简历：

黄海平，江苏无锡人，博士、教授、博士生导师。英国365集团公司官网特聘教授，湖北省“百人计划”特聘专家，加拿大卡尔加里大学（University of Calgary）兼职教授，长期从事油气地质与油气地球化学教学与科研工作，具有丰富的国际合作与公司产品经验。

主要研究方向包括非常规油气地质与成藏、油气地球化学、石油成藏过程与期次评价、原油成熟度与成因判识、石油生物降解及重油与油砂形成机理、油气物性预测与流体非均质性分析、页岩油气与致密油气地质评价技术，以及基于生物技术的废弃油藏和煤、泥岩有机质转化为天然气的再生能源开发与碳减排利用，并开展CO₂地质封存相关评价研究。

围绕油气与矿产等深部资源勘探重大需求，在原油生物降解、油气成藏机理、非常规油气形成与富集、资源评价及其地质控制因素等方面取得了一系列创新性成果。已发表SCI论文140余篇，以第一或通讯作者在《Nature Communications》发表论文，并以共同作者身份在《Nature》发表论文，在《Earth-Science Reviews》《AAPG Bulletin》《International Journal of Coal Geology》《Marine and Petroleum Geology》《Organic Geochemistry》《Energy》《Fuel》等国际重要期刊发表多篇学术成果。谷歌学术H指数42，总引用次数超过7400次，2021年以来引用超过3000次，自2020年起连续入选“全球高被引学者”及“全球前2%顶尖科学家”榜单。

主持国家自然科学基金项目6项、科技部国家科技重大专项专题1项，以及国家攻关项目、教育部创新团队与重点项目、国家重点实验室开放基金、留学回国人员科研基金、博士点基金、国际合作与横向科研项目等共50余项。已指导国内外研究生40余名，其中7人已在国内外高校任职，其余多人成长为油气企业和科研机构的骨干力量。

热忱欢迎具有一定的地质、化学基础或较强实验能力的资源勘查工程、地质学及地质工程等地学相关理工专业的同学联系加入课题组，攻读矿产普查与勘探或地质学等硕士、博士学位，或博士后进组。

课题组各层次人员齐全，青年教师、博士后、博硕士研究生团结协作，具备科研所需的实验室平台及资源，根据学业发展及科研工作需要提供派往双一流高校或油气企业研究院进行学习科研的成长机会。

研究方向：

围绕深部油气与非常规能源勘探需求，重点研究页岩油气、致密油气等非常规油气的成藏机理与地质评价，系统解析油气成藏过程与期次演化，厘定原油成熟度与成因类型，阐明油气物性变化及流体非均质性主控因素。注重同位素地球化学与包裹体分析等技术在深层油气成藏研究中的综合应用。同时，聚焦裂谷—叠合盆地深部地质过程与沉积环境协同演化，探讨有机—无机相互作用及火成岩、热液活动对富有机质页岩形成与保存的控制机制，揭示不同地质条件下油气生成、运移、聚集与保存规律。进一步拓展至原油生物降解、重油与油砂成因、CO₂地质封存及生物转化天然气等低碳能源研究，为深部资源开发与碳减排提供地质支撑。

教育经历：

1981年09月-1985年07月，获江汉石油公司，石油地质专业，学士；

1985年09月-1988年07月，获中国地质大学（北京），石油地质专业，硕士；

2000年11月-2004年05月，获University of Newcastle upon Tyne化石燃料地球化学专业博士，导师：Steve Larter院士；

工作经历：

1988年07月-1994年10月，中国地质大学（北京），能源公司，讲师；

1994年11月-2002年04月，中国地质大学（北京），能源公司，副教授（破格晋升）（1998年-1999年，英国University of Aberdeen，国家教委选派访问科学家）；

