姜振学,男,吉林梨树人,1963年4生。教授,博士生导师,中国石油大学(北京)非常规油气科学技术研究院副院长。中国石油学会会员,第八届中国石油学会石油地质专业委员会油气运移学组副组长,国家能源局页岩气标准化委员会委员。1986年毕业于大庆石油学院勘探系,1998年获中国地质大学(北京)博士学位,1998—2000年石油大学(北京)博士后工作;2000—现今,中国石油大学(北京)工作。主要从事含油气盆地分析、常规和非常规油气形成与分布、常规和非常规油气资源评价科研和教学工作。在致密砂岩气成藏机制与类型划分、页岩气储层组构和孔隙结构特征与页岩气富集的主控因素、油气生排聚散物质平衡模型建立与油气运聚门限控藏模式等方面取得了重要成果。发表论文(第1、2作者)200余篇(其中SCI和EI收录80篇),合著专著10部,授权发明专利26件;先后参加国家自然科学基金、国家“973”、国家“八五”、 “九五” 、“十五”攻关项目、国家重大专项和局级项目40余项;获省部级科技进步一等奖14项、二等奖8项。
联系方式:86-10-89733328;
通讯地址:北京昌平中国石油大学非常规天然气研究院;邮编:102249;
邮箱:jiangzx@cup.edu.cn;jiangzhenxue@qq.com
主要兼职
1. 第八届石油学会石油地质专业委员会油气运移学组副组长,2013.2—
2. 能源行业页岩气标准化技术委员会委员,2018.11—
3. 中国地质学会非常规油气地质专业委员会委员,2014.8—
4. 中国地质学会地质科技情报专业委员会第二届委员会委员,2018.8.13—
5. 中国石油天然气集团限公司非常规油气重点实验室学术委员,2017-2022
6. 国土资源部页岩气战略评价重点实验室学术委员会委员,2017.6-2020.5
7. 陕西省陆相页岩气成藏与开发重点实验室学术委员会委员,2016-2021
8. 中国地质学会《地质学报》编委,2019.1-2022.12
9. 《中国矿业大学学报》编委会委员,2018.1-2019.12
主要个人和团队奖励
1. 2020年,南方海相页岩成储-成藏机理及评价技术与应用,中国石油和化工自动化应用协会,科技进步一等奖(1).
2. 2020年,川南五峰—龙马溪组页岩气富集机理及评价关键技术,绿色矿山产业联盟,科技进步一等奖(1).
3. 2020年,油气门限控藏模式、定量预测关键技术及重大应用成效,中国石油和化学工业协会,技术发明一等奖(3).
4. 2019年. 中国西部陆相致密油成藏富集机理及其应用成效. 中国石油和化学工业协会,科技进步一等奖(3).
5. 2018年. 陆相致密砂岩油气“源储一体化”有利区预测评价技术及重大应用成效,中国产学研促进会,科技进步一等奖(3).
6. 2016年. 叠合盆地复杂油气藏成因机制与预测方法及应用成效, 中国石油和化学工业协会,科技进步一等奖(5).
7. 2015年, 地震成藏学理论及其应用实践,中国石油和化工自动化应用协会,科技进步一等奖(2).
8. 2014年,叠复连续型致密砂岩气藏成因机制、预测方法及其在库车坳陷的重大发现,中国石油和化学工业协会,科技进步一等奖(3).
9. 2014年,渤海湾地区油气形成富集与分布规律,中国产学研合作促进会,产学研合作创新成果一等奖(3).
10. 2014年, 全国页岩气资源潜力调查评价及有利区优选, 国土资源部,科学技术奖一等奖(14).
11. 2012年,油气临界成藏理论、评价方法与重大勘探成效,北京市,科学技术一等奖(4).
12. 2012年,复杂油气藏相控预测及其重大应用成效,教育部,科技进步一等奖(3).
13. 2011年,陆相盆地断裂控藏机理与模式,教育部,科技进步一等奖(3).
14. 2011年,陆相盆地断裂控藏机理与模式, 中国石油和化学工业协会,科技进步一等奖(3).
15. 2005年,济阳坳陷下第三系油气运聚成藏与挖潜勘探,教育部,科技进步一等奖(12).
16. 1996年,延吉盆地断层封闭性及断块圈闭评价,黑龙江省教委,科技进步一等奖.
17. 2020年,绿色矿山产业联盟,突出贡献奖(个人).
18. 2018,中国石油大学(北京)非常规油气研究创新团队,中国石油和化学工业联合会“创新团队”奖(4).
19. 2015年,中国石油和化学工业联合会,全国石油和化工优秀科技工作者(个人).
20. 2013,中国石油大学(北京)油气成藏研究,中国石油和化学工业联合会,创新团队奖团队奖(6).
21. 2011年,北京市教育工会,“教育先锋教书育人先进个人”.
22. 2011年,中共北京市委教育工作委员会,“北京市高校优秀共产党员”.
23. 2009年,中国石油大学(北京),2007-2009年度 “优秀共产党员”称号.
24. 2010年,中国石油大学(北京),2008-2010年度 “劳动模范”称号.
