摘要
为了满足复杂地层高温条件下的钻井需求,需对现有的钻井液体系进行配方优化,以满足实际施工要求。本文对施工现场的HEM抗高温钻井液体系进行了性能测试,然后针对性地进行处理剂选择与加量优化,由此形成适用于现场工况的钻井液体系配方。原体系在150℃高温条件下不满足现场施工要求,经本文实验优化后,形成的HEM抗高温钻井液性能满足需求。优化后钻井液体系配方为:3%海水土浆+0.25%Na_(2)CO_(3)+0.15%NaOH+1.5%LSF+1.5%LPFH+2%UHIB+3%SMP+3%SPNH+1.4%FLOTROL+0.6%UCAP+0.3%XC+2%HLUB+0.8%HTFL+8%NaCl+6%KCl。
In order to meet the drilling requirements under high-temperature conditions in complex formations,it is necessary to optimize the formulation of the existing drilling fluid system to meet the actual construction requirements.In this paper,the performance test of the HEM anti-high temperature drilling fluid system at the construction site was carried out,and then the selection of treatment agent and dosage optimization were carried out in a targeted manner,so as to form a drilling fluid system formula suitable for the on-site working conditions.The original system does not meet the requirements of on-site construction at a high temperature of 150℃.After optimization in this paper,the performance of HEM anti-high temperature drilling fluid can meet the requirements.The optimized drilling fluid system formula is:3%seawater mud+0.25%Na_(2)CO_(3)+0.15%NaOH+1.5%LSF+1.5%LPFH+2%UHIB+3%SMP+3%SPNH+1.4%FLOTROL+0.6%UCAP+0.3%XC+2%HLUB+0.8%HTFL+8%NaCl+6%KCl.
作者
聂强勇
陈新
杜仕勇
胡朝伟
孔燕燕
胡璟嵩
Nie Qiangyong;Chen Xin;Du Shiyong;Hu Chaowei;Kong Yanyan;Hu Jingsong(Drilling Fluid Technical Service Company,CNPC Chuanqing Drilling Engineering Co.,Ltd.,Sichuan,610065;School of Petroleum and Natural Gas Engineering,Southwest Petroleum University,Sichuan,610065)
出处
《当代化工研究》
CAS
2023年第16期170-172,共3页
Modern Chemical Research
基金
国家重点研发计划课题“井筒稳定性闭环响应机制与智能调控方法”(项目编号:2019YFA0708303)
四川省科技计划资助“杰出青年科技人才--油田含聚污水处理”(项目编号:2020JDJQ0057)
四川省科技计划资助“四川青年科技创新研究团队”(项目编号:2020JDTD0018)
中国石油-西南石油大学创新联合体科技合作项目“深井复杂地层井下复杂情况预防及对策研究”(项目编号:2020CX040102)。
关键词
HEM
抗高温
钻井液
优化
HEM
high-temperature resistance
drilling fluid
optimization
