个人简历
宋宇,男,中共党员,工学博士,现为中国地质大学(武汉)资源学院副教授,硕士生导师。2012年毕业于吉林大学资源勘查工程专业,获工学学士学位;2017年毕业于吉林大学矿产普查与勘探专业,获工学博士学位,曾于2016年赴奥地利Montanuniversität Leoben(莱奥本矿业大学)进行国家公派博士生联合培养。承担多门本科生与研究生课程,积极推动油气地球化学学科发展。先后主持、参与多项国家及省部级科研项目,在高水平学术期刊上发表多篇论文,多次参加国内外举办的学术会议,曾获第三届、第六届非常规油气学术讨论会优秀青年报告论文奖等荣誉称号。
一、教学与研究生培养
1. 本科生课程《油气地球化学》、《有机地球化学》、《石油地质综合设计》、《油气地质创新创业训练》、《新能源专业课程综合设计》;
2. 研究生课程《石油及天然气地质学进展》、《油气地球化学进展》,留学生课程《Source Rock》;
3. 参编《油气地球化学》教材、建设油气地球化学实验室、建设MOOC课程(https://coursehome.zhihuishu.com/courseHome/1000050318#teachTeam);
4. 目前指导硕士研究生5名,联合指导博士研究生2名。已毕业硕士研究生6名(含留学生1名)。
二、学术论文(https://www.researchgate.net/profile/Yu-Song-10)
19. Song, Y.,*, Paerhati, P., Xu S., Jiang, S.*, et al., 2024. Paleoenvironment and Hydrocarbon Potential of Salinized Lacustrine Shale with High Terrigenous Input in the Paleogene Biyang Depression (East China): Evidence from Organic Petrography and Geochemistry. Energies, 17, 3003.
18. Song, Y.,*, Wan, L.*, Xu S., et al., 2024. Lake-Level-Fluctuation Control on Shale Oil Enrichment of the Salinized Lacustrine Organic-Rich Shale in the Paleogene Biyang Depression, East China. Minerals, 14, 94.
17. Song, Y.*, Zhu, K., Shi, Q., et al., 2023. Two-step classification of highly mixed oil in the qikou sag (bohai bay basin, China): Implications for origin, maturity, and biodegradation. Journal of Petroleum Science and Engineering, 221, 111273.
16. Song, Y.*, Ye, X., Shi, Q., et al., 2022. A comparative study of organic-rich shale from turbidite and lake facies in the Paleogene Qikou Sag (Bohai Bay Basin, East China): Organic matter accumulation, hydrocarbon potential and reservoir characterization. Palaeogeography, Palaeoclimatology, Palaeoecology, 594, 110939.
15. Liu, B., Song, Y.*, Ye, X., et al., 2021. Algal-microbial community, paleoenvironment, and shale oil potential of lacustrine organic-rich shale in the Upper Cretaceous Nenjiang Formation of the Southern Central Depression, Songliao Basin (NE China). ACS Earth and Space Chemistry, 5, 2957-2969.
14. Song, Y.*, Cao, Q.*, Li, S., et al., 2021. Salinized lacustrine organic-rich shale influenced by marine incursions: Algal-microbial community, paleoenvironment and shale oil potential in the Paleogene Biyang Depression. Palaeogeography, Palaeoclimatology, Palaeoecology, 580, 110621.
13. Song, Y.*, Zhu, K., Xu, Y.*, et al., 2021. Paleovegetational reconstruction and implications on formation of oil shale and coal in the Lower Cretaceous Laoheishan Basin (NE China): Evidence from palynology and terpenoid biomarkers. Energies, 14, 4704.
12. Hu, S., Song, Y.*, Su, P., et al., 2020. Impact of marine incursions on lacustrine source rocks: Organic matter quantity, quality, and kinetics in the Paleocene South Yellow Sea Basin, offshore eastern China. Organic Geochemistry, 148, 104084.
11. Liu, B., Song, Y.*, Zhu, K., et al., 2020. Mineralogy and element geochemistry of salinized lacustrine organic-rich shale in the Middle Permian Santanghu Basin: Implications for paleoenvironment, provenance, tectonic setting and shale oil potential. Marine and Petroleum Geology, 120, 104569. (ESI高被引论文)
10. Song, Y., Hu, S., Xu, J., et al., 2020. Lacustrine environmental evolution and implications on source rock deposition in the Upper Cretaceous-Paleocene of the South Yellow Sea Basin, offshore eastern China. Marine and Petroleum Geology, 113, 104135.