授权发明专利
1. 国家自然基金:海相富气页岩低阻成因及其对含气性的控制机理(批准号:42072151),2021.1—2024.12,负责人;在研
2. 国家自然基金:陆相页岩储层岩石组构和孔隙结构特征及其对含气性的控制机理(批准号:41872135),2019.1—2022.12,负责人;在研
3. 国家自然科学基金项目:页岩非均质性和微-纳米孔喉结构对含气性的控制机理(批准号:41472112),2015.1—2018.12,负责人;完成
4. 国家自然科学基金项目:叠合盆地油气藏深埋过程中油气组分和相态演化机制(批准号:40972088),2009.1—2012.12,负责人;完成
5. 国家“973”课题:中国西部叠合盆地深部油气复合成藏机制与分布模式(2011CB201105),2011.1—2015.12,副负责人;完成
6. 国家“973”课题:陆相页岩油资源潜力与分布规律(2014CB239105), 2014.1—2018.8,骨干;完成
7. 国家重大专项:中生界陆相不同盆地类型页岩气赋存方式与富集规律研究(2016ZX05034-001),2016.1—2020.12,任务负责人;完成
8. 国家重大专项:五峰—龙马溪组富有机质页岩储层精细描述与页岩气成藏机理(2017ZX05035-02),2017.1—2020.12,课题负责人;完成
9. 国家重大专项:盆地致密砂岩气成藏机制及识别标志(2011ZX05008-004),2011.1—2015.9,骨干;完成
10. 国家重大专项:典型前陆盆地致密储层天然气藏形成机理与成藏模式(2011ZX05003-001), 2011.7—2014.12,专题负责人;完成
11. 国家重大专项:页岩气成藏主控因素研究(2011ZX05018-02), 2011.1—2015.12,骨干;完成
12. 国土资源部项目:西北区页岩气资源调查评价与选区,国土资源部,2011.3—2013.3,项目负责人;完成
13. 国土资源部项目:典型富有机质页岩储集能力及其控制因素研究(工作项目编码:12120114046701),2014.1—2018.12,课题负责人。完成
14. 中石油科技部:玛湖凹陷风城组页岩油富集机理及评价关键技术研究,2020.1—2024.12,919 万,课题负责人;在研
15. 中国石油西南油田分公司:四川盆地龙马溪组构造演化与页岩气富集规律研究,2020.1—2024.12,课题负责人;在研
授权发明专利
1. 庞雄奇,郭迎春,姜振学,等.确定浮力作用下限及动力平衡的物理模拟实验装置以及确定浮力作用下限及动力平衡的方法.发明专利,ZL201210511391.4,授权时间:2016.08.31;
2. 庞雄奇,郭迎春,姜振学,等. 确定连续型致密砂岩气藏分布范围的模拟实验装置及方法. 发明专利. ZL201310589131.3,授权时间:2016.05.18;
3. 白永强,郝进,姜振学,等. 泥页岩含气量检测用解析罐、检测装置及检测系统.发明专利,ZL201410160441.8,授权时间:2016.04.20;
4. 姜振学,李卓,庞雄奇,等.致密深盆气成藏预测方法和装置.发明专利,ZL201410646008.5,授权时间:2017.12.26;
5. 唐相路,姜振学,郝进,等. 页岩气储层特性预测方法和装置.发明专利,ZL201410815590.3,授权时间:2017.06.06;
6. 姜振学,冯洁,唐相路,等.页岩气储层的地质参数确定方法和装置.发明专利,ZL201410818237.0,授权时间:2018.03.09;
7. 原园,姜振学,黄何鑫,等.岩石粉碎筛选装置.发明专利,ZL 201510111926.0,授权时间:2017.04.12;
8. 黄河鑫,姜振学,李卓,等.恢复页岩含气量的方法.发明专利,ZL201510699029.8,授权时间:2017.11.10;
9. 高之业,姜振学,杨柳.自发渗吸测量装置.发明专利,ZL 201520876842.3,授权时间:2016.03.02
10. 姜振学,李卓,唐相路,等.页岩全孔径孔隙体积的表征方法.发明专利,ZL201510785013.9,授权时间:2018.07.27;
11. 原园,姜振学,喻宸,等.页岩孔隙结构的表征方法.发明专利,ZL201510111926.2,授权时间:2018.12.21;
12. 唐相路;姜振学;冯洁,等. 页岩油气储层的微观地质特征确定方法和装置.发明专利,ZL201510862762.7,授权时间:2018.06.08;
13. 原园,姜振学,喻宸,等.页岩孔隙结构的表征方法。发明专利,ZL201510837038.9,授权时间:2018.12.21;
14. 高凤琳,宋岩,姜振学,等.用于地质构造物理模拟实验的铺砂装置.发明专利.ZL201610648029.X,授权时间:2018.09.21
15. 李卓,张瀛涵,姜振学,等. 页岩裂缝吸水扩展实验装置.发明专利.ZL201710183292.0,授权时间:2018.02.09;
16. 李卓,巩文龙,姜振学,等. 岩石的纳米CT测试样品制备装置和制备方法.发明专利. ZL201710201705.3,授权时间:2018.04.17;
17. 陈磊,姜振学,黄河鑫,等.页岩吸附气量的测定方法.发明专利.ZL2016610597746.4,授权时间:2018.12.04;
18. 张昆,姜振学,谢雪恋,等.海相页岩层序识别方法及装置. 发明专利.ZL201710157734.4,授权时间:2019.05.24;
19. 高凤琳,宋岩,姜振学,等.页岩有机质碳化的判断方法. 发明专利.ZL201610994832.9,授权时间:2019.07.26;
20. 张昆,姜振学,刘天琳,等.一种海相页岩地层有利层段识别方法. 发明专利.ZL201710079042.2,授权时间:2019.10.01;
21. 阴丽诗,姜振学,张昆,等.测定海相页岩石墨化的方法,发明专利,201710449006 .0,授权时间:2020.05.05;
22. 张昆,姜振学,黄一舟,等.海相页岩地层破裂深度的预测方法和装置,发明专利,201710684941.5;
