研究领域:
从事有机地球化学及稀土、金等金属成矿作用, 主要方向为金属成矿与有机质耦合作用。
1. 关键金属成矿机制
2. 有机岩相学与有机地球化学
3. 页岩油气成藏机理与富集规律
代表性论文及著作:
1.Zheng, T.Y., Littke, R., Zieger, L., Schmatz, J., Hartkopf-Fröder, C., Burnaz, L., Grohmann, S., 2023. Kerogen structure and porosity in Woodford Shale before and after hydrous closed system pyrolysis. International Journal of Coal Geology, 104375.
2. Zheng, T.Y., Zhang, Q., Deng, E.D., 2023. Applications of low molecular weight polycyclic aromatic hydrocarbons (PAHs) and diamondoids ratios/indices on the maturity assessment of coal-bearing source rock: Insight from mature to overmature Longtan Shale. International Journal of Coal Geology. 269, 104209.
3. Zheng, T.Y., Grohmann, S., Arysanto, A., Baniasad, A., Zhang, Q., Littke, R., 2022. Petrographical and geochemical investigation on maturation and primary migration in intact source rock micro-plugs: Insight from hydrous pyrolysis on Woodford Shale. International Journal of Coal Geology. 266, 104170.
4. Zheng, T.Y., Zieger, L., Baniasad, A., Grohmann, S., Hu, T., Littke, R., 2022. The Shahejie Formation in the Dongpu Depression, Bohai Bay Basin, China: Geochemical investigation of the origin, deposition and preservation of organic matter in a saline lacustrine environment during the Middle Eocene. International Journal of Coal Geology. 253, 103967.
5. Zheng, T.Y., Ma, X.H., Pang, X.Q., Wang, W.Y., Zheng, D.Y., Huang, Y.Z., Wang, X.R., Wang, K., 2019. Organic geochemistry of the Upper Triassic T3x5source rocks and the hydrocarbon generation and expulsion characteristics in Sichuan Basin, Central China. Journal of Petroleum Science and Engineering. 2(173), 1340-1354.
6. Zheng, T.Y., Ma, X.H., Pang, X.Q., Zheng, D.Y., Wang, W.Y., Wang, X.R., Zhang, K., 2019. Hydrocarbon generation and expulsion features of the Upper Triassic Xujiahe Formation source rocks and their controlling effects on hydrocarbon accumulation, Sichuan Basin, Central China. Geological Journal. 55(7), 4977-4996.
7. Arysanto, A., Burnaz, L., Zheng, T.Y., Littke, R. 2024. Geochemical and petrographic evaluation of hydrous pyrolysis experiments on core plugs of Lower Toarcian Posidonia Shale: Comparison of artificial and natural thermal maturity series. International Journal of Coal Geology, 104459.
8. Froidl, F., Littke, R., Baniasad, A., Zheng, T.Y., Röth, J., Böcker, J., Hartkopf-Fröder, C., Strauss, H., 2021. Peculiar Berriasian“Wealden”Shales of northwest Germany: organic facies, depositional environment, thermal maturity and kinetics of petroleum generation. Marine and Petroleum Geology. 124, 104819.
9. Zhang, Q., Jin, Z.J, Deng, E.D, Xu, Z.G, Zhu, R., Liu, Q.Y, Yan, Z.H, Hu, K., Zheng, T.Y., Hu, Z.Z. 2025. Accumulation and maturation of organic matter in shales: The coal-bearing Permian Longtan Formation at Tucheng Syncline, Southwestern Guizhou, China. Applied Geochemistry, 180, 106257.
10. Li, Q.W., Pang, X.Q., Tang, L., Li, W., Zhang, K., Zheng, T.Y., Zhang, X., 2019.Insights into the origin of natural gas reservoirs in the Devonian system of the marsel block, Kazakhstan. Journal of Earth Science, 30, 893-907.
11. Wang, W.Y., Pang, X.Q., Chen, Z.X., Chen, D.X., Zheng, T.Y., Luo, B., Li, J., Yu, R., 2019. Quantitative Prediction of Oil and Gas Prospects of the Sinian-Lower Paleozoic in the Sichuan Basin in Central China. Energy. 174, 861-872.
