四川盆地威远地区页岩气优质储层精细刻画与靶窗优选
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摘要
中国石油化工股份有限公司威远页岩气勘查区块的构造位置位于四川盆地威远古隆起与自流井背斜所夹持的白马镇向斜,该区上奥陶统五峰组—下志留统龙马溪组一段为深水陆棚相暗色富有机质页岩沉积,地球物理测井岩电特征纵向差异明显,储层非均质性较强。为了指导该区页岩气水平井靶窗优选及钻井轨迹跟踪调整,基于测井小层划分、岩心纹层精细刻画、高精度地球物理预测以及沉积微相成因分析等方法,通过细化储层分类评价其参数指标,预测页岩气储层"甜点",在此基础上进行水平井靶窗优选及轨迹设计,进而评价水平井靶窗对页岩气产能的影响。研究结果表明:①该区五峰组—龙一段底部优质页岩段发育3种类型的纹层,纵向上交错叠置,反映了沉积环境和储层品质的微观差异;②可以将该区的页岩气储层划分为优质储层、较好储层、一般储层和差储层;③龙马溪组底部2—31小层为生物成因沉积微相,储层具有高有机碳含量、高孔隙度、高脆性指数、高含气性、低地应力差值等"地质+工程"甜点的特征,确定其为优质储层段;④实钻结果表明,水平井靶窗位置的选择对于单井页岩气产能的影响较大,优质储层钻遇率是获得页岩气高产的关键地质因素。该研究成果支撑了页岩气产能评价工作,为该区块实现页岩气商业开发奠定了基础。
Sinopec's Weiyuan Shale Gas Block is structurally located at the Baimazhen syncline held by the Weiyuan paleo-uplift and Ziliujing anticline in the Sichuan Basin. In this block, the Wufeng Fm of Upper Ordovician–Longmaxi Fm of Lower Silurian is an organic-rich dark shale deposit of deep-water shelf facies, whose litho-electric characteristics of geophysical logging are obviously different vertically and reservoir heterogeneity is strong. For providing a guidance for target window optimization and drilling trajectory tracking and adjustment of horizontal wells in the Weiyuan Shale Gas Block, parameter indexes were evaluated by refining the reservoir classification based on well logging subdivision, fine characterization of core laminae, high-precision geophysical prediction and genetic analysis of sedimentary microfacies. Furthermore, the "sweet spots" of shale gas reservoirs were predicted. Then, the target window was optimized and the trajectory of a horizontal well was designed. Finally, the effects of the target window of a horizontal well on shale gas productivity were evaluated. And the following research results were obtained. First, three types of laminae are developed in the high-quality shale reservoir at the bottom of Wufeng Fm–Long 1 Member, and they are vertically staggered and overlapped, which reflects the microscopic difference of sedimentary environment and reservoir quality. Second, shale gas reservoirs in this block can be divided into high-quality reservoirs, better reservoirs, general reservoirs and poor reservoirs. Third, the sublayer 2–31 at the bottom of Longmaxi Fm is biogenic sedimentary microfacies and it has the characteristics of "geological + engineering" sweet spot, e.g. high TOC contents, high porosity,high brittleness, high gas content and low in-situ stress difference, so it is classified as a high-quality reservoir. Fourth, actual drilling results show that the location selection of the target window of a horizontal well has a significant impact on single-well shale gas productivity, and the penetration rate of a high-quality reservoir is the key geological factor to achieve high-yield shale gas. The research results provide support for the evaluation of shale gas productivity and lay a foundation for the commercial development of shale gas in the Weiyuan Shale Gas Block.