23. 李廷微、姜振学、许辰璐,等. 页岩油储层评价方法和装置,发明专利,201710245905.9,授权时间:2020.01.31;
24. 谌志远,宋岩,姜振学,等.一种表征水在页岩煤中赋存状态,发明专利,ZL201810619151.3,授权时间:2020.07.17
25. 常佳琦,姜振学,唐相路,等. 一种气体扩散运移的实验系统及其实验方法. 发明专利,ZL201810606725.3,授权时间:2020.11.06
代表性论著(2000年后主要论文)
1. 姜振学,唐相路,李卓,等.中国典型海相和陆相页岩储层孔隙结构及含气性,科学出版社,2018,P388.
2. 姜振学,饶丹,柳广弟,等.西北区页岩气(油)资源调查评价与选区,科学出版社2016,P259.
3. 姜振学,庞雄奇,杨海军,等.库车拗陷致密砂岩气成因机制与分布预测,科学出版社,2015,P169.
4. 庞雄奇,罗晓容,姜振学,等.中国典型叠合盆地油气聚散机理与定量模拟.北京:科学出版社,2007,P212.
5. 罗群,姜振学,庞雄奇.断裂控藏机理及模式,石油工业出版社,2006,P318.
6. 庞雄奇,邱楠生,姜振学.油气成藏过程定量模拟,石油工业出版社,2005,P353.
7. 金之钧,庞雄奇,姜振学.油气成藏定量模式,石油工业出版社,2003,P169.
8. 黄志龙,姜振学.吐哈盆地油气成藏机理及定量评价,石油工业出版社,2000,P148.
9. Jiang Zhenxue, Song Yan, Tang Xianglu, et.al.Controlling factors of marine shale gas differential enrichment in southern China. Petrol. Explor. Develop., 2020, 47(3): 661–673.
10. Zhenxue Jiang, Xianglu Tang, Lijun Cheng,et al. Characterization and origin of the Silurian Wufeng-Longmaxi Formation shale multiscale heterogeneity in southeastern Sichuan Basin, China. Interpretation, 2015, 3(2): SJ61-SJ74.
11. Zhen-Xue Jiang, Zhuo Li, Feng Li,et al. Tight sandstone gas accumulation mechanism and development models. Petroleum Science,2015,12(4):587–605.
12. Jiang Zhenxue, Pang Xiongqi, Li Zhuo, et al. An improved multi-parameter-constrained Pareto model for hydrocarbon resource assessment and its application in Bozhong Sag, Eastern China. Bulletin of Canadian Petroleum Geology, 2012, 60(3): 209-217.
13. Jiang Zhenxue, Yang Haijun, Li Zhuo, et al. Differences of Hydrocarbon Enrichment between the Upper and the Lower Structural Layers in the Tazhong Paleouplift. Acta Geologica Sinica, 2010, 84(5): 1116-1127.
14. Jiang Zhenxue, Pang Xiongqi, Yang Haijun, et al. Hydrocarbon enrichment characteristics and difference analysis in the TZ1-TZ4 well block of the Tarim Basin. Petroleum Science, 2010, 7(2): 201-210.
15. Jiang Zhenxue, Pang Xiongqi, Liu Luofu, Quantitative studies of hydrocarbon loss of the silurian bitumen sandstone in the Tarim Basin. Sci China Ser D-Earth Sci,2008,51(Supp.Ⅱ):101-107.
16. Jiang Zhenxue, Dong Yuexia, Li Hongyi.The limitation of fault-sealing and its control on hydrocarbon accumulation—an example from the Laoyemiao Oilfield of Nanpu Sag.Petroleum Science,2008,5(4):295-301.
17. Jiang Zhenxue,Chen Dongxia, Pang Xiongqi,et al. Oil saturation of surrounding rock controls on lithological reservoirs. Petroleum Science,2006,3(2):1-5.
18. Jiang Zhenxue, Pang Xiongqi, Jin Zhijun,et al. Division of Gas Accumulation System and Laws Controlling Distribution of Natural Gas in Typical Petroliferous Basins of China. Journal of Chain of Geosciences. 2002,13(4);306-312.
