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谭静强

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谭静强，男，博士，教授，博士生导师^[1]，地质资源系主任，现就职于中南大学，主要从事非常规油气地质与地球化学、非常规储层改造及其环境影响等领域的应用性基础研究和交叉科学研究。

基本信息

人物说明----中南大学地质资源系主任、教授、博士生导师

学位/学历----博士

专业方向----地质资源与地质工程

国 籍 ---- 中国

职 业 ---- 教育科研工作者

任职院校----中南大学

毕业院校----中南大学，中国科学院研究生院

个人经历

教育经历

[1]2010.10-2014.5，德国地球科学中心和德国柏林工业大学| 石油地质| 博士学位| 博士研究生毕业

[2]2006.9-2009.6，中国科学院研究生院| 构造地质学| 硕士学位| 硕士研究生毕业

[3]2002.9-2006.6，中南大学| 地质工程| 学士学位| 大学本科毕业

工作经历

[1]2019.3-至今，地质资源系| 中南大学| 主任

[2]2017.1-至今，地质资源系| 中南大学 教授

[3]2014.12-2016.11，油气地球化学中心| 美国休斯敦大学 博士后

[4]2010.8-2014.11，有机地球化学部| 德国波茨坦地球科学中心 青年地质学家（半职）

[5]2009.7-2010.7，地球科学学院| 中国科学院研究生院 研究助理

社会兼职

[1]Marine and Petroleum Geology 副主编兼职时间：2019/09/01 --至今

[2]Energy Geoscience 副主编兼职时间：2019/07/01 --至今

[3]《非常规油气》编委兼职时间：2019/06/01 --至今

[4]《页岩气地质理论与评价》系列丛书编委兼职时间：2018/01/01 --至今

[5]中国地球物理学会构造物理化学专业委员会副主任委员兼职时间：2019/05/01 --至今

[6]湖南省侨联青年委员会常务副会长兼职时间：2019/05/01 --至今

[7]中国地质学会纳米地质专业委员会委员兼职时间：2016/01/01 --至今

[8]中国侨联青年委员会委员兼职时间：2019/11/01 --至今

[9]中国矿物岩石地球化学学会终身会员兼职时间：2017/10/01 --至今

[10]美国地球物理学会会员兼职时间：2019/06/01 --至今

谭静强

来自 网易 的图片

[11]湖南省可再生能源/新能源学会副理事长兼职时间：2019/01/01 --至今

[12]美国石油地质学家协会会员兼职时间：2019/01/01 --至今

[13]湖南省页岩气资源利用重点实验室学术委员会委员兼职时间：2017/06/01 --至今

[14]中国科学院战略先导专项评审专家兼职时间：2018/07/01 --至今

研究方向

[1] 非常规油气地质与地球化学

[2] 非常规储层改造及其环境影响

学术成果

论文成果

[1] Lei Li, Jingqiang Tan*, Benjamin Schwarz, Franti?ek Staněk, Natalia Poiata, Peidong Shi, Leon Diekmann, Dirk Gajewski. Recent advances and challenges of waveform-based seismic location methods at multiple scales. Reviews of Geophysics, 2020 (Accepted, IF=16.74)

[2] Jingqiang Tan, Zhanghu Wang, Wenhui Wang, Jason Hilton, Jianhua Guo, Xikai Wang. Depositional environment and hydrothermal controls on organic matter enrichment in the Lower Cambrian Niutitang Shale, South China. AAPG Bulletin, 2020.

[3] Jingqiang Tan, Ruining Hu, Wenhui Wang, Jeffrey Dick. Palynological analysis of the late Ordovician - early Silurian black shales in South China provides new insights for the investigation of pore systems in shale gas reservoirs. Marine and Petroleum Geology, 2020.

[4] Jingqiang Tan, Lyu Qiao, et al., Multi-fractal analysis for the AE energy dissipation of CO2 and CO2+brine/water treated low-clay shales under uniaxial compressive tests. Fuel, 2019, 246: 330-339.

[5] Qiao Lyu, Jingqiang Tan*, et al., Stress–Strain Modeling and Brittleness Variations of Low-Clay Shales with CO2/CO2-Water Imbibition. Rock Mechanics and Rock Engineering, 2019, 52:2039-2052.

[6] Lei Li, Jingqiang Tan*, et al., A review of the current status of induced seismicity monitoring for hydraulic fracturing in unconventional tight oil and gas reservoirs. Fuel, 2019, 242:195-210.

[7] Lei Li, Jingqiang Tan*, et al., Waveform-based microseismic location using stochastic optimization algorithms: A parameter tuning workflow. Computers and Geosciences, 2019, 124:115-127.

[8] Jeffrey Dick, Miao Yu, Jingqiang Tan*, Anhuai Lu. Changes in carbon oxidation state of metagenomes along geochemical redox gradients. Frontiers in Microbiology, 2019.

[9] Yiwen Ju, Ying Sun, Jingqiang Tan*, Hongling Bu, Kui Han, Xiaoshi Li, Lizhi Fang. The composition, pore structure characterization and deformation mechanism of coal-bearing shales from tectonically altered coalfields in eastern China. Fuel 2018, 234, 626-642.

[10] Zhenghui Xiao, Jingqiang Tan*, Yiwen Ju, Jaso Hilton. Rongfeng Yang, Ping Zhou, Bowen Ning, Jisong Liu. Reservoir characterization and gas potential evaluation of transitional marine-lacustrine organic rich shales: A typical case in central Hunan province, South China. Journal of Natural Gas Science and Engineering, 2018, 55, 520-533.