2002年05月-2022年09月，中国地质大学（北京），能源公司，教授（破格晋升）；

2004年07月-2023年10月，University of Calgary，教授；

2015年05月-至今，英国365集团公司官网，英国365集团公司官网，教授；

学术兼职：

中国石油天然气集团有限公司油气地球化学重点实验室学术委员。

主讲课程：

《石油与天然气地球化学》、《油气运移与成藏》

近五年承担科研项目情况：

国家科技重大专项专题：海外页岩(致密)油技术可采资源评价，2025-2030，任务负责人

国家自然科学基金面上项目：超临界CO₂-页岩有机质相互作用及对盖层封盖性能影响，2025-2028，主持；

国家自然科学基金面上项目：基于原油组分含量新建原油成熟度评价方法及其成藏史评价意义，2019-2022，主持；

Natural Resources Canada：Regional cap-rock integrity study of CO₂ storage in depleted shallow gas reservoirs in Athabasca oilsands region. 2023-2024，主持；

中石化重庆涪陵页岩气勘探开发有限公司：复兴凉高山组页岩油气赋存机理研究及可动资源评价，2025-2027，主持；

中国石油化工股份有限公司胜利油田分公司：东营凹陷南部深层疑源油来源识别与典型区块油气运移路径剖析，2025-2026，主持；

中石化新疆新春石油开发有限责任公司：准噶尔盆地腹部侏罗系烃源岩品质及生排聚规律研究，2022-2024，主持；

中国石油化工股份有限公司石油勘探开发研究院：鄂尔多斯盆地储层固体沥青溯源及勘探意义，2022-2023，主持；

中国石油天然气股份有限公司勘探开发研究院：页岩含油气系统地质与地球化学表征，2021-2022，主持；

中国石化股份有限公司胜利油田分公司：济阳坳陷孔店组油源体系研究，2021-2022，主持；

中国石化股份有限公司胜利油田分公司：济阳坳陷深部层系油气源特征及运移模式，2020-2021，主持；

中国石油化工股份有限公司石油勘探开发研究院：基于排烃效率的海相烃源岩有效性评价研究，2019-2020，主持。

2020年以来发表的SCI论文：（*为通讯作者）

1. Wang, Q.R., Huang, H.P., Chen, H.H. and Zhao, Y.T., 2020. Secondary alteration of ancient Shuntuoguole oil reservoirs, Tarim Basin, NW China. Marine and Petroleum Geology 111, 202-208.

2. Zhang, H., Huang, H.P.*, Li, Z., Liu, M., 2020. Comparative study between sequential solvent-extraction and multiple isothermal stages pyrolysis: A case study on Eocene Shahejie Formation shales, Dongying Depression, East China. Fuel 263, 116591

3. Li, Z.X., Huang, H.P.*,Zhang, S.C., 2020. The effect of biodegradation on bound biomarkers released from intermediate-temperature gold-tube pyrolysis of severely biodegraded Athabasca bitumen. Fuel 263, 1 March 2020, 116669.

4. Liu, Y., Huang, H.P.*, Liu, Q.C., Xu, X.H., Cheng, H.Q., & Cheng, W.M., 2020. A reversed compositional pseudo-gradient in biodegraded oil column from Liaohe Basin, NE China. Marine and Petroleum Geology, 104378.

5. Liu, Y., Huang, H.P.*, Xu, X.H., Liu, Q.C., Han, D.L., Cheng, H.Q., Wu, D.S. & Yan, H.X., 2020. Novel geochemical proxies derived from 1D simulation of Liaohe oil sand bitumen to monitor in-situ combustion process. Journal of Analytical and Applied Pyrolysis, 104811.

6. Liu, Y., Huang, H.P.*, Liu, Q.C., Xu, X.H., & Cheng, H.Q., 2020. The acid and neutral nitrogen compounds characterized by negative ESI Orbitrap MS in a heavy oil before and after oxidation. Fuel, 277, 118085.

7. Huang, H.P. *, Yin, M.S., & Han, D.L., 2020. Novel parameters derived from alkylchrysenes to differentiate severe biodegradation influence on molecular compositions in crude oils. Fuel, 268, 117366.