19. Zhang Fan,Jiang Zhenxue,Sun Wei,et al. Effect of Microscopic Pore-Throat Heterogeneity on Gas-Phase Percolation Capacity of Tight Sandstone Reservoirs. Energy & Fuels,2020, 34, 12399−12416.
20. Li, Xin, Jiang, Zhenxue, Jiang, Shu ,et al. Characteristics of matrix-related pores associated with various lithofacies of marine shales inside of Guizhong Basin, South China. Journal of Petroleum Science and Engineering,2020,185,1-16.
21. Li, Xin, Jiang, Zhenxue, Jiang, Shu ,et al. Various controlling factors of matrix-related pores from differing depositional shales of the Yangtze Block in south China: Insight from organic matter isolation and fractal analysis. Mar. Pet. Geol.,2020,111,720-734.
22. Wang, Xin,Jiang, Zhenxue,Zhang, Kun ,et al. Analysis of gas composition and nitrogen sources of shale gas reservoir under strong tectonic events: Evidence from the complex tectonic area in the yangtze plate. Energies,2020,13,281,1-18.
23. Wang Xingmeng, Jiang Zhenxue, Jiang Shu ,et al. Pore Evolution and Formation Mechanism of Organic-Rich Shales in the Whole Process of Hydrocarbon Generation: Study of Artificial and Natural Shale Samples. ENERGY & FUELS,2020,34,332-347.
24. Li Tingwei, Jiang Zhenxue Su, et al. Effect of laminae development on pore structure in the lower third member of the Shahejie Shale, Zhanhua Sag, Eastern China.Interpretation-a journal of subsurface characterization,2020,8(1):103-114.
25. Lei Chen, Luo Zuo, Zhenxue Jiang,et al. Mechanisms of shale gas adsorption: Evidence from thermodynamics and kinetics study of methane adsorption on shale. Chemical Engineering Journal. 2019, 361:559–570.
26. Lei Chen, Zhenxue Jiang, Qingxin Liu., et al. Mechanism of shale gas occurrence: Insights from comparative study on pore structures of marine and lacustrine shales. Marine and Petroleum Geology.2019,104: 200-216.
27. Lei Chen, Zhenxue Jiang, Keyu Liu., et al. INVESTIGATION OF FRACTAL CHARACTERISTICS AND METHANE ADSORPTION CAPACITY OF THE UPPER TRIASSIC LACUSTRINE SHALE IN THE SICHUAN BASIN, SOUTHWEST CHINA. Fractals.2019, doi.org/10.1142/S0218348X19400115.
28. Lei Chen, Zhenxue Jiang, Shu Jiang., et al. Nanopore Structure and Fractal Characteristics of Lacustrine Shale: Implications for Shale Gas Storage and Production Potential. Nanomaterials.2019, 9, 390. doi:10.3390/nano9030390.
29. Xingmeng Wang, Zhenxue Jiang, Shu Jiang., et al. Full-Scale Pore Structure and Fractal Dimension of the Longmaxi Shale from the Southern Sichuan Basin: Investigations Using FE-SEM, Gas Adsorption and Mercury Intrusion Porosimetry. Minerals 2019, 9, 543.
30. Xingmeng Wang, Zhenxue Jiang, Shu Jiang., et al. Pore Evolution and Formation Mechanism of Organic-Rich Shales in the Whole Process of Hydrocarbon Generation: Study of Artificial and Natural Shale Samples. Energy Fuels.2019. DOI: 10.1021/acs. Energy fuels.9b03789.
31. Li, X., Jiang, Z., Jiang, S., et al. Various controlling factors of matrix-related pores from differing depositional shales of the Yangtze Block in South China: insight from organic matter isolation and fractal analysis. Marine and Petroleum Geology. 2020,111:720-734.
32. Li, X., Jiang, Z., Jiang, S., et al. Characteristics of Matrix pore associated with various lithofacies of marine shales inside of Guizhong Basin, South China. Journal of Petroleum Science and Engineering.2019.doi.org/10.1016/j.petrol.2019.106671.
33. Fan Zhang, Zhenxue Jiang, Wei Sun., et al. A multiscale comprehensive study on pore structure of tight sandstone reservoir realized by nuclear magnetic resonance, high pressure mercury injection and constant-rate mercury injection penetration test. Marine and Petroleum Geology.2019. doi.org/10.1016/j.marpetgeo.2019.06.019.
34. Ming Wen, Zhenxue Jiang, Kun Zhang., et al. Difference Analysis of Organic Matter Enrichment Mechanisms in Upper Ordovician-Lower Silurian Shale from the Yangtze Region of Southern China and Its Geological Significance in Shale Gas Exploration. Geofluids. 2019. doi.org/10.1155/2019/9524507.
35. Yizhou Huang, Kun Zhang, Zhenxue Jiang.,et al. A Cause Analysis of the High-Content Nitrogen and Low-Content Hydrocarbon in Shale Gas: A Case Study of the Early Cambrian in Xiuwu Basin, Yangtze Region. Geofluids. 2019. doi.org/10.1155/2019/1435892.
