录井工程 ›› 2019, Vol. 30 ›› Issue (3): 8-15.doi: 10.3969/j.issn.1672-9803.2019.03.002
牛强①(
), 瞿煜扬②③, 慈兴华①, 周文治④, 张焕旭③⑤
摘要:
在传统的油气勘探开发中,碳同位素能够确定油气成熟储集层与烃源岩的关系、区分油气混合来源由于页岩气成分简单,组分中的同位素信息尤为重要。随着同位素分析技术快速发展,国内外开始尝试在现场发展实时同位素录井技术,各大油服、仪器公司相继研发出同位素录井设备,在现场进行测试。碳同位素录井是一种在油气勘探开发现场的快速、连续、准确、经济获取同位素信息的新型录井技术,对地质条件下油气藏的发现和检测提供了实时和连续的地球化学表征,为录井工作提供了全新的数据来源和数据解释。碳同位素录井技术已逐渐被国内油气勘探开发单位所接受,以东营和南川两口井的碳同位素录井为例,总结碳同位素录井技术的起源及发展、碳同位素录井方法及其优势,并展望该技术未来更加广阔的应用前景。
中图分类号:
| [1] | 王桂友,臧斌,顾昭. 质谱仪技术发展与应用[J]. 现代科学仪器, 2009(6):124-128. |
| WANG Guiyou,ZANG Bin,GU Zhao.Development and application of the mass spectrometry[J]. Modern Scientific Instruments,2009(6):124-128. | |
| [2] | 张新荣. 质谱离子源的现状与发展[J]. 现代科学仪器,2013(4):5-10. |
| ZHANG Xinrong.Current status and development of ion sources for mass spectrometry[J]. Modern Scientific Instruments,2013(4):5-10. | |
| [3] | 陈焕文,李明,金钦汉. 质谱仪器及其发展[J]. 大学化学, 2004,19(3):9-15. |
| CHEN Huanwen,LI Ming,JIN Qinhan.Mass spectrometry instrument and its development[J]. University Chemistry,2004,19(3):9-15. | |
| [4] | 周浩林. 小型化质谱设计的探究[J]. 仪表技术, 2014(4):1-6. |
| ZHOU Haolin.Research on miniaturized mass spectrometry design[J]. Instrumentation Technology,2014(4):1-6. | |
| [5] | 李明,费强,陈焕文,等. 离子阱质谱仪小型化的最新研究进展[J]. 仪器仪表学报,2007,28(6):1147-1152. |
| LI Ming,FEI Qiang,CHEN Huanwen,et al.New progresses in the development of miniature ion trap mass spectrometers[J]. Chinese Journal of Scientific Instrument,2007,28(6):1147-1152. | |
| [6] | 温学诗. 观天巨眼400年系列之六:夫琅和费的分光镜[J]. 太空探索, 2002(6):30-31. |
| WEN Xueshi.Series six of the Five-hundred-meter Aperture Spherical Telescope 400 years:Fraunhofer's spectroscope[J]. Space Exploration,2002(6):30-31. | |
| [7] | 卡·海尼格, 王德胜. R.W.本生. 科学技术哲学研究[J]. 科学技术与辩证法,1986(2):85-86. |
| Heiniger K,WANG Desheng,Bunsen R W.Philosophy of science and technology[J]. Science,Technology and Dialectics,1986(2):85-86. | |
| [8] | 宓云軿,王晓萍,詹舒越. 光腔衰荡光谱技术及其应用综述[J]. 光学仪器, 2007,29(5):85-89. |
| MI Yunping,WANG Xiaoping,ZHAN Shuyue.A review of cavity ring-down spectroscopy and its application[J]. Optical Instruments,2007,29(5):85-89. | |
| [9] | 吴涛,徐冬,何兴道,等. 基于波长调制的离轴积分腔输出光谱技术[J]. 光学学报, 2017,37(8):389-398. |
| WU Tao,XU Dong,HE Xingdao,et al.Off-axis integrated cavity output spectroscopy technique based on wavelength modulation[J]. Acta Optica Sinica,2017,37(8):389-398. | |
| [10] | 李宁,王飞,严建华,等. 利用可调谐半导体激光吸收光谱技术对气体浓度的测量[J]. 中国电机工程学报, 2005,25(15):121-126. |
| LI Ning,WANG Fei,YAN Jianhua,et al.The tunable diode laser absorption spectroscopy for gas concentration measurement[J]. Proceedings of the Chinese Society for Electrical Engineering,2005,25(15):121-126. | |
| [11] | 李宁. 基于可调谐激光吸收光谱技术的气体在线检测及二维分布重建研究[D]. 杭州:浙江大学, 2008. |
