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超深井剪切闸板防喷器高温密封结构优化与试验

张建屈志明张旭丛恩会郭雪王红杰孟照淳

石油钻采工艺2025，Vol.47Issue(4)：434-441,8.

石油钻采工艺2025，Vol.47Issue(4)：434-441,8.DOI:10.13639/j.odpt.202504020

超深井剪切闸板防喷器高温密封结构优化与试验

Optimization and testing of high-temperature sealing structures for ultra-deep well shear ram blowout preventers

张建 ¹屈志明 ¹张旭 ²丛恩会 ¹郭雪 ¹王红杰 ¹孟照淳¹

作者信息

1. 河北华北石油荣盛机械制造有限公司,河北任丘 062552||河北省井控及井口设备技术创新中心,河北任丘 062552
2. 中石化海洋石油工程有限公司,上海 200120
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摘要

Abstract

Against the demanding high-temperature and high-pressure(HTHP)conditions in ultra-deep wells for shear ram blowout preventer(BOP),this study investigates the high-temperature sealing mechanism and strategies for enhancing the seal integrity of shear ram.Utilizing a combined approach of theoretical analysis,finite element simulation,and experimental validation on an FZ35-105 BOP test,the research examines the influence of hydrogenated nitrile rubber(HNBR)material properties,the structural design of the shear blade seal and side seals,and the ram block configuration on high-temperature sealing performance.Results demonstrate that HNBR is the optimal sealing material for drilling well control equipment in HTHP environments due to its superior thermal stability and chemical resistance.Under extreme conditions of 177℃and 105 MPa,an end-face sealing shear structure maintained effective sealing for 493 minutes.This represents a 17.1%improvement over the 421 minutes achieved by traditional contact sealing and far exceeds the standard requirement of 60 minutes.When the single-side compression of the side seal reaches 5.3 mm,the contact stress can achieve 105 MPa,thereby achieving zero leakage under wellbore pressure.An interlocking shear ram design reduced the clearance between the upper and lower rams by 40%～50%,effectively mitigating seal extrusion.A quantitative model correlating side seal compression to sealing pressure was established,with predictions deviating from experimental data by less than 10%.The study recommends prioritizing end-face sealing shear structures for large-bore BOP.These findings provide critical technical support for the design and manufacture of shear ram BOP capable of operating in the HTHP environments encountered in ultra-deep drilling,significantly enhancing their sealing performance and high-temperature resistance.

关键词

超深井/高温高压/剪切闸板/密封性能/抗高温性能

Key words

ultra-deep well/high temperature and pressure/shear ram/sealing performance/high temperature resistance

分类

能源科技

引用本文复制引用

张建,屈志明,张旭,丛恩会,郭雪,王红杰,孟照淳..超深井剪切闸板防喷器高温密封结构优化与试验[J].石油钻采工艺,2025,47(4):434-441,8.

基金项目

中国海洋工程装备技术发展有限公司科技研发项目"超高温高压海洋钻井系统关键设备技术研究"(编号:KY10001-1). （编号:KY10001-1）

石油钻采工艺

OA北大核心

ISSN：1000-7393

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