36. Xiaoxue Liu, Zhenxue Jiang, Kun Zhang., et al. Mechanism Analysis of Organic Matter Enrichment of Upper Ordovician-Lower Silurian Shale in the Upper Yangtze Area Taking Jiaoye-1 Well in the Jiaoshiba Block as an Example. Geofluids. 2019. doi.org/10.1155/2019/ 5806023.
37. Zhiyuan Chen, Yan Song, Zhenxue Jiang., et al. Identification of organic matter components and organic pore characteristics of marine shale: A case study of Wufeng-Longmaxi shale in southern Sichuan Basin, China. Marine and Petroleum Geology. 2019,109:56-69.
38. Xin Li, Zhenxue Jiang, Pengfei Wang, et al. Porosity-preserving mechanisms of marine shale in Lower Cambrian of Sichuan Basin, South China [J]. Journal of Natural Gas Science and Engineering, 55(2018):191-205.
39. Xin Li, Zhenxue Jiang, Yan Song, et al. Porosity evolution mechanisms of marine shales at over-maturity stage: Insight from comparable analysis between Lower Cambrian and Lower Silurian inside and at the margin of the Sichuan Basin, South China [J]. Society of Exploration Geophysicists and American Association of Petroleum Geologists, 2018,6(3):739-757.
40. Tang X, Zhenxue Jiang, Jiang S, et al. Effects of organic matter and mineral compositions on pore structures of shales: A comparative study of lacustrine shale in Ordos Basin and Marine Shale in Sichuan Basin, China[J]. Energy Exploration & Exploitation, 2018(6):28-42.
41. Tingwei Li, Zhenxue Jiang, Zhuo Li, et al. Continental shale pore structure characteristics and their controlling factors: A case study from the lower third member of the Shahejie Formation, Zhanhua Sag, Eastern China [J]. Journal of Natural Gas Science and Engineering, 45(2017):670-692.
42. Yizhou Huang, Zhenxue Jiang, Kun Zhang, et al. Effect of Hydrothermal Activity on Organic Matter Enrichment of Shale: A Case Study of the Upper Ordovician and the Lower Silurian in the Lower Yangtze, South China [J]. minerals, 2018,8(495):1-18.
43. Kun Zhang, Zhenxue Jiang, Xuelian Xie, et al. Lateral Percolation and Its Effect on Shale Gas Accumulation on the Basis of Complex Tectonic Background.[J] Geofluids. 2018, 5195469(11).
44. Su, S., Jiang, Z., Shan, X., Zhang, C., Zou, Q., Li, Z., Zhu, R. (2018). The effects of shale pore structure and mineral components on shale oil accumulation in the Zhanhua Sag, Jiyang Depression, Bohai Bay Basin, China. Journal of Petroleum Science and Engineering, 165, 365-374.
45. Tang X, Jiang Z, Jiang S, et al. Characteristics and origin of in-situ gas desorption of the Cambrian Shuijingtuo Formation shale gas reservoir in the Sichuan Basin, China[J]. Fuel, 2017, 187:285-295.
46. Tang X, Jiang Z, Li Z, et al. Factors controlling organic matter enrichment in the lower Cambrian niutitang formation shale on the eastern shelf margin of the Yangtze block, China[J]. Interpretation, 2017, 5(3):1-41.
47. Li T, Jiang Z, Li Z, et al. Continental shale pore structure characteristics and their controlling factors: A case study from the lower third member of the Shahejie Formation, Zhanhua Sag, Eastern China[J]. Journal of Natural Gas Science & Engineering, 2017, 45.
48. Li T, Jiang Z, Xu C, et al. Effect of sedimentary environment on shale lithofacies in the lower third member of the Shahejie formation, Zhanhua Sag, eastern China[J]. Interpretation, 2017, 5(4):1-50.
49. Li T, Jiang Z, Xu C, et al. Effect of pore structure on shale oil accumulation in the lower third member of the Shahejie formation, Zhanhua Sag, eastern China: Evidence from gas adsorption and nuclear magnetic resonance[J]. Marine & Petroleum Geology, 2017.
50. Chen L, Jiang Z, Liu K, et al. Pore structure characterization for organic-rich Lower Silurian shale in the Upper Yangtze Platform, South China: A possible mechanism for pore development[J]. Journal of Natural Gas Science & Engineering, 2017, 46.(ESI高被引论文)
51. Chen L, Jiang Z, Liu K, et al. Application of low-pressure gas adsorption to nanopore structure characterisation of organic-rich lower Cambrian shale in the Upper Yangtze Platform, South China[J]. Australian Journal of Earth Sciences, 2017:1-13.
52. Chen Lei, Jiang Zhenxue, Liu Keyu et al. Application of Langmuir and Dubinin-Radushkevich models to estimate methane sorption capacity on two shale samples from the Upper Triassic Chang 7 Member in the southeastern Ordos Basin, China[J]. Energy Exploration & Exploitation, 2017,35(1):122-144.
53. Chen L, Jiang Z, Liu K, et al. Relationship between pore characteristics and occurrence state of shale gas: A case study of Lower Silurian Longmaxi shale in the Upper Yangtze Platform, South China[J]. Interpretation, 2017, 5(3):1-41.