Sinopec's Weiyuan Shale Gas Block is structurally located at the Baimazhen syncline held by the Weiyuan paleo-uplift and Ziliujing anticline in the Sichuan Basin. In this block, the Wufeng Fm of Upper Ordovician–Longmaxi Fm of Lower Silurian is an organic-rich dark shale deposit of deep-water shelf facies, whose litho-electric characteristics of geophysical logging are obviously different vertically and reservoir heterogeneity is strong. For providing a guidance for target window optimization and drilling trajectory tracking and adjustment of horizontal wells in the Weiyuan Shale Gas Block, parameter indexes were evaluated by refining the reservoir classification based on well logging subdivision, fine characterization of core laminae, high-precision geophysical prediction and genetic analysis of sedimentary microfacies. Furthermore, the "sweet spots" of shale gas reservoirs were predicted. Then, the target window was optimized and the trajectory of a horizontal well was designed. Finally, the effects of the target window of a horizontal well on shale gas productivity were evaluated. And the following research results were obtained. First, three types of laminae are developed in the high-quality shale reservoir at the bottom of Wufeng Fm–Long 1 Member, and they are vertically staggered and overlapped, which reflects the microscopic difference of sedimentary environment and reservoir quality. Second, shale gas reservoirs in this block can be divided into high-quality reservoirs, better reservoirs, general reservoirs and poor reservoirs. Third, the sublayer 2–31 at the bottom of Longmaxi Fm is biogenic sedimentary microfacies and it has the characteristics of "geological + engineering" sweet spot, e.g. high TOC contents, high porosity,high brittleness, high gas content and low in-situ stress difference, so it is classified as a high-quality reservoir. Fourth, actual drilling results show that the location selection of the target window of a horizontal well has a significant impact on single-well shale gas productivity, and the penetration rate of a high-quality reservoir is the key geological factor to achieve high-yield shale gas. The research results provide support for the evaluation of shale gas productivity and lay a foundation for the commercial development of shale gas in the Weiyuan Shale Gas Block.
引文
[1]赵圣贤,杨跃明,张鉴,王兰生,王兴志,罗超,等.四川盆地下志留统龙马溪组页岩小层划分与储层精细对比[J].天然气地球科学,2016,27(3):470-487.Zhao Shengxian,Yang Yueming,Zhang Jian,Wang Lansheng,Wang Xingzhi,Luo Chao,et al.Micro-layers division and fine reservoirs contrast of Lower Silurian Longmaxi Formation shale,Sichuan Basin,SW China[J].Natural Gas Geoscience,2016,27(3):470-487.
[2]石强,陈鹏,王秀芹,刘凤新.页岩气水平井高产层段判别方法及其应用——以四川盆地威远页岩气示范区下志留统龙马溪组为例[J].天然气工业,2017,37(1):60-65.Shi Qiang,Chen Peng,Wang Xiuqin&Liu Fengxin.A method for identifying high-productivity intervals in a horizontal shale gas well and its application:A case study of the Lower Silurian Longmaxi Fm in Weiyuan shale gas demonstration area,Sichuan Basin[J].Natural Gas Industry,2017,37(1):60-65.
[3]谢军,赵圣贤,石学文,张鉴.四川盆地页岩气水平井高产的地质主控因素[J].天然气工业,2017,37(7):1-12.Xie Jun,Zhao Shengxian,Shi Xuewen&Zhang Jian.Main geological factors controlling high production of horizontal shale gas wells in the Sichuan Basin[J].Natural Gas Industry,2017,37(7):1-12.
[4]王淑芳,邹才能,董大忠,王玉满,黄金亮,郭召杰.四川盆地富有机质页岩硅质生物成因及对页岩气开发的意义[J].北京大学学报(自然科学版),2014,50(3):476-486.Wang Shufang,Zou Caineng,Dong Dazhong,Wang Yuman,Huang Jinliang&Guo Zhaojie.Biogenic silica of organic-rich shale in Sichuan Basin and its significance for shale gas[J].Acta Scientiarum Naturalium Universitatis Pekinensis,2014,50(3):476-486.
[5]徐叶净,左文哲.粘土矿物的成因初步研究[J].河北联合大学学报(自然科学版),2013,35(1):68-72.Xu Yejing&Zuo Wenzhe.The preliminary research on the cause of the clay minerals[J].Journal of Hebei United University(Natural Science Edition),2013,35(1):68-72.