8. Zhang, H., Huang, H.P.*, Li, Z., & Liu, M., 2020. Impact of maturation on the validity of paleo-environmental indicators: Implication for discrimination of oil genetic types in lacustrine shale systems. Energy & Fuels 34, 6, 6962–6973.

9. Yin, M.S., Huang, H.P.*, 2020. Quaternary exhumation history of NE Tibetan Plateau revealed by peculiar distributions of polycyclic aromatic hydrocarbons in core extracts from Sanhu depression eastern Qaidam basin. Journal of Quaternary Science 35(7), 869–880.

10. Li, Z.X., Huang, H.P.*, 2020. Bulk and molecular composition variations of gold-tube pyrolysates from severely biodegraded Athabasca bitumen. Petroleum Science 1-13.

11. Li, Z.X., Huang, H.P.*, Zhang, S.C., 2020. Carbon and hydrogen isotopic variations in gold tube gas pyrolysates from an Athabasca oil sand. Organic Geochemistry, 148, 104082.

12. Huang, H.P. *, Wang, E., 2020. A laboratory investigation of the impact of solvent treatment on the permeability of bituminous coal from Western Canada with a focus on microbial in-situ processing of coals. Energy, 210, 118542.

13. Wang, Q.R., Huang, H.P.*, 2020. Thermal maturity parameters derived from tetra-, penta-substituted naphthalenes and organosulfur compounds in highly mature sediments. JFUE 119626.

14. Yin, M.S., Huang, H.P., Brown, M., Lucach, S.O., Caminero, L.G., Chavez, S.M., Oldenburg, T.B.P., 2020. A novel biodegradation parameter derived from bicyclic sesquiterpanes for assessing moderate levels of petroleum biodegradation. Organic Geochemistry 147: 104049.

15. Silva, R.C., Yim, C., Radovic, J.R., Brown, M., Weerawardhena, P., Huang, H.P., Snowdon, L.R., Oldenburg, T.B.P., Larter, S.R., 2020. Mechanistic insights into sulfur rich oil formation, relevant to geological carbon storage routes. A study using (+) APPI FTICR-MS analysis. Organic Geochemistry 147: 104067.

16. Ma, Y., Zhong, N.N., Yao, L.P., Huang, H.P., Larter, S., Jiao, W.W., 2020. Shale gas desorption behavior and carbon isotopic variations of gases from canister desorption of two sets of gas shales in south China. Marine And Petroleum Geology 113: 104127.

17. Ma, Y., Ardakani, O.H., Zhong, N.N., Liu, H.L., Huang, H.P., Larter, S., Zhang, C., 2020. Possible pore structure deformation effects on the shale gas enrichment: An example from the Lower Cambrian shales of the Eastern Upper Yangtze Platform, South China. International Journal of Coal Geology  217: 103349

18. Silva, R.C., Snowdon, L.R., Huang, H.P., Nightingale, M., Becker, V., Taylor, S., Mayer, B., Pedersen, J.H., di Primio, R., Larter, S. 2020. Radiolysis as a source of C-13 depleted natural gases in the geosphere. Organic Geochemistry 138: 103911.

19. Yin, M., Huang, H.P., Oldenburg, T.B.P.2021. An application of exploratory factor analysis in the deconvolution of heavy oil biodegradation, charging and mixing history in southeastern Mexico. Organic Geochemistry 151, 104161

20. Wang, Q.R., Huang, H.P.*, 2021. Perylene preservation in an oxidizing paleoenvironment and its limitation as a redox proxy. Palaeogeography, Palaeoclimatology, Palaeoecology 562, 110104.

21. Wang, Q., Huang, H.P., & Li, Z., 2021. Mixing scenario of a vagarious oil in the Dongying Depression, Bohai Bay Basin. Fuel, 294, 120589.

22. Huang, H.P.*, Zhang, H., & Han, D.L., 2021. Ferrocene addition for suppression of hydrogen sulfide formation during thermal recovery of oil sand bitumen. Energy, 120744.