9. 宋宇,刘招君,Achim Bechtel,等,2020. 老黑山盆地下白垩统穆棱组油页岩与煤含油率控制因素研究. 吉林大学学报(地球科学版),50(2): 11-29.
8. Song, Y., Li, S., Hu, S., 2019. Warm-humid paleoclimate control of salinized lacustrine organic-rich shale deposition in the Oligocene Hetaoyuan Formation of the Biyang Depression, East China. International Journal of Coal Geology, 202, 69–84.
7. Song, Y., Liu, Z., Groß, D., et al., 2018. Petrology, mineralogy and geochemistry of the Lower Cretaceous oil-prone coal and host rocks from the Laoheishan Basin, northeast China. International Journal of Coal Geology, 191, 7–23.
6. Song, Y., Liu, Z., Bechtel, A., et al., 2017. Paleoenvironmental reconstruction of the coal- and oil shale-bearing interval in the lower Cretaceous Muling Formation, Laoheishan Basin, northeast China. International Journal of Coal Geology, 172, 1–18.
5. Song, Y., Bechtel, A., Sachsenhofer, R.F., et al., 2017. Depositional environment of the Lower Cretaceous Muling Formation of the Laoheishan Basin (NE China): Implications from geochemical and petrological analyses. Organic Geochemistry, 104, 19–34.
4. Song, Y., Liu, Z., Sun, P., et al., 2017. A comparative geochemistry study of several oil shale-bearing intervals in the Paleogene Huadian Formation, Huadian Basin, Northeast China. Journal of Earth Science, 28, 645–655.
3. Song, Y., Liu, Z., Meng, Q., et al., 2017. Petrography and geochemistry characteristics of the lower Cretaceous Muling Formation from the Laoheishan Basin, Northeast China: implications for provenance and tectonic setting. Mineralogy and Petrology, 111: 383-397.
2. Song, Y., Liu, Z., Meng, Q., et al., 2016. Multiple controlling factors of the enrichment of organic matter in the upper cretaceous oil shale sequences of the Songliao Basin, NE China: Implications from geochemical analyses. Oil Shale, 33, 142–166.
1. Song, Y., Liu, Z., Meng, Q., et al., 2015. The geochemical characteristics and its implication of organic matter enrichment conditions in the Upper Cretaceous oil shale sequences of the Songliao Basin (NE China). Acta Geologica Sinica (English Edition), 89: 268–269.
三、学术会议
10.宋宇.古盐度对咸化湖盆烃源岩生物群落结构、古环境和生烃潜力的影响.第十八届全国有机地球化学学术会议,长沙,2023年9月22-25日.(分会场主题报告)
9.宋宇.海侵事件对湖相烃源岩发育与生烃影响:以南黄海盆地古近系阜宁组为例.第六届非常规油气地质评价暨新能源学术研讨会,武汉,2021年7月9-12日.(口头报告,优秀青年报告论文)
8.胡守志,宋宇.南黄海盆地南部坳陷-苏北盆地阜宁组原油地化特征对比及启示.第十七届全国有机地球化学学术会议,福州,2019年12月14-16日.(分会场主题报告)
7.宋宇,胡守志,李水福.海侵对南黄海盆地阜宁组咸水湖相烃源岩形成影响——来自古生物和有机地球化学的证据.第十七届全国有机地球化学学术会议,福州,2019年12月14-16日.(会议展板)