[6]C.г.萨尔基先,周中毅.自生粘土矿物的成因及其在石油地质中的意义[J].地质地球化学,1974,7(6):9-11.C.г.Sarkis&Zhou Zhongyi.Origin of authigenic clay minerals and its significance in petroleum geology[J].Geology Geochemistry,1974,7(6):9-11.
[7]刘洪林,郭伟,刘德勋,周尚文,邓继新.海相页岩成岩过程中的自生脆化作用[J].天然气工业,2018,38(5):17-25.Liu Honglin,Guo Wei,Liu Dexun,Zhou Shangwen&Deng Jixin.Authigenic embrittlement of marine shale in the process of diagenesis[J].Natural Gas Industry,2018,38(5):17-25.
[8]潘涛,姜歌,孙王辉.四川盆地威远地区龙马溪组泥页岩储层非均质性[J].断块油气田,2016,23(4):423-428.Pan Tao,Jiang Ge&Sun Wanghui.Shale reservoir heterogeneity of Longmaxi Formation,Weiyuan Area,Sichuan Basin[J].FaultBlock Oil&Gas Field,2016,23(4):423-428.
[9]陆益祥,潘仁芳,唐小玲,武文竞,鄢杰.四川盆地威远地区龙马溪组页岩储层上下亚段脆性差异[J].断块油气田,2016,23(4):429-433.Lu Yixiang,Pan Renfang,Tang Xiaoling,WuWenjing&Yan Jie.Brittleness comparison between upper and lower sub-sections of Longmaxi Formation shale reservoir in Weiyuan Area,Sichuan Basin[J].Fault-Block Oil&Gas Field,2016,23(4):429-433.
[10]张晨晨,王玉满,董大忠,李新景,管全中.四川盆地五峰组-龙马溪组页岩脆性评价与“甜点层”预测[J].天然气工业,2016,36(9):51-60.Zhang Chenchen,Wang Yuman,Dong Dazhong,Li Xinjing&Guan Quanzhong.Evaluation of the Wufeng-Longmaxi shale brittleness and prediction of"sweet spot layers"in the Sichuan Basin[J].Natural Gas Industry,2016,36(9):51-60.
[11]刘猛,刘超,舒志恒,陆永潮,古茜,谭淙文,等.四川盆地涪陵焦石坝地区黑色页岩非均质性特征及控制因素[J].石油实验地质,2018,40(1):118-125.Liu Meng,Liu Chao,Shu Zhiheng,Lu Yongchao,Gu Qian,Tan Congwen,et al.Heterogeneity characteristics and controlling factors of black shale in Jiaoshiba,Fuling,Sichuan Basin[J].Petroleum Geology&Experiment,2018,40(1):118-125.
[12]宋毅,桑宇,曾波,岳文翰,荆晨,张柟乔.四川盆地长宁区块龙马溪组页岩水平井压裂实践与认识[J].天然气工业,2017,37(增刊1):133-137.Song Yi,Sang Yu,Zeng Bo,Yue Wenhan,Jing Chen,Zhang Nanqiao.Practice and understanding of horizontal well fracturing in the Changning area of Sichuan Basin[J].Natural Gas Industry,2017,37(S1):133-137.
[13]贾成业,贾爱林,何东博,位云生,齐亚东,王军磊.页岩气水平井产量影响因素分析[J].天然气工业,2017,37(4):80-88.Jia Chengye,Jia Ailin,He Dongbo,Wei Yunsheng,Qi Yadong&Wang Junlei.Key factors influencing shale gas horizontal well production[J].Natural Gas Industry,2017,37(4):80-88.
[14]郭伟.四川威远区块页岩气水平井产量差异分析[J].科学技术与工程,2018,18(1):228-233.Guo Wei.Differentiation analysis on shale gas production of the horizontal wells in Sichuan Weiyuan Block[J].Science Technology and Engineering,2018,18(1):228-233.
[15]谢军.长宁-威远国家级页岩气示范区建设实践与成效[J].天然气工业,2018,38(2):1-7.Xie Jun.Practices and achievements of the Changning-Weiyuan shale gas national demonstration project construction[J].Natural Gas Industry,2018,38(2):1-7.
