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超深井气举管柱力学动态响应及失效风险评价

邓宽海王俊杰叶富铭杨刘姚明远 Sinan Ihsan AL-Shaibani 曾德智张敬逸刘乔平

天然气工业2026，Vol.46Issue(2)：113-123,11.

天然气工业2026，Vol.46Issue(2)：113-123,11.DOI:10.3787/j.issn.1000-0976.2026.02.011

超深井气举管柱力学动态响应及失效风险评价

Mechanical dynamic response and failure risk evaluation of pipe strings during gas lift in ultra-deep wells

邓宽海 ¹王俊杰 ¹叶富铭 ²杨刘 ¹姚明远 ¹Sinan Ihsan AL-Shaibani ³曾德智 ¹张敬逸 ⁴刘乔平⁵

作者信息

1. 西南石油大学||中国石油天然气集团有限公司石油管工程重点实验室(西南石油大学)
2. 中国石油西南油气田公司重庆气矿
3. 伊拉克石油部石油研发中心
4. 振华石油控股有限公司
5. 中石化重庆涪陵页岩气勘探开发有限公司
折叠

摘要

Abstract

Ultra-deep wells are typically in the environments with high temperature,high pressure,and high concentrations of corrosive media such as hydrogen sulfide and carbon dioxide.During long-term service,casings are subjected to varying degrees of corrosion damage.The gas lift process,due to the coupling effects of temperature and pressure fluctuations with corrosion damage,can easily lead to the failure of tubing and casing strings.Therefore,it is necessary to establish a set of safety evaluation methods for pipe strings that consider transient multiphase flow pressures,corrosion defects,and nonlinear mechanical behaviors comprehensively.In this paper,a transient multiphase flow model of gas lift is developed using the finite volume method.The model involves gas lift flow patterns,wellbore geometry,fluid parameters,and packer leakage.Then,a three-dimensional mechanical model of corroded casing based on risk point pressure distribution is constructed by means of the nonlinear finite element method.On this basis,the safety evaluation charts for corroded casings during gas lift operations are developed.Finally,a systematic risk assessment method is constructed on the basis of annular dynamic pressure.The following results are obtained.First,during gas injection initiation and the gas lift process,the maximum annular pressure appears at a position above the packer(6 213.78 m),reaching 86.5 MPa.After gas injection stops,the maximum annular pressure transfers to the tubing shoe(6 401.9 m),and it is 83.4 MPa(with incomplete liquid unloading)and 60.9 MPa(with complete liquid unloading).Second,when the corrosion radius is 0.5-4.5 mm and the annular pressure is 55-110 MPa,the increase in corrosion radius and annular pressure at 156℃ can elevate the safety risk of H140 casing,with annular pressure having a more pronounced impact.During actual operations,therefore,monitoring focus should be put on the fluctuation of annular pressure.Third,the developed safety evaluation charts and risk assessment method can effectively evaluate the safety factors of in-service corroded casings under different gas lift stages and varying degrees of in-situ stress attenuation.The research findings provide a theoretical basis for optimizing process parameters and assessing pipe string risks during gas lift operations in ultra-deep wells.

关键词

超深井/气举/管柱力学/动态响应/多相流模拟/动态压力/安全评价/评价方法

Key words

Ultra-deep well/Gas lift/Pipe string mechanics/Dynamic response/Multiphase flow simulation/Dynamic pressure/Safety evaluation/Assessment method

分类

能源科技

引用本文复制引用

邓宽海,王俊杰,叶富铭,杨刘,姚明远,Sinan Ihsan AL-Shaibani,曾德智,张敬逸,刘乔平..超深井气举管柱力学动态响应及失效风险评价[J].天然气工业,2026,46(2):113-123,11.

基金项目

国家自然科学基金项目"力-热-化耦合及液-固冲蚀协同下腐蚀油套管动态损伤机理及寿命预测"(编号:52474011)、国家重点研发计划项目"中国—伊拉克复杂油气藏勘探开发及油田清洁用能联合研究"(编号:2025YFE0212900)、四川省科技教育联合基金项目"热-力-化耦合与冲蚀协同作用下超深井油套管动态失效机理及预测"(编号:25LHJJ0045)、四川省杰出青年科学基金项目"活性纳米流体提高采收率关键基础问题研究"(编号:2024NSFJQ0028). （编号:52474011）

天然气工业

ISSN：1000-0976

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