Acta Petrolei Sinica ›› 2024, Vol. 45 ›› Issue (1): 1-14.DOI: 10.7623/syxb202401001
• PETROLEUM EXPLORATION • Next Articles
Jia Chengzao
Received:
2023-10-31
Revised:
2023-12-10
Online:
2024-01-25
Published:
2024-02-20
贾承造
通讯作者:
贾承造,男,1948年3月生,1987年获南京大学博士学位,现为中国科学院院士、中国石油学会会士、《石油学报》编委会主任、《PetroleumResearch》主编,长期从事构造地质学、石油地质学研究和油气勘探工作。
作者简介:
贾承造,男,1948年3月生,1987年获南京大学博士学位,现为中国科学院院士、中国石油学会会士、《石油学报》编委会主任、《PetroleumResearch》主编,长期从事构造地质学、石油地质学研究和油气勘探工作。Email:jiacz@petrochina.com.cn
基金资助:
CLC Number:
Jia Chengzao. Prospects and five future theoretical and technical challenges of the upstream petroleum industry in China[J]. Acta Petrolei Sinica, 2024, 45(1): 1-14.
贾承造. 中国石油工业上游前景与未来理论技术五大挑战[J]. 石油学报, 2024, 45(1): 1-14.
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[1] 贾承造, 王祖纲, 姜林, 等.中国油气勘探开发成就与未来潜力:深层、深水与非常规油气——专访中国科学院院士、石油地质与构造地质学家贾承造[J].世界石油工业, 2023, 30(3):1-8. JIA Chengzao, WANG Zugang, JIANG Lin, et al.Achievements and future potential for oil & gas exploration and development in China:deep-formation, deep-water and unconventional reservoirs——Interview with JIA Chengzao, Academician of the CAS, geologist in petroleum geology and structure[J].World Petroleum Industry, 2023, 30(3):1-8. [2] 余国, 陆如泉.2022年国内外油气行业发展报告[M].北京:石油工业出版社, 2023:25-26. YU Guo, LU Ruquan.Domestic and foreign oil and gas industry development report 2022[M].Beijing:Petroleum Industry Press, 2023:25-26. [3] 国家能源局.2022年全国油气勘探开发十大标志性成果[EB/OL].(2023-01-20)[2023-10-20].http://www.nea.gov.cn/2023-01/20/c_1310692197.htm. National Energy Administration.10 landmark achievements in national oil and gas exploration and development in 2022[EB/OL].(2023-01-20)[2023-10-20].http://www.nea.gov.cn/2023-01/20/c_1310692197.htm. [4] Energy Institute.Statistical review of world energy[R/OL].London:Energy Institute, 2023.https://www.energyinst.org/__data/assets/pdf_file/0004/1055542/EI_Stat_Review_PDF_single_3.pdf. [5] 国家发展改革委, 国家能源局."十四五"现代能源体系规划[EB/OL].(2022-01-29)[2023-10-20].http://zfxxgk.nea.gov.cn/1310524241_16479412513081n.pdf. National Development and Reform Commission, National Energy Administration.The 14th Five-Year Plan for modern energy system[EB/OL].(2022-01-29)[2023-10-20].http://zfxxgk.nea.gov.cn/1310524241_16479412513081n.pdf. [6] 姚军, 黄朝琴, 孙海, 等.油气渗流力学多尺度研究方法进展[J].石油科学通报, 2023, 8(1):32-68. YAO Jun, HUANG Zhaoqin, SUN Hai, et al.Research progress of multi-scale methods for oil and gas flow in porous media[J].Petroleum Science Bulletin, 2023, 8(1):32-68. [7] 王国臻, 姜振学, 唐相路, 等.四川盆地焦石坝地区龙马溪组页岩气不同传输类型的临界孔径与传输能力[J].地质学报, 2023, 97(1):210-220. WANG Guozhen, JIANG Zhenxue, TANG Xianglu, et al.Critical conditions and capabilities of shale gas diffusion and seepage types in the Longmaxi Formation in Jiaoshiba area, Sichuan Basin[J].Acta Geologica Sinica, 2023, 97(1):210-220. [8] WEIJERS L, PEARSON M, WRIGHT C, et al.The American shale revolution in three stages[J].Oil-Industry History, 2018, 19(1):107-130. [9] 张涛, 李相方, 王香增, 等.低渗致密复杂叠置储层组合立体井网高效动用方法——以延安气田为例[J].石油学报, 2018, 39(11):1279-1291. ZHANG Tao, LI Xiangfang, WANG Xiangzeng, et al.Efficient mobilization method of stereoscopic well pattern in low-permeability complex superimposed tight reservoir:a case study of Yan'an gasfield[J].Acta Petrolei Sinica, 2018, 39(11):1279-1291. [10] 雷群, 胥云, 才博, 等.