[16]陈建军,翁定为.中石油非常规储层水平井压裂技术进展[J].天然气工业,2017,37(9):79-84.Chen Jianjun&Weng Dingwei.CNPC's progress in horizontal well fracturing technologies for unconventional reservoirs[J].Natural Gas Industry,2017,37(9):79-84.
[17]谢军.关键技术进步促进页岩气产业快速发展——以长宁-威远国家级页岩气示范区为例[J].天然气工业,2017,37(12):1-10.Xie Jun.Rapid shale gas development accelerated by the progress in key technologies:A case study of the Changning-Weiyuan national shale gas demonstration zone[J].Natural Gas Industry,2017,37(12):1-10.
[18]赵金洲,任岚,沈骋,李勇明.页岩气储层缝网压裂理论与技术研究新进展[J].天然气工业,2018,38(3):1-14.Zhao Jinzhou,Ren Lan,Shen Cheng&Li Yongming.Latest research progresses in network fracturing theories and technologies for shale gas reservoirs[J].Natural Gas Industry,2018,38(3):1-14.
[2]石强,陈鹏,王秀芹,刘凤新.页岩气水平井高产层段判别方法及其应用——以四川盆地威远页岩气示范区下志留统龙马溪组为例[J].天然气工业,2017,37(1):60-65.Shi Qiang,Chen Peng,Wang Xiuqin&Liu Fengxin.A method for identifying high-productivity intervals in a horizontal shale gas well and its application:A case study of the Lower Silurian Longmaxi Fm in Weiyuan shale gas demonstration area,Sichuan Basin[J].Natural Gas Industry,2017,37(1):60-65.
[3]谢军,赵圣贤,石学文,张鉴.四川盆地页岩气水平井高产的地质主控因素[J].天然气工业,2017,37(7):1-12.Xie Jun,Zhao Shengxian,Shi Xuewen&Zhang Jian.Main geological factors controlling high production of horizontal shale gas wells in the Sichuan Basin[J].Natural Gas Industry,2017,37(7):1-12.
[4]王淑芳,邹才能,董大忠,王玉满,黄金亮,郭召杰.四川盆地富有机质页岩硅质生物成因及对页岩气开发的意义[J].北京大学学报(自然科学版),2014,50(3):476-486.Wang Shufang,Zou Caineng,Dong Dazhong,Wang Yuman,Huang Jinliang&Guo Zhaojie.Biogenic silica of organic-rich shale in Sichuan Basin and its significance for shale gas[J].Acta Scientiarum Naturalium Universitatis Pekinensis,2014,50(3):476-486.
[5]徐叶净,左文哲.粘土矿物的成因初步研究[J].河北联合大学学报(自然科学版),2013,35(1):68-72.Xu Yejing&Zuo Wenzhe.The preliminary research on the cause of the clay minerals[J].Journal of Hebei United University(Natural Science Edition),2013,35(1):68-72.
[6]C.г.萨尔基先,周中毅.自生粘土矿物的成因及其在石油地质中的意义[J].地质地球化学,1974,7(6):9-11.C.г.Sarkis&Zhou Zhongyi.Origin of authigenic clay minerals and its significance in petroleum geology[J].Geology Geochemistry,1974,7(6):9-11.
[7]刘洪林,郭伟,刘德勋,周尚文,邓继新.海相页岩成岩过程中的自生脆化作用[J].天然气工业,2018,38(5):17-25.Liu Honglin,Guo Wei,Liu Dexun,Zhou Shangwen&Deng Jixin.Authigenic embrittlement of marine shale in the process of diagenesis[J].Natural Gas Industry,2018,38(5):17-25.
[8]潘涛,姜歌,孙王辉.四川盆地威远地区龙马溪组泥页岩储层非均质性[J].断块油气田,2016,23(4):423-428.Pan Tao,Jiang Ge&Sun Wanghui.Shale reservoir heterogeneity of Longmaxi Formation,Weiyuan Area,Sichuan Basin[J].FaultBlock Oil&Gas Field,2016,23(4):423-428.
