首页|期刊导航|石油钻采工艺|二氧化碳多轮次吞吐温压效应及反复应力损伤理论指导减少套管损伤数量

二氧化碳多轮次吞吐温压效应及反复应力损伤理论指导减少套管损伤数量

宋显民耿海涛肖国华何歆如殷彩霞郑智峰

石油钻采工艺2024，Vol.46Issue(4)：429-442,14.

石油钻采工艺2024，Vol.46Issue(4)：429-442,14.DOI:10.13639/j.odpt.202412011

二氧化碳多轮次吞吐温压效应及反复应力损伤理论指导减少套管损伤数量

Thermal-Pressure effects of multi-cycle carbon dioxide huff&puff and repeated stress damage:A theoretical approach to reducing casing deformation frequency

宋显民 ¹耿海涛 ¹肖国华 ¹何歆如 ²殷彩霞 ¹郑智峰¹

作者信息

1. 中国石油天然气股份有限公司冀东油田分公司,河北唐山
2. 油气藏地质及开发工程全国重点实验室,四川成都
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摘要

Abstract

The research on the current casing deformation mechanism and its influencing factors in Jidong Oil Field has a large limitation,which makes the casing deformation evaluation unable to be quantified.In order to reduce the number of casing deformation,12 groups of laboratory uniaxial and triaxial tests are carried out based on the high temperature and high pressure multi-field coupling rock mechanics test system.Combined with ANSYS software,a three-dimensional geological model of casing-cement sheath-formation coupling is established.The influence of 5 factors on the rock and casing stress damage is analyzed,including sand production degree,cycle of huff and puff,perforation density,cementing quality and production time.The correlation with field data in Jidong Oil Field reaches 98.8%,and the reliability of the damage influencing factors is verified.The field test verification shows that the influence of carbon dioxide on rock strength under high temperature and high pressure is the main factor of casing deformation.It is suggested to improve the sand control accuracy,the number of cycles of stimulation shall not exceed 16,the hole density shall not exceed 12 holes/m,the casing strength shall be increased by 1～2 steel grades,and the cementing quality shall be improved to reduce the casing deformation probability.Through taking targeted prevention and control measures,the casing deformation degree of the research block is reduced by about 30%,the crack propagation speed is reduced by 25%,and the wellhead pressure fluctuation is reduced by 15%.The research results provide a new technical idea for the optimal design of construction parameters of carbon dioxide multi-cycle huff and puff.

关键词

二氧化碳吞吐/油气资源/非常规油气/井筒完整性/工程技术/室内测试/岩石强度

Key words

Carbon dioxide huff and puff/Oil and gas resources/Unconventional oil and gas/Integrity of wellbore/Engineering Technology/Laboratory test/Rock strength

分类

能源科技

引用本文复制引用

宋显民,耿海涛,肖国华,何歆如,殷彩霞,郑智峰..二氧化碳多轮次吞吐温压效应及反复应力损伤理论指导减少套管损伤数量[J].石油钻采工艺,2024,46(4):429-442,14.

基金项目

国家重点研发计划"二氧化碳地质封存协同枯竭页岩储层增渗开采技术"(项目编号:2023YFE0110900). （项目编号:2023YFE0110900）

石油钻采工艺

OA北大核心CSTPCD

ISSN：1000-7393

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