[11] Qiao Lyu, Xinping Long, Ranjith PG., Jingqiang Tan *. Effects of CO2-brine-rock interactions on the brittleness of shale based on statistical damage constitutive models. Geofluids, 2018.

[12] Qiao Lyu, Xinping Long, Ranjith PG., Jingqiang Tan * and Kang Yong, Experimental investigation on the mechanical behaviours of shale under water-based fluids. Engineering Geology 2018, 233,124-138 (ESI-1%高被引论文).

[13] Qiao Lyu, Xinping Long, Ranjith PG., Jingqiang Tan *, Wang Zhanghu and Luo Wenbin, A laboratory study of geomechanical characteristics of black shales after sub-critical/super-critical CO2+brine saturation. Geomechanics and Geophysics for Geo-Energy and Geo-Resources 2018, 3, 1-16.

[14] Qiao Lyu, Long Xinping, PG. Ranjith, Tan Jingqiang*, Kang Yong and Wang Zhanghu, Experimental investigation on the mechanical properties of shale with different adsorption time in sub-/super-critical CO2. Energy 2018,147:1288-1298 (ESI-1%高被引论文).

谭静强

来自 湖南省侨青委 的图片

[15] Adry Bissada, Jingqiang Tan*, Ewa Szymczyk, Mike Darnell, Mei Mei. Group-type characterization for crude oil and bitumen, part I: The enhanced separation and quantification of saturates, aromatics, resins and asphaltenes (SARA fractions). Organic Geochemistry, 2016, 95, 21-28.

[16] Adry Bissada, Jingqiang Tan*, Ewa Szymczyk, Mike Darnell, Mei Mei. Group-type characterization for crude oil and bitumen, part II: The separation and quantification of normal paraffins, iso-paraffins and naphthenes of the saturated fraction. Fuel, 2016, 173, 217-22.

[17] Holing Bu, Yiwen Ju, Jingqiang Tan*, Guochang Wang. Fractal charasteristics of pores of non-marine organic shale in the Upper Yangtze Platform, South China. Journal of Natural Gas Science and Engineering, 2015, 24:166-177 (ESI-1%高被引论文).

[18] Jingqiang Tan, Brian Horsfield, Nicolaj Mahlstedt, et al. Natural gas potential of Neoproterozoic and Lower Paleozoic marine shales in the Upper Yangtze Platform, South China: Geological and organic geochemical characterization. International Geology Review, 2015, 57,3:305-326.

[19] Jingqiang Tan, Brian Horsfield, Bernhard Krooss, et al. Shale Gas Potential of the Major Marine Shale Formations in the Upper Yangtze Platform, South China, Part II: Methane Sorption Capcity. Fuel, 2014, 129, 204-218 (ESI-1%高被引论文).

[20] Jingqiang Tan, Brian Horsfield, Jinchuan Zhang, et al. Shale Gas Potential of the Major Marine Shale Formations in the Upper Yangtze Platform, South China, Part III: Lithofacial, Petrophysical, and Rock Mechanical Properties. Energy & Fuels, 2014, 28, 2322-2342 (ESI-1%高被引论文).

[21] Jingqiang Tan, Brian Horsfield, Nicolaj Mahlstedt, et al. Physical Properties of Petroleum Formed During Maturation of Lower Cambrian shale in the Upper Yangtze Platform, South China, as inferred from PhaseKinetics Modelling. Marine and Petroleum Geology, 2013, 48, 47-56.

[22] Jingqiang Tan, Yiwen Ju, Wanming Yuan, et al. Thermochronological structural evolution of the Huaibei coalfield in eastern China: constrains from zircon fission-track data. Radiation Measurements, 2011, 46, 183-189.

[23] Jingqiang Tan, JU Yiwen, HOU Quanlin, et al. Heat flow and its effects on coalbed gas in the central-south area of the Huaibei coalfield, eastern China. Sci China Earth Sci, 2010, 53, 672–682.

[24] Jingqiang Tan, JU Yiwen, HOU Quanlin, et al. Distribution Characteristics and Influential Factors of the Present Geo-thermal Field in the Su-Lin Mine Area, Huaibei Coalfield. Ch. J Geophys, 2009, 52, 3, 732-739.

科研项目

[1]湖南省科技创新人才计划项目: 页岩油气地质与地球化学

[2]国家自然科学基金项目：富有机质泥页岩微纳米孔隙结构形成与演化

[3]中南大学高层次人才引进项目：页岩油气地质与地球化学

[4]国家人才项目：页岩油气地质与地球化学

[5]中南大学创新驱动项目：页岩气地质学

著作成果 [1]Early Paleozoic over-mature marine shale gas systems in South China: Geological characterization, enrichment mechanism, and resource potential（专辑）

荣誉奖项

[1]湖南省优秀青年人才奖励

[2]国家人才计划

[3]国家优秀自费留学生奖

[4]侯德封青年科学家奖

2020年11月，获得第八届中国侨界贡献奖二等奖^[2]。

2022年8月，荣获中国地质学会“第十八届青年地质科技奖——金锤奖”荣誉称号^[3]。  

视频

侨心湘印永向党丨谭静强：地球宝藏的探索者 2022年10月18日发布

参考来源