安探1X高温深探井小间隙固井技术

刘子帅; 李拥军; 唐守勇; 王东明; 蒋世伟; 周崇峰

doi:10.3969/j.issn.1001-5620.2017.04.017

安探1X高温深探井小间隙固井技术

doi: 10.3969/j.issn.1001-5620.2017.04.017

1. 中国石油集团钻井工程技术研究院, 北京 102206;
2. 华北油田公司勘探部, 河北任丘 062550;
3. 中国石油天然气股份有限公司浙江油田分公司, 杭州 310023;
4. 中石油渤海钻探工程有限公司第一固井公司, 河北任丘 062550

基金项目:

华北油田分公司项目“复杂探井固井技术研究与应用”（HBYT-2015-JS-402）；国家重大专项课题课题四“复杂地质条件下深井钻井液与高温高压固井技术研究”（2011ZX05021004）；国家重点研发项目“固井工程用高耐蚀高韧性水泥基关键材料与技术”（2016YFB0303602）。

详细信息

作者简介:
刘子帅,1988年生,2010年毕业于西南石油大学石油工程专业,现主要从事固井水泥浆及工艺技术研究。电话18611151357;E-mail:liuzishuaidri@cnpc.com.cn。

中图分类号: TE257.6
计量
- 文章访问数: 567
- HTML全文浏览量: 145
- PDF下载量: 150
- 被引次数: 0
出版历程
- 收稿日期: 2017-04-09
- 刊出日期: 2017-07-31

Cementing High Temperature Deep Well Antan-1X with Narrow Annular Spaces

1. CNPC Drilling Research Institute, Beijing 102206;
2. Exploration Division of PetroChina Huabei Oilfield Company, Renqiu, Hebei 062550;
3. PetroChina Zhejiang Oilfield Company, Hangzhou, Zhejiang 310023;
4. The First Cementing Branch of CNPC Bohai Drilling Engineering Company Limited, Renqiu, Hebei 062550

摘要

摘要: 廊固凹陷是华北冀中坳陷3大富油凹陷之一，为华北油田主要产油区，其油层埋藏深，温度较高，井身结构复杂。安探1X井是部署在华北冀中坳陷廊固凹陷的1口风险探井，四开φ127 mm尾管下深5 494 m，地层温度高达177℃，气层活跃，压稳技术难度大，同时环空间隙小，水泥环薄，对水泥浆高温稳定性、防气窜能力以及对水泥石抗压强度衰退问题提出挑战。针对安探1X井固井难点，筛选出抗高温防窜水泥浆体系，其具有良好的沉降稳定性和游离液稳定性，稠化时间可调，防窜性能强，同时具有180℃高温强度不衰退等特点；通过优选高温悬浮稳定剂，形成抗温180℃冲洗隔离液体系，180℃沉降稳定性小于0.03 g/cm³。在安探1X井φ 127 mm尾管固井中成功应用，水泥浆固井质量良好，为后期华北冀中坳陷的勘探开发打下了良好的基础。
- 深井 /
- 高温 /
- 小间隙固井 /
- 防窜 /
- 抗高温防窜水泥浆 /
- 抗污染冲洗隔离液 /
- 廊固凹陷
Abstract: The Langgu sag, one of the three sags rich in oil in the Jizhong Depression, north China, is the main oil producing area of Huabei Oilfield. The reservoirs are deeply buried and the formation temperatures are high. The well Antan-1x is an exploratory well drilled in this area. This well had complex well profile, and the φ 127 mm liner (in 4th interval) was run to 5,494 m, at which the formation temperature is 177℃. Gas zones at the completion depth are very active and are difficult to control with high density drilling fluids. Narrow annular spaces and hence thin cement sheaths impose challenges to the high temperature stability and anti-channeling ability of cement slurry, and the compressive strength of set cement. A high temperature anti-channeling cement slurry was formulated for use in the well Antan-1x. This cement slurry has good anti-settling performance and ability in minimizing the amount of free water. Its thickening time is adjustable. The compressive strength of the set cement under 180℃ does not retrograde. A flushing spacer was formulated with high temperature suspension stabilizer, and the settling rate of the spacer under 180℃ was less than 0.03 g/cm³. In cementing the φ 127 mm liner string of the well Antan-1x, high quality cementing job was done with the high temperature cement slurry and the spacer, laying a good foundation for the later exploration and development of the Jizhong depression in north China.
- Deep well /
- High temperature /
- Cement well with narrow annular space /
- Anti-channeling /
- High temperature anti-channeling cement slurry /
- Pollution-resistant flushing spacer /
- Langgu sag

HTML全文

参考文献(9)

[1]	张丹丹,戴俊生,付晓龙,冀中坳陷廊固凹陷古近纪断层演化规律[J]. 断块油气田,2015(2):142-147. ZHANG Dandan,DAI Junsheng,FU Xiaolong, Paleogene fault evolution in Langgu Sag of Jizhong Depression[J]Fault-Block Oil & Gas Field,2015 (2):142-147.
[2]	赵贤正,王权,金凤鸣. 高勘探程度区富油气凹陷二次勘探方法及应用[J]. 勘探战略,2012(6):1-9. ZHAO Xianzheng,WANG Quan,JIN Fengming. Secondary exploration method and its application for hydrocarbon enriched depressions in highly explored areas[J].Exploration Strategy,2012 (6):1-9.
[3]	汪汉花,高莉莉.固井水泥石力学性能研究现状浅析[J]. 西部探矿工程,2010,22(4):70-74. WANG Hanhua,GAO Lili.Analysis of present situation ofstudy on mechanic property of set cement[J].West-China Exploration Engineering,2010,22(4):70-74.
[4]	李明,王伟,郑友志,等. 单因素法分析钻井液处理剂对水泥浆性能的影响[J]. 石油与天然气化工,2014, 43(3):297-301. LI Ming,WANG Wei,ZHENG Youzhi,et al.Impactod drilling fluid additive on performance of the cement slurry by single-factor[J].Chemical Rngineering of Oil & Gas, 2014,43(3):297-301.
[5]	李明,杨雨佳,李早元,等. 固井水泥浆与钻井液接触污染作用机理[J]. 石油学报,2014,35(6):1188-1196. LI Ming,YANG Yujia,LI Zaoyuan,et al.Mechanism of cement contamination by drilling fluid[J].ACTA PRTROLEI SINICA,2014,35(6):1188-1196.
[6]	郑友志, 佘朝毅, 姚坤全, 等. 钻井液处理剂对固井水泥浆的污染影响[J]. 天然气工业, 2015, 35(4):76-81. ZHENG Youzhi,SHE Chaoyi,YAO Kunquan,et al.Contamination effects of drilling fluid additives on cementslurry[J].Natural Gas Industry,2015,35(4):76-81.
[7]	张华,王大权,胡霖. 安岳气田磨溪009-4-X2井尾管固井技术[J]. 钻井液与完井液,2016,33(3):84-88. ZHANG Hua,WANG Da quan,HU Lin.Line r cementing technology for Well Moxi009-4-X2 in Block Anyue[J].Drilling Fluid & Completion Fluid,2016,33(3):84-88.
[8]	王东明,张华,王贵富,等. 大港油田调整井固井技术的研究与应用[J]. 长江大学学报(自然版),2015, 12(20):47-50. WANG Dongming,ZHANG Hua,WANG Guifu,etal. Study and application of adjustment well cementing in Dagang Oilfield[J].Journal of Yangtze University(Natural Science Edition),2015,12(20):47-50.
[9]	木合塔尔· 克力木,彭为,邱俭军. 一种新型固井泥浆流量计的开发及应用[J]. 声学与电子工程,2010(4):43-45. MU HE TA ER· ;KE LI MU,PENG Wei,QIU Jianjun. Development and application of a new cementing flowmeter[J].Acoustics and Electronics Engineering, 2010(4):43-45.