[9]陆益祥,潘仁芳,唐小玲,武文竞,鄢杰.四川盆地威远地区龙马溪组页岩储层上下亚段脆性差异[J].断块油气田,2016,23(4):429-433.Lu Yixiang,Pan Renfang,Tang Xiaoling,WuWenjing&Yan Jie.Brittleness comparison between upper and lower sub-sections of Longmaxi Formation shale reservoir in Weiyuan Area,Sichuan Basin[J].Fault-Block Oil&Gas Field,2016,23(4):429-433.
[10]张晨晨,王玉满,董大忠,李新景,管全中.四川盆地五峰组-龙马溪组页岩脆性评价与“甜点层”预测[J].天然气工业,2016,36(9):51-60.Zhang Chenchen,Wang Yuman,Dong Dazhong,Li Xinjing&Guan Quanzhong.Evaluation of the Wufeng-Longmaxi shale brittleness and prediction of"sweet spot layers"in the Sichuan Basin[J].Natural Gas Industry,2016,36(9):51-60.
[11]刘猛,刘超,舒志恒,陆永潮,古茜,谭淙文,等.四川盆地涪陵焦石坝地区黑色页岩非均质性特征及控制因素[J].石油实验地质,2018,40(1):118-125.Liu Meng,Liu Chao,Shu Zhiheng,Lu Yongchao,Gu Qian,Tan Congwen,et al.Heterogeneity characteristics and controlling factors of black shale in Jiaoshiba,Fuling,Sichuan Basin[J].Petroleum Geology&Experiment,2018,40(1):118-125.
[12]宋毅,桑宇,曾波,岳文翰,荆晨,张柟乔.四川盆地长宁区块龙马溪组页岩水平井压裂实践与认识[J].天然气工业,2017,37(增刊1):133-137.Song Yi,Sang Yu,Zeng Bo,Yue Wenhan,Jing Chen,Zhang Nanqiao.Practice and understanding of horizontal well fracturing in the Changning area of Sichuan Basin[J].Natural Gas Industry,2017,37(S1):133-137.
[13]贾成业,贾爱林,何东博,位云生,齐亚东,王军磊.页岩气水平井产量影响因素分析[J].天然气工业,2017,37(4):80-88.Jia Chengye,Jia Ailin,He Dongbo,Wei Yunsheng,Qi Yadong&Wang Junlei.Key factors influencing shale gas horizontal well production[J].Natural Gas Industry,2017,37(4):80-88.
[14]郭伟.四川威远区块页岩气水平井产量差异分析[J].科学技术与工程,2018,18(1):228-233.Guo Wei.Differentiation analysis on shale gas production of the horizontal wells in Sichuan Weiyuan Block[J].Science Technology and Engineering,2018,18(1):228-233.
[15]谢军.长宁-威远国家级页岩气示范区建设实践与成效[J].天然气工业,2018,38(2):1-7.Xie Jun.Practices and achievements of the Changning-Weiyuan shale gas national demonstration project construction[J].Natural Gas Industry,2018,38(2):1-7.
[16]陈建军,翁定为.中石油非常规储层水平井压裂技术进展[J].天然气工业,2017,37(9):79-84.Chen Jianjun&Weng Dingwei.CNPC's progress in horizontal well fracturing technologies for unconventional reservoirs[J].Natural Gas Industry,2017,37(9):79-84.
[17]谢军.关键技术进步促进页岩气产业快速发展——以长宁-威远国家级页岩气示范区为例[J].天然气工业,2017,37(12):1-10.Xie Jun.Rapid shale gas development accelerated by the progress in key technologies:A case study of the Changning-Weiyuan national shale gas demonstration zone[J].Natural Gas Industry,2017,37(12):1-10.
[18]赵金洲,任岚,沈骋,李勇明.页岩气储层缝网压裂理论与技术研究新进展[J].天然气工业,2018,38(3):1-14.Zhao Jinzhou,Ren Lan,Shen Cheng&Li Yongming.Latest research progresses in network fracturing theories and technologies for shale gas reservoirs[J].Natural Gas Industry,2018,38(3):1-14.
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