Drilling technology of Well Guiliudi-1 for shale gas geological survey in Guizhong depression
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摘要: 为查明柳州东部雒容有利区下石炭统鹿寨组的岩性、沉积相及富有机质有效泥(页)厚度、含气性,获取富有机质泥页岩段的页岩气相关参数,广西壮族自治区国土资源厅在桂中坳陷部署了一口小口径页岩气地质调查井——桂柳地1井。通过选用HXY-8B型岩心钻机、采用直井多开次钻探方法,分层钻进;利用前导向扩孔钻具分级扩孔,逐级下套管;配合PVA1788无固相冲洗液体系;同步开展录井、测井、固井及钻井评价等配套工作,解决了深孔泥岩中钻进取心困难、井壁稳定性差、钻孔弯曲度超标等施工难题。该井钻井技术可为该地区石炭系鹿寨组泥页岩钻探提供有益经验。Abstract: In order to find out the lithology, sedimentary facies, thickness of organic rich effective mud (shale) and gas bearing property of the lower Carboniferous Luzhai formation in the Luorong favorable area in the east of Liuzhou, and obtain the relevant parameters of shale gas in the organic rich mud shale section, the Department of Land and Resources of Guangxi Zhuang Autonomous Region deployed a small-diameter geological survey well—Well Guiliudi-1 in Guizhong depression. With use of HXY-8B core drill and the multiple-section vertical drilling method, the well was drilled layer by layer; the pilot type reaming tool, together with the PVA1788 solid free flushing fluid system was used to ream the hole step by step with the casing set tier by tier, meanwhile, geological logging, electrical logging, cementing and drilling evaluation was carried out; which solved the drilling difficulties in deep mud stone, such as difficult coring, poor wellbore stability, over curvature of the borehole. The drilling technology can provide useful experience for shale drilling in the Carboniferous Luzhai formation in the area.
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[1] 刘猛.页岩气钻完井技术[M]:上海:华东理工大学出版社,2016.LIU Meng. Shale Gas Drilling and Completion Technology [M].Shanghai: East China University of Technology Press, 2016.
[2] [2] 迟焕鹏,胡志方,王胜建,等.黔西地区表层易漏地层钻井工程技术[J].钻探工程,2021,48(4):66-72.
CHI Huanpeng, HU Zhifang, WANG Shengjian, et al. Drilling techniques for thief zones in surface formations in Western Guizhou[J]. Drilling Engineering, 2021,48(4):66-72.
[3] [3] 刘文武,赵志涛,翁炜,等.页岩气基础地质调查皖南地1井钻探施工技术[J].探矿工程(岩土钻掘工程),2018,45(10):66-70.
LIU Wenwu, ZHAO Zhitao, WENG Wei, et al. Driling of Wannandi Well-1 for basic shale gas geological survey[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2018,45(10):66-70.
[4] [4] 王宗友,陈刚,乔生贵.页岩气调查黔地4井钻探技术[J].探矿工程(岩土钻掘工程),2018,45(2):1-6.
WANG Zongyou, CHEN Gang, QIAO Shenggui. Abrief dis-cussion on the drilling technology of shale gas survey in Qiandi Well-4[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2018,45(2):1-6.
[5] [5] 刘小康,田智生.页岩气井钻遇破碎地层的井身结构优化设计[J].探矿工程(岩土钻掘工程),2016,43(7):89-91,110.
LIU Xiaokang, TIAN Zhisheng. Optimal design of casing pro-gram of shale gas drilling in broken formation[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2016,43(7):89-91,110.
[6] [6] 朱迪斯,岳伟民,单文军,等.页岩气地质调查井浙桐地1井钻探施工技术[J].探矿工程(岩土钻掘工程),2020,47(9):15-20.
ZHU Disi, YUE Weimin, SHAN Wenjun, et al. Drilling technology for Well Zhetongdi-1 for shale gas geologicai survey[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2020,47(9):15-20.