页岩油气水平井压裂技术进展与展望[J].石油勘探与开发, 2022, 49(1):166-172. LEI Qun, XU Yun, CAI Bo, et al.Progress and prospects of horizontal well fracturing technology for shale oil and gas reservoirs[J].Petroleum Exploration and Development, 2022, 49(1):166-172. [11] 赵玉龙, 黄义书, 张涛, 等.页岩气藏超临界CO2压裂-提采-封存研究进展[J].天然气工业, 2023, 43(11):109-119. ZHAO Yulong, HUANG Yishu, ZHANG Tao, et al.Research progress on supercritical CO2 fracturing, enhanced gas recovery and storage in shale gas reservoirs[J].Natural Gas Industry, 2023, 43(11):109-119. [12] 高德利.非常规油气井工程技术若干研究进展[J].天然气工业, 2021, 41(8):153-162. GAO Deli.Some research advances in well engineering technology for unconventional hydrocarbon[J].Natural Gas Industry, 2021, 41(8):153-162. [13] 郭天魁, 吕明锟, 陈铭, 等.体积压裂多分支裂缝支撑剂运移规律[J].石油勘探与开发, 2023, 50(4):832-844. GUO Tiankui, LYU Mingkun, CHEN Ming, et al.Proppant transport law in multi-branched fractures induced by volume fracturing[J].Petroleum Exploration and Development, 2023, 50(4):832-844. [14] 石道涵, 张矿生, 唐梅荣, 等.长庆油田页岩油水平井体积压裂技术发展与应用[J].石油科技论坛, 2022, 41(3):10-17. SHI Daohan, ZHANG Kuangsheng, TANG Meirong, et al.Development and application of shale oil horizontal well volume fracturing technology in Changqing oilfield[J].Petroleum Science and Technology Forum, 2022, 41(3):10-17. [15] LI Guoxin, XIAN Chenggang, LIU He.A "One Engine with Six Gears" system engineering methodology for the economic development of unconventional oil and gas in China[J].Engineering, 2022, 18:105-115. [16] 马永生, 黎茂稳, 蔡勋育, 等.中国海相深层油气富集机理与勘探开发:研究现状、关键技术瓶颈与基础科学问题[J].石油与天然气地质, 2020, 41(4):655-672. MA Yongsheng, LI Maowen, CAI Xunyu, et al.Mechanisms and exploitation of deep marine petroleum accumulations in China:advances, technological bottlenecks and basic scientific problems[J].Oil & Gas Geology, 2020, 41(4):655-672. [17] 姚军, 黄朝琴, 刘文政, 等.深层油气藏开发中的关键力学问题[J].中国科学:物理学 力学 天文学, 2018, 48(4):044701. YAO Jun, HUANG Zhaoqin, LIU Wenzheng, et al.Key mechanical problems in the development of deep oil and gas reservoirs[J].SCIENTIA SINICA Physica, Mechanica & Astronomica, 2018, 48(4):044701, doi:10.1360/SSPMA2017-00286. [18] 张光亚, 马锋, 梁英波, 等.全球深层油气勘探领域及理论技术进展[J].石油学报, 2015, 36(9):1156-1166. ZHANG Guangya, MA Feng, LIANG Yingbo, et al.Domain and theory-technology progress of global deep oil & gas exploration[J].Acta Petrolei Sinica, 2015, 36(9):1156-1166. [19] 新华社.我国首次在四川盆地开钻万米深井[EB/OL].(2023-07-20)[2023-10-20].https://www.gov.cn/yaowen/tupian/202307/content_6893249.htm#1. Xinhua News Agency.China has drilled a 10, 000-meter deep well in the Sichuan Basin for the first time[EB/OL].(2023-07-20)[2023-10-20].https://www.gov.cn/yaowen/tupian/202307/content_6893249.htm#1. [20] 赵从举, 韩奇.南海资源[M].桂林:广西师范大学出版社, 2011. ZHAO Congju, HAN Qi.Resources of the South China Sea[M].Guilin:Guangxi Normal University Press, 2011. [21] 张强, 吕福亮, 贺晓苏, 等.南海近5年油气勘探进展与启示[J].中国石油勘探, 2018, 23(1):54-61. ZHANG Qiang, LV Fuliang, HE Xiaosu, et al.Progress and enlightenment of oil and gas exploration in the South China Sea in recent five years[J].China Petroleum Exploration, 2018, 23(1):54-61. [22] 程兵, 付强, 李清平, 等.我国海洋油气装备发展战略研究[J].