54. Chen L, Jiang Z, Liu K, et al. A Combination of N2 and CO2 Adsorption to Characterize Nanopore Structure of Organic-Rich Lower Silurian Shale in the Upper Yangtze Platform, South China: Implications for Shale Gas Sorption Capacity[J]. 地质学报:英文版, 2017, 91(4):1380-1394.
55. Wang P, Jiang Z, Yin L, et al. Lithofacies classification and its effect on pore structure of the Cambrian marine shale in the Upper Yangtze Platform, South China: Evidence from FE-SEM and gas adsorption analysis[J]. Journal of Petroleum Science & Engineering, 2017, 156:307-321.
56. Ning C, Jiang Z, Gao Z, et al. Characteristics and controlling factors of reservoir space of mudstone and shale in Es3x in the Zhanhua Sag[J]. Marine & Petroleum Geology, 2017, 88.
57. Zhang K, Jiang Z, Yin L, et al. Controlling functions of hydrothermal activity to shale gas content-taking lower Cambrian in Xiuwu Basin as an example[J]. Marine & Petroleum Geology, 2017, 85.
58. Siyuan Su, Zhenxue Jiang, Zhiye Gao1, et al. A new method for continental shale oil enrichment evaluation. Interpretation,2017,5(2):T209-T217
59. Xiong F, Jiang Z, Li, P, et al. Pore structure of transitional shales in the Ordos Basin, NW China: Effects of composition on gas storage capacity[J]. Fuel, 2017, 206:504-515.
60. Tang Xianglu, Jiang Zhenxue, Jiang Shu, et al. Effects of organic matter and mineral compositions on pore structures of shales A comparative study of lacustrine shale in Ordos Basin and Marine Shale in Sichuan Basin, China. Energy Exploration & Exploitation 2018, 36(1) 28–42.
61. Xianglu Tang, Zhenxue Jiang, Hexin Huang, et al. Lithofacies characteristics and its effect on gas storage of the Silurian Longmaxi Marine Shale in the southeast Sichuan Basin, China. Journal of Natural Gas Science and Engineering, 2016, 28: 338-346.
62. Lei Chen, Zhenxue Jiang, Keyu Liu,et al. Effect of lithofacies on gas storage capacity of marine and continental shales in the Sichuan Basin, China. Journal of Natural Gas Science and Engineering,2016,(36):773-785.(ESI高被引论文)
63. Fengyang Xiong, Zhenxue Jiang, Jianfa Chen, et al. The role of the residual bitumen in the gas storage capacity of mature lacustrine shale: A case study of the Triassic Yanchang shale, Ordos Basin, China. Marine and Petroleum Geology, 2016,(69): 205-215.
64. Peng Li, Zhenxue Jiang, Min Zheng, et al. Estimation of shale gas adsorption capacity of the Longmaxi Formation in the Upper Yangtze Platform, China. Journal of Natural Gas Science and Engineering, 2016, 34: 034-1043.
65. Peng Li, Zhenxue Jiang, Min Zheng, et al. Prediction model for gas adsorption capacity of the Lower Ganchaigou Formation in the Qaidam Basin, China. Journal of Natural Gas Science and Engineering, 2016, 31: 493-502.
66. Pengfei Wang, Zhenxue Jiang, Wenming Ji, et al. Heterogeneity of intergranular, intraparticle and organic pores in Longmaxi shale in Sichuan Basin, South China: Evidence from SEM digital images and fractal and multifractal geometries. Marine and Petroleum Geology, 2016, 72:122-138.(ESI高被引论文)
67. Jianliang Liu, Zhenxue Jiang, Keyu Liu,et al. Hydrocarbon sources and charge history in the Southern Slope Region, Kuqa Foreland Basin, northwestern China. Marine and Petroleum Geology, 2016, 74:26-46.
68. BI He, Jiang Zhenxue, LI Jianzhong, LI Peng, CHEN Lei, PAN Qinghua, WU Yongxin. The Ono–Kondo model and an experimental study on supercritical adsorption of shale gas: A case study of on Longmaxi shale in southeastern Chongqing, China. Journal of Natural Gas Science and Engineering,2016,35:114-121.
69. Tang Xianglu, Jiang Zhenxue, Jiang Shu, et al. Effect of Organic Matter and Maturity on Pore Size Distribution and Gas Storage Capacity in High-Mature to Post-Mature Shales. Energy & fuels, 2016, 10.1021/acs.energyfuels.6b01499.
70. Tang Xianglu, Jiang Zhenxue, Jiang Shu, et al. Heterogeneous nanoporosity of the Silurian Longmaxi Formation shale gas reservoir in the Sichuan Basin using the QEMSCAN, FIB-SEM,and nano-CT methods. Marine and Petroleum Geology, 2016, 78:99-109.
71. Wang Pengfei, Jiang Zhenxue, Chen,Lei, et al. Pore structure characterization for the Longmaxi and Niutitang shales in the Upper Yangtze Platform, South China: Evidence from focused ion beam–He ion microscopy, nano-computerized tomography and gas adsorption analysis. Marine and Petroleum Geology, 2016,77:1323-1337.
