高强度可固化树脂堵漏剂PMMM研制与评价  被引量：7

作　　者：刘凡 刘钦政 郝惠军 冯杰 程荣超 白英睿[3] LIU Fan;LIU Qinzheng;HAO Huijun;FENG Jie;CHENG Rongchao;BAI Yingrui(CNPC Engineering Technology R&D Company Limited,Beijing 102206;College of geoscience,China University of Petroleum(Beijing),Beijing 102249;School of Petroleum Engineering,China University of Petroleum(East China),Qingdao,Shandong 266580)

机构地区：[1]中国石油集团工程技术研究院有限公司,北京102206 [2]中国石油大学(北京)地球科学学院,北京100249 [3]中国石油大学(华东)石油工程学院,山东青岛266580

出　　处：《钻井液与完井液》2021年第6期671-676,683,共7页Drilling Fluid & Completion Fluid

基　　金：中石油重大工程现场试验项目“恶性井漏防治技术与高性能水基钻井液现场试验”(2020F-45);博士后基金“裂缝性地层树脂类固化堵漏材料及固化机理研究”(2020M670585);国家自然科学基金面上项目“深层裂缝性地层剪切响应型凝胶体系构筑与空间自适应堵漏机理”(52074327)。

摘　　要：裂缝性地层恶性漏失是油气钻井工程重大技术难题之一,可固化树脂和井下交联聚合物是常用堵漏材料,但存在井下交联可控性差、固化强度低等问题。研制了一种部分醚化改性氨基树脂PMMM,利用拉曼光谱分析了其分子结构,并揭示了固化机理。PMMM固化时间随着固化剂加量增加或温度升高而缩短,在80~130℃温度下可做到1~10 h可控,固化后不收缩,最高抗10%水基钻井液污染。PMMM固化后抗压强度随着CaSO_(4)纳米晶须增加先增加后降低,0.5%纳米晶须加量下,80℃养护24 h后PMMM抗压强度最高达56 MPa,高于常规水泥堵漏材料。基于100~130℃下黏度数据,利用修改的阿伦尼乌斯黏度方程,拟合得到PMMM黏度-温度-时间曲线方程,方程预测90℃下黏度变化规律与实测数据相吻合,基本反映了PMMM堵漏材料加热条件下的黏度变化规律。整体而言,PMMM树脂固化堵漏材料具备配方简单、固化条件可控、固化后强度高等优点,在裂缝性地层恶性井漏中具有一定应用前景。Severe loss of borehole working fluids into fractured formations is one of the major technical problems encountered in oil and gas drilling engineering.Curable resin and downhole crosslinking polymers are common lost circulation materials (LCMs) used for controlling this kind of loss.However,these LCMs are difficult to control in downhole crosslinking reaction and the cured LCMs have low strengths.This paper describes PMMM,an amino resin modified through partial etherification.Using Raman spectroscopy,the molecular structure of PMMM was analyzed and the mechanism of curing of the resin revealed.The time for PMMM to cure is shortened with increase in the concentration of curing agent or time,and can be controlled in a range of 1-10 h at temperatures between 80℃and 130℃.PMMM will not shrink after curing,and is resistant to the contamination by maximum 10%water based mud.The compressive strength of PMMM which is treated with nano CaSO_(4) whickers,first increases and then decreases with increase in the concentration of the CaSO;whiskers.PMMM treated with 0.5%nano CaSO_(4) whiskers has a maximum compressive strength of 56 MPa after aging at 80℃for 24 hours,which is higher than the same compressive strength of conventional cement LCMs.Using viscosity data gathered at temperatures between 100℃and 130℃and the revised Arrhenius viscosity equation,a viscosity-temperature-time equation was obtained through data fitting.Change of viscosity at 90℃predicted with this equation coincides with the data measured,indicating that the fitted equation can basically be used to predict the viscosity change of PMMM when heated.All in all,the curable PMMM resin LCM has many advantages such as easy to formulate,curing condition controllable and high compressive strength after curing etc.PMMM LCMs can be a good choice in dealing with severe lost circulation.

关 键 词：防漏堵漏 可固化堵漏材料 热固性树脂 流变特性 

分 类 号：TE282[石油与天然气工程—油气井工程]