中国工程科学, 2023, 25(3):13-21. CHENG Bing, FU Qiang, LI Qingping, et al.Development strategy of China's offshore oil and gas equipment[J].Strategic Study of CAE, 2023, 25(3):13-21. [23] 周守为, 李清平, 朱海山, 等.海洋能源勘探开发技术现状与展望[J].中国工程科学, 2016, 18(2):19-31. ZHOU Shouwei, LI Qingping, ZHU Haishan, et al.The current state and future of offshore energy exploration and development technology[J].Strategic Study of CAE, 2016, 18(2):19-31. [24] 田辰玲, 杨建民, 林忠钦, 等.我国南海资源开发装备发展研究[J].中国工程科学, 2023, 25(3):84-94. TIAN Chenling, YANG Jianmin, LIN Zhongqin, et al.Development of resource exploitation equipment for South China Sea[J].Strategic Study of CAE, 2023, 25(3):84-94. [25] 袁士义, 王强, 李军诗, 等.提高采收率技术创新支撑我国原油产量长期稳产[J].石油科技论坛, 2021, 40(3):24-32. YUAN Shiyi, WANG Qiang, LI Junshi, et al.EOR technological innovation keeps China's crude oil production stable on long-term basis[J].Petroleum Science and Technology Forum, 2021, 40(3):24-32. [26] 马新华, 杨雨, 文龙, 等.四川盆地海相碳酸盐岩大中型气田分布规律及勘探方向[J].石油勘探与开发, 2019, 46(1):1-13. MA Xinhua, YANG Yu, WEN Long, et al.Distribution and exploration direction of medium-and large-sized marine carbonate gas fields in Sichuan Basin, SW China[J].Petroleum Exploration and Development, 2019, 46(1):1-13. [27] 新华社.习近平在第七十五届联合国大会一般性辩论上发表重要讲话[EB/OL].(2020-09-22)[2023-10-20].http://www.gov.cn/xinwen/2020-09/22/content_5546168.htm. Xinhua News Agency.Xi Jinping delivered an important speech at the General debate of the 75th session of the UN General Assembly[EB/OL].(2020-09-22)[2023-10-20].http://www.gov.cn/xinwen/2020-09/22/content_5546168.htm. [28] 中国石油新闻中心.中国石油CCUS产业规模化发展驶入快车道[EB/OL].(2022-03-17)[2023-10-20].http://news.cnpc.com.cn/system/2022/03/17/030062235.shtml. China Petroleum News Center.The large-scale development of CNPC CCUS industry has entered a fast lane[EB/OL].(2022-03-17)[2023-10-20].http://news.cnpc.com.cn/system/2022/03/17/030062235.shtml. [29] 中国石油石化.我国首个开放式千万吨级CCUS项目启动[EB/OL].(2022-11-04)[2023-10-20].http://www.chinacpc.com.cn/info/2022-11-04/news_6809.html#:~:text. China Petrochem.China's first open 10-megaton CCUS project was launched[EB/OL].(2022-11-04)[2023-10-20].http://www.chinacpc.com.cn/info/2022-11-04/news_6809.html#:~:text. [30] MA Jinfeng, LI Lin, WANG Haofan, et al.Carbon capture and storage:history and the road ahead[J]. Engineering, 2022, 14(7):33-43. [31] 张贤, 李阳, 马乔, 等.我国碳捕集利用与封存技术发展研究[J].中国工程科学, 2021, 23(6):70-80. ZHANG Xian, LI Yang, MA Qiao, et al.Development of carbon capture, utilization and storage technology in China[J].Strategic Study of CAE, 2021, 23(6):70-80. [32] 自然资源部中国地质调查局.把二氧化碳"埋"在地下——我国二氧化碳地质封存研究及示范成果扫描[EB/OL].(2021-05-08)[2023-10-20].https://www.cgs.gov.cn/xwl/cgkx/202105/t20210508_669884.html. Ministry of Natural Resources, China Geological Survey."Bury" carbon dioxide in the ground:China's carbon dioxide geological storage research and demonstration results[EB/OL].(2021-05-08)[2023-10-20].https://www.cgs.gov.cn/xwl/cgkx/202105/t20210508_669884.html. [33] 戴厚良, 苏义脑, 刘吉臻, 等.碳中和目标下我国能源发展战略思考[J].石油科技论坛, 2022, 41(1):1-8. DAI Houliang, SU Yinao, LIU Jizhen, et al.Thinking of China's energy development strategy under carbon neutrality goal[J].Petroleum Science and Technology Forum, 2022, 41(1):1-8. |
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