| LI Ning.Gas online detection and two-dimensional distribution reconstruction based on tunable diode laser absorption spectroscopy[D]. Hangzhou:Zhejiang University,2008. | |
| [12] | 张帆,张立萍. 红外吸收光谱法在气体检测中的应用[J]. 唐山师范学院学报,2005,27(5):62-64. |
| ZHANG Fan,ZHANG Liping.The application of infrared absorption spectroscopy to gas monitoring[J]. Journal of Tangshan Teachers College,2005,27(5):62-64. | |
| [13] | 沈超,张玉钧,倪家正. 光学气体吸收池在吸收光谱技术中的发展与应用[J]. 红外,2012,33(12):1-7. |
| SHEN Chao,ZHANG Yujun,NI Jiazheng.Development and application of multipass optical gas cells in tunable diode laser absorption spectroscopy[J]. Infrared,2012,33(12):1-7. | |
| [14] | 王强,付晓文,徐志明,等. 稳定碳同位素在油气地球化学中的应用及存在的问题[J]. 天然气地球科学,2005,16(2):233-237. |
| WANG Qiang,FU Xiaowen,XU Zhiming,et al.Development and application of stable carbon isotopes in natural gas and oil geochemistry[J]. Natural Gas Geoscience,2005,16(2):233-237. | |
| [15] | Tissot B P, Welte D H.Petroleum Formation and Occurrence[M]∥Petroleum formation and occurrence. Springer-Verlag, 1984. |
| [16] | Hakami A, Ellis L, Al-Ramadan K, et al.Mud gas isotope logging application for sweet spot identification in an unconventional shale gas play: A case study from Jurassic carbonate source rocks in Jafurah Basin, Saudi Arabia[J]. Marine and Petroleum Geology, 2016,76:133-147. |
| [17] | Ellis L, Uchytil S, Edman J, et al.Hedrocarbonsealindentificationusingmudgasisotopelogging[C]. Denver: AAPG Annual Convention, 2001: 57-57. |
| [18] | Ellis L, Berkman T, Uchytil S.Mudgas isotope logging while drilling :A few field technologe for exploration and production[C]. 19th International Meeting on Organic Geochemistry, Istanbul,Turkey.1999. |
| [19] | Ellis L, Berkman T, Uchytil S, et al.Integration of mud gas isotope logging (MGIL) with field appraisal at Horn Mountain Field, deepwater Gulf of Mexico[J]. Journal of Petroleum Science and Engineering, 2005,58(3-4):443-463. |
| [20] | 孙恒君,黄小刚. 实时同位素录井技术[J]. 录井工程,2010,21(3):1-4. |
| SUN Hengjun,HUANG Xiaogang.Real-time isotope logging technology[J]. Mud Logging Engineering,2010,21(3):1-4. | |
| [21] | Wu S, Deev A, Haught M, et al.Hollow waveguide quantum cascade laser spectrometer as an online microliter sensor for gas chromatography[J]. Journal of Chromatography A, 2008,1188(2):327-330. |
| [22] | 耿恒,陈沛,陈鸣. 实时甲烷碳同位素录井在南海西部YC1-1-1井的应用[J]. 录井工程,2016,27(4):45-48. |
| GENG Heng,CHEN Pei,CHEN Ming.Application of real-time methane carbon isotope logging in YC 1-1-1 well in the western South China Sea[J]. Mud Logging Engineering,2016,27(4):45-48. | |
| [23] | 王淑萍,徐守余,董春梅,等. 东营凹陷民丰洼陷北带沙四下亚段深层天然气储层成岩作用[J]. 吉林大学学报(地球科学版),2014,44(6):1747-1759. |