23. Wang, Q.R., Huang, H.P., Li, Z., Ma, Y., Zeng, J.H., & Larter, S., 2021. Geochemical significance of β-carotane in lacustrine oils from the Shahejie Formation of the Dongying Depression, eastern China. Organic Geochemistry, 104241.

24. Huang, H.P.*, Zhang, H., Yin, M.S., Han, D.L., 2021. Molecular composition characterization of oilsand heating experiments to investigate steam-solvent effects and chemical reactions during thermal recovery Energy & Fuel 2021, 35, 9917−9929.

25. Hou, L.H.*, Huang, H.P.*, Yang, C., Ma, W.J., 2021. Experimental simulation of hydrocarbon expulsion in semi-open system from variable organic richness source rocks. ACS Omega 6, 14664–14676.

26. Yin, M.S., Huang, H.P.*, Cheng, L., 2021. Molecular fingerprints in shales from the Sanhu biogenic gas fields in eastern Qaidam Basin, NW China: Evidence of biodegradation of shale organic matter. Marine and Petroleum Geology 133, 105289.

27. Tan, Z.J., Guo, J.W., Huang, H.P.*, 2021. Chemometric Classification of Oil Families in the Laizhouwan Depression, Bohai Bay Basin, Eastern China. ACS Omega 2021, 6, 24106−24117.

28. Huang, H.P.*, Zhang, H., Li, Z., Liu, M., 2021. Thermal Maturation Regime Revisited in the Dongying Depression, Bohai Bay Basin, East China. Geofluids, 2021, 6020850.

29. Chen, X.L., Zhang, B., Huang, H.P.*, Mao, Z.G., 2021. Controls on Organic Matter Accumulation of the Triassic Yanchang Formation Lacustrine Shales in the Ordos Basin, North China. ACS Omega 6, 40, 26048–26064.

30. Wang, Q.R., Huang, H.P.*, Zheng, L.J., 2021. Thermal maturity parameters derived from tetra-, penta-substituted naphthalenes and organosulfur compounds in highly mature sediments. Fuel 288, 119626.

31. Wang, Q.R., Huang, H.P.*, He, C., & Li, Z.X., 2021. Differential Thermal Evolution between Oil and Source Rocks in the Carboniferous Shale Reservoir of the Qaidam Basin, NW China. Energies, 14(21), 7088.

32. Wang, Q.R., Huang, H.P.*, He, C., Li, Z.X., & Zheng, L.J., 2022. Methylation and demethylation of naphthalene homologs in highly thermal mature sediments. Organic Geochemistry, 163, 104343.

33. Huang, H.P.*, di Primio, R., Pedersen, J. H., Silva, R., Algeer, R., Ma, J., & Larter, S., 2022. On the determination of oil charge history and the practical application of molecular maturity markers. Marine and Petroleum Geology, 105586.

34. Zhang, H., Huang, H.P.*, Li, Z., Liu, M., Jiang, C., Xu, X.H., 2022. Thermal stability and parameter validity of hopane series in mature shales–A case study from Dongying Depression, eastern China. Fuel, 315, 123222.

35. Li Z.X., Huang, H.P.*, Wang, Q.R., Zheng, L.J., 2022. Change in diagnostic ratios in expelled oils and residual extracts during semi-open pyrolysis experiments of an organic-rich shale. Environmental Pollution, 302, 119058.  

36. Li, Z.X., Huang, H.P.*, Zhang, S.C., 2022. The effect of biodegradation on bound aromatic hydrocarbons released from intermediate–temperature gold–tube pyrolysis of severely biodegraded Athabasca bitumen. Journal of Analytical and Applied Pyrolysis,163, 105497.

37. Jiang, C., Huang, H.P.*, Li, Z., Zhang, H., & Zhai, Z. 2022. A Novel Redox Indicator based on Relative Abundances of C₃₁ and C₃₂ Homohopanes in the Eocene Lacustrine Dongying Depression, East China. Petroleum Science 19, 1494-1504.