[7] [7] 李正前,罗宏保,薛骁彤.油气基础地质调查井新柯地1井工程设计[J].探矿工程(岩土钻掘工程),2018,45(8):39-43.
LI Zhengqian, LUO Hongbao, XUE Xiaotong. Engineering design of Xinkedi Well-1 for oil and gas basic geological survey[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2018,45(8):39-43.
[8] [8] 黄晟辉,奎中,吴金生,等.页岩气基础地质调查湘洞地1井施工技术[J].探矿工程(岩土钻掘工程),2018,45(3):14-18.
HUANG Shenghui, KUI Zhong, WU Jinsheng, et al. Construction technology of Well Xiangdongdi-1 for basic geogiogical survey of shale gas[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2018,45(3):14-18.
[9] [9] 邓亮,张承飞,邓少东,等.贵州省页岩气资源调查评价(黔北项目)钻探施工技术[J].西部探矿工程,2014,26(12):57-60.
DENG Liang, ZHANG Chengfei, DENG Shaodong, et al. Drilling technology for investigation and evaluation of shale gas resources in Guizhou province (Qianbei project)[J]. West-China Exploration Engineering , 2014,26(12):57-60.
[10] [10] 韩毅,张绍和,王文彬,等.湘西北复杂构造区雪峰山先导孔钻进技术[J].钻探工程,2021,48(7):20-25.
HAN Yi, ZHANG Shaohe, WANG Wenbin, et al. Drilling technology for Xuefengshan pilot hole for shale gas geological survey in Northwest Hunan[J]. Drilling Engineering, 2021,48(7):20-25.
[11] [11]
DZ/T 0250—2010 ,煤层气钻井作业规程DZ/T 0250—2010 , Specifications for coalbed methane drilling engineering[12] [12] 张德龙,翁炜,黄玉文,等.油气地质调查井钻井技术问题与对策[J].探矿工程(岩土钻掘工程),2017,44(12):21-25.
ZHANG Delong, WENG Wei, HUANG Yuwen, et al. Drilling technical problems and countermeasures of oil and gas geological survey well[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2017,44(12):21-25.
[13] [13] 赵志涛,刘文武,朱迪斯,等.岩心钻机施工页岩气地质调查井的井控技术现状[J].地质装备,2018,19(1):6-10.
ZHAO Zhitao, LIU Wenwu, ZHU Disi, et al. A review of current study of well control technology for shale gas geological survey wells constructed by coring drilling rigs[J]. Equipment for Geotechnical Engineering, 2018,19(1):6-10.
[14] [14] 郝海洋,宋继伟,蒋国盛,等.南方页岩气基础地质调查黔普地1井钻井施工技术[J].探矿工程(岩土钻掘工程),2019,46(8):23-29.
HAO Haiyang, SONG Jiwei, JIANG Guosheng, et al. Drilling technology of Well Qianpudi-1 for basic geological survey of shale gas in Southern China[J]. Exploration Engineering (Rock & Soil Drilling and Tunneling), 2019,46(8):23-29.
[15] [15] Gholami R., H.Elochukwu, N.Fakhari, et al. A review on borehole instability in active shale formations:Interactions,mechanisms and inhibitors[J]. Earth-Science Reviews, 2018,177:2-13.
[16] [16] D.Yi, P.Luo, X.Li, et al. Wellbore stability model for horizontal wells in shale formations with multiple planes of weakness[J]. Journal of Natural Gas Science and Engineering, 2018,52:334-347.
[17] [17] Wang W., A.D.Taleghani. Three-dimensional analysis of cement sheath integrity around wellbores[J]. Journal of Petro-leum Science and Engineering, 2014,121(2):38-51.
[18] [18] Labus M., P.Such. Microstructural characteristics of wellbore cement and formation rocks under sequestration conditions[J]. Journal of Petroleum Science and Engineering, 2016,138:77-87.
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