6. Song, Y., Li, S., Hu, S., Ruan, X. Heterogeneity and its controlling factors of lacustrine organic-rich shale in the Oligocene Biyang Depression, East China. 29th International Meeting on Organic Geochemistry, Gothenburg, Sweden, 1-6 Sep. 2019. (Poster)
5. 宋宇,刘招君. 老黑山盆地下白垩统油页岩与煤发育控制因素. 第五届非常规油气地质评价学术研讨会,成都,2018年10月29-31日. (会议展板)
4. 宋宇,刘招君. 老黑山盆地下白垩统油页岩与煤的地球化学特征及指示意义. 第十六届全国有机地球化学学术会议,重庆,2017年9月25-27日. (口头报告)
3. Bechtel, A., Song, Y., Gross, D., Liu, Z., Sachsenhofer, R. F., Meng, Q. Oil from plants in China? -Resinous organic matter in the Lower Cretaceous of the Laoheishan Basin. 28th International Meeting on Organic Geochemistry, Florence, Italy, 17-22 Sep. 2017. (Poster)
2. 宋宇,刘招君,孟庆涛,徐进军. 松辽盆地北部上白垩统含油页岩系地球化学特征及有机质富集模式. 第三届非常规油气成藏与勘探评价学术讨论会,青岛,2015年6月27-30日. (口头报告,优秀青年报告论文)
1. 宋宇,刘招君. 桦甸盆地古近系桦甸组油页岩特征及成矿机制. 第五届全国应用地球化学学术会议,长春,2014年10月13-14日. (口头报告)
四、科研项目
17. 涠西南凹陷页岩油资源潜力分级评价,中国海油湛江分公司,2023-2024;
16. 河套盆地油气成藏机理及富集规律,中国石油天然气股份有限公司华北油田分公司,2023-2024;
15. 油气勘探基础地质与关键技术数智展示研究,中国石油天然气股份有限公司大港油田分公司,2022-2023;
14. 柴达木及走廊地区有效烃源岩生烃潜力评价,中国石油化工股份有限公司胜利油田分公司,2022-2023;
13. 大港探区沙四段地层分布研究与区带优选,中国石油天然气股份有限公司大港油田分公司,2022-2023;
12.二连盆地重点洼槽区油气成藏机制与成藏模式研究,中国石油天然气股份有限公司华北油田分公司,2020-2022;
11.咸化湖盆烃源岩生物群落结构重建及其与古生产力的定量关系研究:以泌阳凹陷核桃园组为例,国家自然科学基金,2020-2022;
10. 咸化湖盆烃源岩群落结构特征及其与页岩油富集的关系研究,东北石油大学陆相页岩油气成藏及高效开发教育部重点实验室开放课题,2019-2020;
9. 泌阳凹陷古近系核桃园组油页岩特征与形成机理,吉林省油页岩与共生能源矿产重点实验室自主基金,2018-2022;
8. 陆相盆地油页岩与煤成矿机制的精细研究,中央高校基本科研业务费专项资金杰出人才培育基金,2017-2020;
7. 东非裂谷盆地重点区带油气成藏综合研究,国家科技重大专项子课题,2017-2020;
6. 歧口中部滩海区中浅层系油气成藏与聚集规律研究,中国石油天然气股份有限公司大港油田分公司,2018-2020;
5. 老黑山盆地下白垩统穆棱组油页岩与煤共生聚积的成矿机制与模式研究,中国地质大学构造与油气资源教育部重点实验室开放研究基金,2018-2019;
4. 南黄海盆地潜在富烃凹陷优选与有利勘探方向预测,国家科技重大专项子课题,2016-2019;
3. 松辽盆地及外围油页岩资源潜力评价,中国地质调查局油气资源调查中心,2014-2017;
2. 松辽盆地松北含矿区油页岩富集规律研究,中国地质调查局油气资源调查中心,2012-2015;
1. 延边西部地区石油地质条件战略调查,全国油气资源战略选区调查与评价项目(第二批),2009-2013。
教育经历
[1] 2012.9-2017.6
吉林大学 | 矿产普查与勘探 | 工学博士学位 | 博士研究生毕业
[2] 2016.1-2016.9
Montanuniversitaet Leoben | 石油地质 博士生联合培养
[3] 2008.9-2012.6
吉林大学 | 资源勘查工程 | 工学学士学位 | 大学本科
工作经历
[1] 2017.10-至今
中国地质大学(武汉)资源学院
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石油地质系
社会兼职
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[1] Frontiers in Earth Science Guest Editor
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[2] 2023.1-2025.12
东北石油大学学报青年编委 -
[3] 2022.10-2025.10
石油实验地质青年编委 -
[4] 2019.9-至今
EAOG会员 -
[5] AAPG Bulletin, International Journal of Coal Geology, Organic Geochemistry, Energy & Fuel, Marine and Petroleum Geology, Geological Journal,地质学报,地球科学等期刊审稿人
研究方向
[1] 页岩发育古环境与有机质富集
[2] 页岩油成藏机理
[3] 油气资源潜力评价
[4] 油页岩与煤共生成矿机制
联系方式
[1] 邮编:
[2] 传真:
[3] 办公室电话:
[4] 移动电话:
[5] 邮箱: