|本期目录/Table of Contents|

[1]罗宇维 肖 伟 赵 军.“十三五”中国海油固井技术研究进展与发展建议[J].中国海上油气,2020,32(05):145-151.[doi:10.11935/j.issn.1673-1506.2020.05.018]
 LUO Yuwei XIAO Wei ZHAO Jun.Research progresses and development suggestions of CNOOC cementing technology during the “13th Five-Year Plan”[J].China Offshore Oil and Gas,2020,32(05):145-151.[doi:10.11935/j.issn.1673-1506.2020.05.018]
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“十三五”中国海油固井技术研究进展与发展建议()

《中国海上油气》[ISSN:1673-1506/CN:11-5339/TE]

卷:
第32卷
期数:
2020年05期
页码:
145-151
栏目:
钻采工程(中国海油钻完井技术成果专辑)
出版日期:
2020-09-25

文章信息/Info

Title:
Research progresses and development suggestions of CNOOC cementing technology during the “13th Five-Year Plan”
文章编号:
1673-1506(2020)05-0145-07
作者:
罗宇维 肖 伟 赵 军
(中海油田服务股份有限公司 河北三河 065201)
Author(s):
LUO Yuwei XIAO Wei ZHAO Jun
(China Oilfield Services Limited, Sanhe, Hebei 065201, China)
关键词:
中国海油 固井技术 高温高压 超深水 技术挑战 发展建议
Keywords:
CNOOC cementing technology HPHT ultra-deep water technical challenge development suggestion
分类号:
TE256
DOI:
10.11935/j.issn.1673-1506.2020.05.018
文献标志码:
A
摘要:
“十三五”期间,针对中国海油固井技术从高温高压探井到高温高压气田开发井,从深水到超深水,从油气井水泥环短期防窜到全生命周期完整性等跨越面临的技术挑战,经过系统研究攻关,形成了高温高压井固井技术、深水井固井技术、非常规井固井技术、复杂盐膏层固井技术等具中国海油特色的固井技术体系。未来,为了适应中国海油持续增加的勘探开发力度,固井技术面临超高温高压、复合酸性气体腐蚀和超窄压力窗口挑战,超深水复杂浅层地质灾害、深水复杂开发井井筒完整性挑战,超低成本、超高时效挑战。建议中国海油固井技术发展需加强海上超高温高压复杂地层安全固井技术、超深水复杂地层安全固井技术、正常温压井降本增效的固井技术等方面研究,为中国海油油气勘探开发提供强有力的技术支撑
Abstract:
During the “13th Five-Year Plan” period, in view of the technical challenges faced by CNOOC’s cementing jobs that have developed from HPHT exploration wells to HPHT gas field development wells, from deep-water to ultra-deep water, from short-term anti-channeling of oil and gas well cement sheath to full life cycle integrity, through systematically studying and tackling key problems, a CNOOC-featured cementing technical system, including the HPHT well cementing, deep-water well cementing, unconventional well cementing and complex salt gypsum layer cementing, has been formed. In the future, in order to adapt to the increasing exploration and development efforts of CNOOC, the cementing jobs will be challenged by ultra high temperature and pressure, complex acidic gas corrosion, ultra-narrow pressure window, complex shallow geological hazards in ultra-deep water, wellbore integrity of complex development wells in deep water, ultra-low cost and ultra-high time efficiency. It is suggested that the development of CNOOC cementing technologies shall focus on the studies of offshore safety cementing in ultra high temperature and pressure complex formations, safety cementing in ultra-deep water complex formations, as well as the cementing technology for reducing cost and increasing benefit in normal temperature and pressure wells, so as to provide strong technical supports for CNOOC’s oil and gas exploration and development

参考文献/References:

[1] 齐奉忠,杜建平,魏群宝.固井材料技术新进展及研究方向.[J].石油科技论坛,2015,34(4):45-48.QI Fengzhong,DU Jianping,WEI Qunbao.New development and research area of cementing material and technology[J].Oil Forum,2015,34(4):45-48.
[2] 赵军,徐璧华,邱汇洋,等.抗高温防CO2和H2S腐蚀水泥浆体系研发及应用[J].中国海上油气,2017,29(3):91-94.DOI:10.11935/j.issn.1673-1506.2017.03.015.ZHAO Jun,XU Bihua,QIU Huiyang,et al.Research and application of a heat-resisting and anti CO2 and H2S corrosion cement slurry[J].China Offshore Oil and Gas,2017,29(3):91-94.DOI:10.11935/j.issn.1673-1506.2017.03.015.
[3] MISHRA P K.Ultra deepwater cementing:Challenges and solutions[R].SPE 102042,2006.
[4] 罗宇维,赵琥,宋茂林,等.中国海油固井技术发展现状与展望[J].石油科技论坛,2017(1):32-36.LUO Yuwei,ZHAO Hu,SONG Maolin,et al.Current conditions and outlook of CNOOC cementing technological development[J].Oil Forum,2017(1):32-36.
[5] 项先忠,孟青山,符军放,等.固井水泥环自愈合技术研究及应用:以东方1-1气田尾管回接固井为例[J].非常规油气,2017,4(6):92-99.XIANG Xianzhong,MENG Qingshan,FU Junfang,et al.The study and application of self-healing cement:Taking the drilling liner cementing technique of Dongfang 1-1 gas field as an example[J].Unconventonal Oil & Gas,2017,4(6):92-99.
[6] 罗宇维,陈良,罗东辉,等.深水高压井负压力窗口固井关键技术[J].中国海上油气,2016,28(4):83-87.DOI:10.11935/j.issn.1673-1506.2016.04.013.LUO Yuwei,CHEN Liang,LUO Donghui,et al.Key technology for negative pressure-window cementing in high pressure deep water wells[J].China Offshore Oil and Gas,2016,28(4):83-87.DOI:10.11935/j.issn.1673-1506.2016.04.013.
[7] 赵琥,刘文成,赵丹汇,等.深水钻井作业井下循环温度场预测[J].中国海上油气,2017,29(3):78-84.DOI:10.11935/j.issn.1673-1506.2017.03.013.ZHAO Hu,LIU Wencheng,ZHAO Danhui,et al.Prediction of temperature distribution in wellbores during circulation in deep water drilling operations[J].China Offshore Oil and Gas,2017,29(3):78-84.DOI:10.11935/j.issn.1673-1506.2017.03.013.
[8] 侯林,李斌,陈思桥,等.海洋平台大排量双混浆固井双机双泵撬的设计与应用[J].机床与液压,2019,47(8):82-87.HOU Lin,LI Bin,CHEN Siqiao,et al.Development and application of offshore platform large displacement twin mixing double pump cementing skid[J].Machine Tool & Hydraulics,2019,47(8):82-87.
[9] 惠坤亮,王德贵,阎永宏,等.深水遥控水泥头的设计与试验[J].机械工程师,2019,(9):121-123.HUI Kunliang,WANG Degui,YAN Yonghong,et al.Design and test of a deepwater remote-control cementing head[J].Mechanical Engineer,2019(9):121-123.
[10] 张海山,王永松,宫吉泽,等.海上增韧防窜固井水泥浆体系研究及应用[J].钻井液与完井液,2015,32(4):59-62.ZHANG Haishan,WANG Yongsong,GONG Jize,et al.Study and application of toughness enhanced and anti-channeling cement slurry used in offshore well cementing[J].Drilling Fluid & Completion Fluid,2015,32(4):59-62.
[11] 蒋凯,罗宇维,史元,等.M油田高压盐膏层固井技术研究与应用[J].中国海上油气,2013,25(3):44-49.JIANG Kai,LUO Yuwei,SHI Yuan,et al.Research and application of cementing technology for high pressure salt-gypsum layers in M oilfield[J].China Offshore Oil and Gas,2013,25(3):44-49.

相似文献/References:

[1]谢玉洪.中国海油近海油气勘探实践与思考[J].中国海上油气,2020,32(02):1.[doi:10.11935/j.issn.1673-1506.2020.02.002]
 XIE Yuhong.Practices and thoughts of CNOOC offshore oil and gas exploration[J].China Offshore Oil and Gas,2020,32(05):1.[doi:10.11935/j.issn.1673-1506.2020.02.002]

备注/Memo

备注/Memo:
收稿日期:2020-05-25 改回日期:2020-07-12 *中国海洋石油集团有限公司“十三五”科技重点项目“高温高压水泥浆技术研究Ⅱ期(编号:CNOOC-KJ 135 ZDXM 06ZJ-3)”“深水固井关键技术研究Ⅱ期(CNOOC-KJ 135 ZDXM 06ZJ-2)”部分研究成果。第一作者简介: 罗宇维,男,教授级高级工程师,中国海洋石油集团有限公司钻完井专家,主要从事固井技术研究和作业支持工作。地址:河北省三河市燕郊开发区行宫西大街81号(邮编:065201)。E-mail:luoyw@cosl.com.cn。
更新日期/Last Update: 2020-09-20