72. Xianglu Tang, Zhenxue Jiang, Zhuo Li, et al. The effect of the variation in material composition on the heterogeneous pore structure of high-maturity shale of the Silurian Longmaxi formation in the southeastern Sichuan Basin, China. Journal of Natural Gas Science and Engineering, 2015, 23: 464-473.(ESI高被引论文)
73. Fengyang Xiong, Zhenxue Jiang, Xianglu Tang,et.al. Characteristics and origin of the heterogeneity of the Lower Silurian Longmaxi marine shale in southeastern Chongqing, SW China. Journal of Natural Gas Science and Engineering, 2015, doi:10.1016/j.jingse.2015.10.003.
74. Chen Lei, Jiang Zhenxue ,Ji Wenming, et al. Characterization of Microscopic Pore Structures and Its Effect on Methane Adsorption Capacity in Continental Shales. Acta Geologica Sinica (English Edition), 2015,89(s1):11-11.
75. Junqing Chen,Zhenxue Jiang,Hong Pang,et al.Lateral Migration of Petroleum in the Jurassic Toutunhe Formation in the Fudong Slope,Junggar Basin,China.RESOURCE GEOLOGY,2014,64(1):35-46.
76. Pang Xiongqi, Jiang Zhenxue, Li Zhuo, et al. A statistical method for determining the hydrocarbon accumulation coefficient and its application to assessment of hydrocarbon resources in Huanghekou Sag, Bohai Bay Basin, Eastern China. Bulletin of Canadian Petroleum Geology, 2012, 60(3): 1-9.
77. 姜振学, 宋岩, 唐相路, 等. 中国南方海相页岩气差异富集的控制因素[J]. 石油勘探与开发, 2020, 47(3): 1-12.
78. 姜振学,李廷微,宫厚健,等.沾化凹陷低熟页岩储层特征及其对页岩油可动性的影响.石油学报,2020,41(12):1587-1600.
79. 姜振学,唐相路,李卓,等. 川东南地区龙马溪组页岩孔隙结构全孔径表征及其对含气性的控制. 地学前缘,2016,02:126-134.
80. 姜振学,李峰,杨海军,等.库车坳陷迪北地区侏罗系致密储层裂缝发育特征及控藏模式. 石油学报,2015,S2:102-111.
81. 姜振学,庞雄奇.油气资源评价的多参数约束改进油气田(藏)规模序列法及其应用.海相油气地质,2009,14(3):53-59.
82. 姜振学,庞雄奇,刘洛夫,等.塔里木盆地志留系沥青砂破坏烃量定量研究.中国科学 D 辑:地球科学,2008,38(增刊Ⅰ):89-94.
83. 姜振学,田丰华,夏淑华.砂体回弹物理模拟实验.地质学报,2007,81(2):244-249.
84. 姜振学,庞雄奇,王显东,等,塔里木盆地志留系沥青砂岩有效厚度的确定方法.地质学报,2006,80(3):418-423.
85. 姜振学,王显东,庞雄奇,等.塔北地区志留系典型油气藏古油水界面恢复. 地球科学-中国地质大学学报,2006,31(2):201-206.
86. 姜振学,林世国,庞雄奇,等.两种类型致密砂岩气藏对比.石油实验地质.2006,28(3):210-214.
87. 姜振学,庞雄奇,曾溅辉,等.油气优势运移通道的类型及其物理模拟实验研究.地学前缘,2005,12(4):507-516.
88. 姜振学,庞雄奇,金之钧,等.地层抬升过程中的砂体回弹作用及其油气成藏效应.地球科学—中国地质大学学报,2004,29(4):420-426.
89. 姜振学,陈冬霞,邱桂强等. 应用层次分析法研究透镜状砂体成藏主控因素.石油勘探与开发,2003,30(3):44-47.
90. 姜振学,庞雄奇,金之钧,门限控烃作用及其在有效烃源岩判别中的应用. 地球科学—中国地质大学学报. 2002,27(6):689-695.
91. 姜振学,庞雄奇,黄志龙.叠合盆地油气运聚期次研究方法及应用.石油勘探与开发,2000,27(4):22-25.
92. 姜振学,庞雄奇,张金川,等.深盆气研究现状综述.地球科学进展,2000,15(3):289-292.
93. 周雯, 姜振学, 仇恒远, 等. 桂中坳陷下石炭统鹿寨组页岩气成藏条件和有利区预测[J].石油学报,2019,40(07):798-812.
94. 张博, 姜振学, 原园,等. 灰色关联度分析法在筛选页岩含气量主控因素中的应用[J]. 石油科学通报, 2018, 3(2):134-143.
95. 王朋飞, 姜振学, 韩波,等. 中国南方下寒武统牛蹄塘组页岩气高效勘探开发储层地质参数[J]. 石油学报, 2018, 39(2):152-162.
96. 宁传祥, 姜振学, 高之业,等. 用核磁共振和高压压汞定量评价储层孔隙连通性——以沾化凹陷沙三下亚段为例[J]. 中国矿业大学学报, 2017, 46(3):578-585.
