摘要
针对当前国内外超高温水基钻井液高温稳定性及滤失性调控技术难题,研制出超高温抗盐聚合物降滤失剂HTP-1,对其作用机制进行分析,并在胜科1超深井和泌深1超深井进行应用试验。HTP-1的作用机制主要有两方面,一是在黏土颗粒上的吸附量大并且吸附牢固,在化学环境和温度改变情况下吸附量变化小,二是改善钻井液体系中的颗粒粒径级配、降低滤饼的渗透率和改善其可压缩性;HTP-1抗温达240℃,抗盐超过20%,在各种基浆中的降滤失效果优于国内外同类处理剂,可以满足超深井超高温钻井需要。
Aimed at the present outstanding problem of filtration property adjusting and controlling and high temperature stability of ultra-high temperature water base drilling fluid around the world,the ultra-high temperature anti-salts polymer fluid loss reducer HTP-1 was developed.The action mechanisms of HTP-1 are as follows:(1) HTP-1 are largely and hardly adsorbed on clay particles and little changed by salt and temperature.(2) HTP-1 can improve particle size grading,reduce the permeability and improve compressibility observably of filter cake.Field application results of the polymer fluid loss reducer HTP-1 in ultra-deep well Shengke 1 and Bishen 1 show that the tolerance of HTP-1 to temperature is up to 240 ℃,to salt above 20%.The performances of HTP-1 in several base slurries have an advantage of treating agents around the world,and HTP-1 could meet the demand of ultra-deep well drilling under ultra-high temperature.
出处
《中国石油大学学报(自然科学版)》
EI
CAS
CSCD
北大核心
2011年第1期155-158,163,共5页
Journal of China University of Petroleum(Edition of Natural Science)
基金
国家高技术研究发展计划项目(2006AA06A19-5)
关键词
钻井液
超高温
深井
降滤失剂
作用机制
drilling fluid
ultra-high temperature
deep well
fluid loss reducer
action mechanism
