[1]缪克在,吴超俊,孙志民,等.高压阀门压力自密封结构设计与分析[J].石油化工设备,2024,53(06):48-51.[doi:10.3969/j.issn.1000-7466.2024.06.008]
 MIAO Ke-zai,WU Chao-jun,SUN Zhi-min,et al.Design and Analysis of High Pressure Valve Pressure Self-sealing Structure[J].Petro-Chemical Equipment,2024,53(06):48-51.[doi:10.3969/j.issn.1000-7466.2024.06.008]
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高压阀门压力自密封结构设计与分析()
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石油化工设备[ISSN:1000-7466/CN:62-1078/TQ]

卷:
53
期数:
2024年06期
页码:
48-51
栏目:
设计计算
出版日期:
2024-11-15

文章信息/Info

Title:
Design and Analysis of High Pressure Valve Pressure Self-sealing Structure
文章编号:
1000-7466(2024)06-0048-04
作者:
缪克在1吴超俊1孙志民2李海聪1黄俊荣1
1.浙江省泵阀产品质量检验中心,浙江 温州 325105;2.中国特种设备检测研究院,北京 100029
Author(s):
MIAO Ke-zai1WU Chao-jun1SUN Zhi-min2LI Hai-cong1HUANG Jun-rong1
1.Quality Inspection Center of Pump and Valve Products of Zhejiang Province,Wenzhou 325105,China;2.China Special Equipment Inspection and Research Institute,Beijing 100029,China
关键词:
阀门高压压力自密封结构设计强度应力
Keywords:
valvehigh pressurepressure self-sealing structuredesignstrengthstress
分类号:
TB42
DOI:
10.3969/j.issn.1000-7466.2024.06.008
文献标志码:
A
摘要:
压力自密封结构在高压阀门中应用广泛,但缺少对其整体与各部件的系统性校核验算。介绍了高压阀门压力自密封结构涉及的产品设计标准、结构原理与设计特征,较完整地阐述了组成高压阀门压力自密封结构的阀体颈部、阀盖、间隔环、分段支撑环、密封垫等关键部件及接触面的强度计算与应力分析,可为高压阀门压力自密封结构的设计与验证、承受最低应力提供技术指导,以提高压力自密封结构的安全完整性和密封可靠性。
Abstract:
The pressure self-sealing structure is a widely utilized component in high-pressure valves. However,there is a notable absence of comprehensive and systematic examination and assessment of the overall structure and its individual components. The product design standard,structural principle,and design features of the high-pressure valve pressure self-sealing structure were introduced. A comprehensive description was provided of the strength calculation and stress analysis of key components,including the valve body neck,valve cover,spacer ring,segment support ring,sealing gasket,and contact surface of the high-pressure valve pressure self-sealing structure. This information can serve as a technical reference for the design and verification of the high-pressure valve pressure self-sealing structures, ensuring that they can withstand minimum stress and improve the safety,integrity, and reliability of the structure.

参考文献/References:

[1] 彭结林,朱华炳,邝先进.阀门密封的研究现状综述[J].机械制造,2018(2):61-63.
[2] 于龙杰,钱锦远,金志江.阀门密封性能的研究进展[J].润滑与密封,2021,46(9):134-142.
[3] 李雷,肖星鹏,刘福领,等.阀门的密封及其密封试验[J].检验检测,2021(18):31-32.
[4] 王秀鹏,高晓博,刘文婷,等.阀门密封性试验[J].化学工程与装备,2023(10):158-161.
[5] 张威.阀门密封技术研究现状及发展趋势分析[J].阀门,2020(5):21-24.
[6] 葛永松.石化行业阀门泄漏原因分析及对策[J].化学工程与装备,2022(3):156-157.
[7] 李东安,何同均,王柳,等.阀门泄漏检测方法探析[J].检验检测,2022(6):60-62.
[8] 电站阀门: NB/T 47044—2014[S].
[9] 钢制阀门一般要求:GB/T 12224—2015[S].
[10] 压力容器 第3部分:设计: GB/T 150.3—2011[S].
[11]石油、石化、天然气及相关工业用钢制闸阀:T/ZZB 0190—2022[S].
[12]Valves—flanged,threaded,and welding end:ASME B16.34—2020[S].
[13] Steel gate valves—Flanged and butt-welding ends,bolted bonnets:API 600—2021[S].
[14] Steel globe valves—Flanged and butt-welding ends,bolted bonnets:API 623—2021[S].
[15] Check valves:Flanged,lug,wafer,and butt-welding:API 594—2022[S].
[16] Specification for valves:API 6D—2021[S].

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备注/Memo

备注/Memo:
收稿日期:2024-06-30
基金项目:温州市市级科技计划项目(2023020):阀门泄漏检测气增压及氮气自动回收集成智控装置
作者简介:缪克在(1983-),男,浙江苍南人,高级工程师,硕士,主要从事阀门设计与工艺、标准化、检测技术与设备研究工作。
更新日期/Last Update: 2024-11-15