12. Wang, W.Y., Pang. X.Q., Chen, Z.X., Chen, D.X., Yu, R., Luo, B., Zheng, T.Y., Li, H., 2019. Statistical evaluation and calibration of model predictions of the oil and gas field distributions in superimposed basins: A case study of the Cambrian Longwangmiao Formation in the Sichuan Basin, China. Marine and Petroleum Geology. 106: 42-61.
13. Wang, W.Y., Pang, X.Q., Chen, Z.X., Chen, D.X., Ma, X.H., Zhu, W.P., Zheng, T.Y., Wu, K.L., Zhang, K., Ma, K.Y. 2020. Improved methods for determining effective sandstone reservoirs and evaluating hydrocarbon enrichment in petroliferous basins. Applied Energy, 261, 114457.
14. Wang, K., Pang, X.Q., Zhao, Z.F., Wang, S., Hu, T., Zhang, K., Zheng, T.Y., 2017. Geochemical characteristics and origin of natural gas in southern Jingbian gas field, Ordos Basin, China. Journal of Natural Gas Science & Engineering. 46:515-525.
15. Zheng, D.Y., Pang, X.Q., Ma, X.H., Li, C.R., Zheng, T.Y., Zhou, L,M., 2019. Hydrocarbon generation and expulsion characteristics of the source rocks in the third member of the Upper Triassic Xujiahe Formation and its effect on conventional and unconventional hydrocarbon resource potential in the Sichuan Basin. Marine and Petroleum Geology, 109, 175-192.
发明专利
1.庞雄奇, 郑天昱, 汪文洋, 王恩泽, 郑定业, 赵毅。一种综合性确定碳酸盐岩层系烃源岩供烃底限的方法. ZL201711475358X
2.庞雄奇, 郑定业, 周立明, 郑天昱, 张可。致密油藏有效储层物性下限值的确定方法和装置. ZL201710249629.3
科研项目:
1.中央高校基本科研业务费, 北京科技大学, 主持。
2.滇黔地区稀土-磷建造中重稀土富集成矿过程及资源高效利用, 国家重点研发计划重点专项, 科技部, 参与。
3.万山汞矿地质与地球化学特征、成矿年代学及成矿机理研究, 2025年贵州省基础研究计划(自然科学)面上项目和重点项目, 贵州省科学技术厅, 参与。
4. 有机质在磷块岩中—重稀土元素富集中的作用, 矿床地球化学国家重点实验室开放研究基金, 参与。
5. 含油气盆地多场耦合与全序列油气分布模型, 中国科学院抢占科技制高点智能导钻专项子课题, 中国科学院,参与。
主讲课程:
燃动地球——能源矿产资源(本科生)
学术兼职:
1.国际有机岩石学会ICCP专业鉴定组成员
Accreditation in the Measurement of Vitrinite Reflectance in Dispersed Organic Matter (ICCP/DOMVR/23-485)
Accreditation in the Vitrinite Random Reflectance Analysis and Maceral Analysis (ICCP/SCAP-485/AB)
2.《Organic Geochemistry》、《Journal of Petroleum Science and Engineering》、《Carbonates and Evaporites》、《International Journal of Earth Science》、《Frontiers in Earth Science》等国际学术期刊审稿人。
学习工作经历:
2012.09-2016.07 中国石油大学 (北京), 地球科学学院, 学士学位学习
2016.09-2019.06 中国石油大学 (北京), 地球科学学院, 硕士学位学习
2019.09-2023.12RWTH Aachen University亚琛工业大学(德国),Institute of Organic Biogeochemistry in GeoSystems, 博士学位学习
2024.07-至今北京科技大学资源与安全工程学院讲师
所获奖项:
1.第五届北京高校教师教学创新大赛优秀奖(排名第四), 2025年 (省部级)
2.第一届新时代高校“钢筋铁骨”育人共同体课程思政教学创新大赛二等奖(排名第三), 2024年(省部级)
3.AAPG Grants in Aid—Gustavus E. Archie Memorial International Grant 最高荣誉, 2019年(国际级)
