下反应器设计不应忽略的几个要素[J].石油化工设备技术,2010,31(5):7-9.
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