38. Li, Z.X., Huang, H.P.*, Yan, G., Xu, Y.H., George, S. C., 2022. Occurrence and origin of perylene in Paleogene sediments from the Tasmanian Gateway, Australia. Organic Geochemistry, 168, 104406.

39. Li, Z.X., Huang, H.P.*, George, S. C., 2022. Unusual occurrence of alkylnaphthalene isomers in upper Eocene to Oligocene sediments from the western margin of Tasmania, Australia. Organic Geochemistry, 168, 104418.

40. Li, Z.X., Huang, H.P.*, George, S. C., 2022. Unusual occurrence of alkylphenanthrenes in upper Eocene to Oligocene sediments from the western margin of Tasmania, Australia. Marine Geology, 450, 106859.

41. Zhang, H., Huang, H.P.*, Yin, M.S., 2022. Investigation on Oil Physical States of Hybrid Shale Oil System: A Case Study on Cretaceous Second White Speckled Shale Formation from Highwood River Outcrop, Southern Alberta. Minerals, 12(7), 802.

42. Huang, H.P.*, Zhang, H., Han, D.L., & Zheng, L.J. (2023). The occurrence and distribution of phenylated aromatic hydrocarbons and terphenyls during heating experiments of marine and lacustrine source rocks in a semi-open system. Journal of Analytical and Applied Pyrolysis, 173, 106091.

43. Huang, H.P.*, Li, M.H., Yang, C., & Zheng, L.J. (2023). A comparison of hydrocarbon generation and expulsion in carbonate and argillaceous source rocks using semi-open pyrolysis experiments. Marine and Petroleum Geology, 155，106382.

44. Huang, H.P.*, & Dong, M.Z. (2024). CO₂ containment and storage in organic-rich strata‒State of the art and future directions. International Journal of Greenhouse Gas Control, 132, 104047.

45. Zhang, H., Huang, H.P.*, & Ma, Y. (2024). Intensified bacterial productivity during the Paleocene–Eocene thermal maximum: Molecular evidence in the Tarim Basin in the eastern Tethyan realm. Palaeogeography, Palaeoclimatology, Palaeoecology, 646, 112224.

46. Huang, H.P.*, Chen, Z.H., Silva, R. C., Jiang, C.Q., Snowdon, L. R., & Larter, S. (2024). Geological and geochemical characterization of caprock integrity in the Athabasca oilsands region. Marine and Petroleum Geology, 167, 106958.

47. Zhang, B.J., Huang, H.P.*, Tian, X.W., & Zhu, G.Y. (2024). Significance of pyrobitumen in the evaluation of gas generation from oil cracking in the Sichuan Basin, SW China: A review. Marine and Petroleum Geology, 107109.

48. Chen, X.L., Huang, H.P., Yan, M., Zhang, B., Wang, W., Mao, Z., ... & Li, Q. (2024). A reverse biomarker-derived maturity trend in Triassic Yanchang Formation shales from the Ordos Basin in China. Natural Gas Industry B, 11(5), 496-510.

49. Zhu, G.Y., Huang, H.P.*, & Larter, S. (2025). Impact of Permian Tarim and Emeishan Large Igneous Provinces on Petroleum Systems and Gas Emissions in Tarim and Sichuan Basins. Earth-Science Reviews, 105072.

50. Li, Z., Huang, H.P., & George, S. C. (2025). Molecular compositional variation of organic matter deposited on the East Tasman Plateau during the Paleocene–Eocene Thermal Maximum. Palaeogeography, Palaeoclimatology, Palaeoecology, 658, 112614.

51. Fu, Z., Huang, H.P.*, Xu, X.H., Zhang, H., & Ma, Y. (2025). Hydrocarbon Generation Potential and Molecular Composition of Eocene Guchengzi Formation Coals and Carbonaceous Mudstones from the Fushun Basin, NE China. Energies, 18(3), 519.

52. Huang, H.P.*, Zhang, H., Ma, Z.L., Yang, X.R., Ma, Y., & Zheng, L.J. (2025). Evolution of pore structure in the Upper Cretaceous Second White Speckled Shale during thermal maturation: Insights from artificial and naturally matured samples. International Journal of Coal Geology, 104728.