| WANG Shuping,XU Shouyu,DONG Chunmei,et al.Diagenesis characteristics of deep natural gas reservoirs in lower section of 4th member of Shahejie formation in the north zone of Minfeng sag in Dongying depression[J]. Journal of Jilin University(Earth Science Edition),2014,44(6):1747-1759. | |
| [24] | 高丽明,何登发,桂宝玲,等. 东营凹陷民丰洼陷边界断层三维几何学及运动学特征[J]. 石油勘探与开发, 2014,41(5):546-553. |
| GAO Liming,HE Dengfa,GUI Baoling,et al.3D geometrical and kinematic characteristics of boundary faults in Minfeng subsag,Dongying sag,Bohai Bay Basin[J]. Petroleum Exploration and Development,2014,41(5):546-553. | |
| [25] | 曲长胜,邱隆伟. 东营凹陷民丰洼陷盐下砂砾岩体有效储层描述[C]∥2015年全国沉积学大会沉积学与非常规资源论文摘要集.湖北,2015. |
| QU Changsheng,QIU Longwei.Description of effective reservoirs in Yanxia glutenite body in Minfeng sag,Dongying depression[C]∥Abstract Collection of Sedimentary and Unconventional Resources Papers of the 2015 National Sedimentology Conference.Hu Bei,2015. | |
| [26] | 邹才能,董大忠,王社教, 等. 中国页岩气形成机理、地质特征及资源潜力[J]. 石油勘探与开发, 2010,37(6):641-653. |
| ZOU Caineng,DONG Dazhong,WANG Shejiao,et al.Geological characteristics,formation mechanism and resource potential of shale gas in China[J]. Petroleum Exploration and Development,2010,37(6):641-653. | |
| [27] | 陈泽明, 雍自权, 朱杰平, 等. 四川盆地东南部南川地区五峰组-龙马溪组页岩特征[J]. 成都理工大学学报(自然科学版),2013,40(6):696-702. |
| CHEN Zeming,YONG Ziquan,ZHU Jieping,et al.Characteristics of Wufeng formation in Nanchuan area in the southeastern Sichuan Basin:The shale characteristics of the Longmaxi formation[J]. Journal of Chengdu University of Technology(Science & Technology Edition),2013,40(6):696-702. | |
| [28] | Curtis J B.Fractured shale-gas systems[J]. AAPG Bulletin, 2002,86(11):1921-1938. |
| [29] | Dai J, Zou C, Liao S, et al.Geochemistry of the extremely high thermal maturity Longmaxi shale gas, southern Sichuan Basin[J]. Organic Geochemistry, 2014,35(4):405-411. |
| [30] | Hill R J, Jarvie D M, Zumberge J, et al.Oil and gas geochemistry and petroleum systems of the Fort Worth Basin[J]. AAPG Bulletin, 2007(4):445-473. |
| [31] | Tilley B, Muehlenbachs K.Isotope reversals and universal stages and trends of gas maturation in sealed, self-contained petroleum systems[J]. Chemical Geology, 2013,339:194-204. |
| [32] | Xia X, Chen J, Braun R, et al.Isotopic reversals with respect to maturity trends due to mixing of primary and secondary products in source rocks[J]. Chemical Geology, 2013,339(2):205-212. |
| [33] | 戴金星,夏新宇,秦胜飞,等. 中国有机烷烃气碳同位素系列倒转的成因[J]. 石油与天然气地质, 2003,24(1):1-6. |
| DAI Jinxing,XIA Xinyu,QIN Shengfei,et al.The cause of the reverse of the carbon isotope series of organic alkane hydrocarbons in China[J]. Oil & Gas Geology,2003,24(1):1-6. | |
| [34] | 连承波,钟建华,渠芳,等. CO2成因与成藏研究综述[J]. 特种油气藏, 2007,14(5):7-12. |