97. 苏思远, 姜振学, 宁传祥,等. 沾化凹陷页岩油富集可采主控因素研究[J]. 石油科学通报, 2017(2):187-198.
98. 李卓, 姜振学, 唐相路,等. 渝东南下志留统龙马溪组页岩岩相特征及其对孔隙结构的控制[J]. 地球科学-中国地质大学学报, 2017, 42(7):1116-1123.
99. 原园,姜振学,喻宸,等. 高丰度低演化程度湖相页岩储层特征——以柴达木盆地北缘中侏罗统为例. 地质学报,2016,03:541-552.
100. 唐相路,姜振学,李卓,等. 渝东南地区龙马溪组高演化页岩微纳米孔隙非均质性及主控因素. 现代地质,2016,01:163-171.
101. 宋泽章,姜振学,原 园,等.“相控”测井曲线标准化的应用— ——以鄂尔多斯盆地下寺湾地区延长组湖相泥页岩TOC评价为例. 中国矿业大学学报,2016,45(2):283-291
102. 刘建良,姜振学、刘可禹,等.库车前陆盆地羊塔克地区流体包裹体特征及油气成藏过程地球科学,2016,41(7):10.3799/dqkx.2016.096,EI
103. 原园,姜振学,李卓,等.柴达木盆地西部地区古近系下干柴沟组咸化湖相泥页岩储集层特征. 古地理学报,2015,03:381-392.
104. 陈磊,姜振学,纪文明,等.川西坳陷须五段页岩微观孔隙结构发育控制因素及其成藏意义. 煤炭学报,2015,S2:449-457.
105. 罗枭,姜振学,李卓,等.英买力地区中生界—新生界油气藏石油包裹体特征及成藏期次.石油学报,2015,36(1):60-66.
106. 李 峰,姜振学,李 卓,等.库车坳陷迪北地区下侏罗统天然气富集机制. 地球科学—中国地质大学学报,2015,40(9):1538-1548.
107. 唐相路,姜振学,张莺莺,等.渝东南地区页岩气富集区差异性分布成因.西安石油大学学报( 自然科学版),2015,30(3):24-35.
108. 李峰,姜振学,李卓,等.库车坳陷迪那2气藏成因类型及成藏机制.中南大学学报(自然科学版),2015,46(4):1345-1352.
109. 刘建良,姜振学,刘可禹,等.库车前陆盆地牙哈构造带油气成藏过程研究.天然气地球科学,2015,26(1):43-53.
110. 李卓,姜振学,李峰.塔里木盆地塔中16石炭系低含油饱和度油藏成因机理.地球科学—中国地质大学学报,2014,39(5).557-564.
111. 庞雄奇,姜振学,黄捍东,等.叠复连续油气藏成因机制、发育模式及分布预测.石油学报,2014,35(5):795-828.
112. 李卓,姜振学,庞雄奇,等.塔里木盆地库车坳陷致密砂岩气藏成因类型.地球科学(中国地质大学学报),2013,38(1):156-164.
113. 李卓,姜振学,李峰.应用定量颗粒荧光技术恢复塔中地区石炭系油气充注历史.石油学报,2013,34(3):427-434.
114. 李卓,姜振学,李峰.古油层和残余油层的定量颗粒荧光响应.光谱学与光谱分析,2012,32(11):3073-3077.
115. 渠冬芳,姜振学,刘惠民,等.关键成藏期碎屑岩储层古孔隙度恢复方法.石油学报,2012,33(3):404-413.
116. 李宏义,姜振学,董月霞,等.断层封闭能力的有限性研究及模拟实验.石油实验地质,2010,32(6):583-587.
117. 田丰华,姜振学,夏淑华.砂体回弹在大庆油田形成过程中的贡献.中国石油大学学报(自然科学版),2008,32(2):16-20.
118. 田丰华,姜振学.剥蚀减压过程中的砂体回弹作用及其成藏效应研究综述.地质科技情报,2008,27(1):64-68.
119. 王显东,姜振学,庞雄奇.塔里木盆地志留系古油藏规模探讨.西南石油大学学报(自然科学版),2008,30(3):13-16.
120. 姜福杰,姜振学,庞雄奇.东营凹陷油气成藏体系的划分及定量评价.地球科学,2008,33(5):651-660.
121. 田丰华,姜振学,夏淑华.砂体回弹在大庆油田形成过程中的贡献.中国石油大学学报(自然科学版),2008,32(2):16-20.
122. 李宏义,姜振学,庞雄奇,等.柴北缘断裂上、下盘油气差异性聚集及成因.石油勘探与开发,2006,33(5):586-590.
123. 李宏义,姜振学,庞雄奇,等.柴北缘油气运移优势通道特征及其控油气作用.地球科学-中国地质大学学报,2006,31(2):214-220.
124. 张 洪,姜振学,庞雄奇.克拉2气田超压成因的物理模拟实验研究.石油学报,2006,27(4):59-62.
125. 王显东,姜振学,庞雄奇.古油气水界面恢复方法综述.地球科学进展,2003,18(3):412-419.