53. Zhong, M., Huang, H.P., & Zhang, H. (2025). Hydrocarbon Generation Recrystallization of Carbonate Rocks and Its Geological Significance. SPE Journal, 1-14.

54. Zhong, M., Ma, L.C., Huang, H.P., & Zhang, H. (2025). Hydrocarbon Oxidation Catalyzed by Mn-Rich Hydrothermal Fluids: A Case Study of Solid Bitumen in Ordos Basin, Northwest China. SPE Journal, 1-18.

55. Wang, Q.R., Huang, H.P., & Jiang, T. (2025). Instantaneous petroleum charge in the Shunbei reservoirs, Tarim Basin. Frontiers in Marine Science, 12, 1553799.

56. Wang, Q.R., Huang, H.P., Sun, J.Y., Huang, J.J., & Jiang, T. (2025). Limitations of diamondoids in the quantitative evaluation of petroleum cracking in ultra-deep carbonate reservoirs of the Shunbei area, Tarim Basin. Frontiers in Marine Science, 12, 1578161.

57. Ma, Y., Hu, Q.H., Xu, J.B., Feng, B.H., Jiang, F.J., Wang, Y.S., & Huang, H.P.*. (2025). Multidisciplinary characterization of migrated bitumen enrichment and pore network development in low-maturity Es4 shales of the Damintun Sag, East China. Marine and Petroleum Geology, 107559.

58. Huang, H.P.*, Li, J., Zhu, G.Y. 2025. Reassessing gas generation from oil thermal cracking and its climatic implications associated with the Emeishan Large Igneous Province. Nature Communications (2025)16:4538

59. Ma, Y., Ardakani, O. H., Li, D.H., Ma, J.B., Zhong, N.N., & Huang, H.P.* (2025). OM-hosted pore systems in Ordovician Wufeng–Silurian Longmaxi shales in Sichuan Basin SW China: Origin, gas storage, and flow behavior. International Journal of Coal Geology, 104897.

专利：

1. Gates, I.D., Adams, J.J., Head, I.M., Huang, H.P., Oldenburg, T.B.P., Bennett, B., Larter, S.R., (2008) Process for Sequestering Carbon Dioxide. Publication info: WO2008128331 (A1) – 2008-10-30.  

2. Larter, S.R., Gates, I.D., Adams, J.J., Jiang, C., Snowdon, L.R., Bennett, B., Huang, H.P., (2008) Preconditioning an Oilfield Reservoir. Publication info: US2010012331 (A1) – 2010-01-21.  

3. Larter, S.R., Gates, I.D., Adams, J.J., Jiang, C., Snowdon, L.R., Bennett, B., Huang, H.P., (2009) Preconditioning an Oilfield Reservoir.  Publication info: CN101611216 (A) – 2009-12-23.  

4. 钟鸣；黄海平. 微生物碳酸盐岩裂解生气过程天然气变化规律的研究方法: 中国, CN202211596908.4 [P]. 2023.07.04.

5. 钟鸣；黄海平；张鸿. 一种极高热演化程度固体沥青成熟度确定方法: 中国, CN202410762471.X [P]. 2024.10.01.

6. 钟鸣；黄海平. 一种判断海相碳酸盐岩有机质富集时期海退环境的方法: 中国, CN202311562840.2 [P]. 2024.02.20.

7. 钟鸣; 黄海平. 一种利用红外吸收特征峰测定沥青成熟度的方法及其应用: 中国, CN202311005628.6 [P]. 2023.11.07.

8. 钟鸣；黄海平；李宁熙；张鸿；姜崇. 一种预测稠油中二苯并噻吩系列化合物含量的方法: 中国, CN CN202310910977.6 [P]. 2023.11.10.

9. 钟鸣；黄海平. 一种巴氏芽孢八叠球菌及其培养方法和应用: 中国, CN202310365151.6 [P]. 2023.07.18.