| LIAN Chengbo,ZHONG Jianhua,QU Fang,et al.An overview of origin and accumulation of CO2[J]. Special Oil & Gas Reservoirs,2007,14(5):7-12. | |
| [35] | 程有义. 含油气盆地二氧化碳成因研究[J]. 地球科学进展, 2000,15(6):684-687. |
| CHENG Youyi.Origins of carbon dioxide in petroliferous basins[J]. Advances in Earth Science,2000,15(6):684-687. | |
| [36] | 曲希玉,刘立,杨会东,等. 油伴生CO2气的成因及其石油地质意义[J]. 中国石油大学学报(自然科学版), 2011,35(4):41-46. |
| QU Xiyu,LIU Li,YANG Huidong,et al.Genesis of oil-associated CO2 gas and its petroleum geological significance[J]. Journal of China University of Petroleum(Edition of Natural Science),2011,35(4):41-46. | |
| [37] | 张子枢. 气藏中氮的地质地球化学[J]. 地质地球化学, 1988(2):51-56. |
| ZHANG Zishu.Geological geochemistry of nitrogen in gas reservoirs[J]. Geology and Geochemistry,1988(2):51-56. | |
| [38] | 刘全有,刘文汇,KROOSS B M,等. 天然气中氮的地球化学研究进展[J]. 天然气地球科学, 2006,17(1):119-124. |
| LIU Quanyou,LIU Wenhui,KROOSS B M,et al.Advances in nitrogen geochemistry of natural gas[J]. Natural Gas Geoscience,2006,17(1):119-124. | |
| [39] | 杜建国. 天然气中氮的研究现状[J]. 天然气地球科学, 1992(2):36-40. |
| DU Jianguo.Research status of nitrogen in natural gas[J]. Natural Gas Geoscience,1992(2):36-40. | |
| [40] | 陈辉. 氢在地球演化过程中的同位素分馏[J]. 地质科学, 1996,31(3):238-247. |
| CHEN Hui.Isotope fractionation of hydeogen in the evolution of the earth[J]. Chinese Journal of Geology,1996,31(3):238-247. | |
| [41] | 董庸,黄羚,王鹏万,等. 桂中坳陷天然气组分特征及其非烃组分成因[J]. 海相油气地质,2014,19(1):69-73. |
| DONG Yong,HUANG Ling,WANG Pengwan,et al.Characteristics of natural gas components and origin of non-hydrocarbon gas in Guizhong depression[J]. Marine Origin Petroleum Geology,2014,19(1):69-73. | |
| [42] | 王万春. 天然气、原油、干酪根的氢同位素地球化学特征[J]. 沉积学报, 1996,14(增刊1):131-135. |
| WANG Wanchun.Hydrogen isotope geochemical characteristics of natural gas,crude oil and kerogen[J]Acta Sedimentologica,1996,14(S1):131-135. | |
| [43] | 刘国勇, 张刘平, 杨振平. 天然气中氢气的地化特征及油气成藏效应[J]. 天然气工业,2004,24(11):31-33. |
| LIU Guoyong,ZHANG Liuping,YANG Zhenping.Geochemical characteristics of hydrogen in natural gas and hydrocarbon accumulation effect[J]. Natural Gas Industry,2004,24(11):31-33. | |
| [44] | 袁胜斌,黄小刚,汪芯,等. 实时同位素录井技术应用[J]. 录井工程, 2017,28(2):9-12. |
| YUAN Shengbin,HUANG Xiaogang,WANG Xin,et al.Real-time isotope logging technology application[J]. Mud Logging Engineering,2017,28(2):9-12. | |
| [45] | 梁刚,甘军,徐新德,等. 实时碳同位素录井技术在琼东南盆地松涛凸起天然气成因及成藏分析中的应用[J]. 中国海上油气, 2018(3):56-61. |
| LIANG Gang,GAN Jun,XU Xinde,et al.Application of real-time carbon isotope logging technology in genesis and reservoir formation of natural gas in Songtao uplift,Qiongdongnan basin[J]. China Offshore Oil and Gas,2018(3):56-61. |
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