高级专业技术职务
首页 > 科技人才 > 高级专业技术职务 > 副研究员/高级工程师
沈卫兵
沈卫兵 男,副研究员
研究方向:深时表层环境演化与深地化石能源勘查
Add:北京市西城区阜外百万庄大街26号地质研究所,100037
Tel: 15117973405 E-mail:swb560316@126.com/928625225@qq.com
自我介绍:
以地球系统科学思想为指导,以地球表层环境演化为核心,开展深时环境演化基础科学研究,并应用于油气系统,指导深地化石能源勘探生产实践。近年来负责或参加科研项目10余项,包括主持国家重点研发项目子课题、国家自然科学基金项目等,围绕深时地球表层环境演化及其化石能源效应方面形成3个创新成果,入选“中国地质调查局 2022 年度地质科技十大进展”、“中国地质学会2022 年度地质科技重要进展”,以第一或通讯作者发表论文20余篇,包括Geology等SCI论文15篇。
个人经历:
工作经历:
2022年12月- 中国地质科学院地质研究所,副研究员
2016年09月-2022年11月 中国地质科学院地质研究所,助理研究员
教育经历:
2013/09-2016/07 中国石油大学(北京),地质资源与地质工程,工学博士
2010/09-2013/07 中国石油大学(北京),矿产普查与勘探,工学硕士
2006/09-2010/07 长江大学,资源勘查工程,工学学士
承担项目:
(1)国家重点研发项目子课题,“中元古代地球系统演变和化石能源形成”之“中元古代关键转折期古海洋氧化还原状态演化及生命营养元素循环”,2022.11-2027.11,主持
(2)国家自然科学基青年项目,扬子陆块南华纪南沱冰期沉积地层的黄铁矿地球化学研究,2018.01-2020.12,主持
(3)中央级公益性科研业务专项,华南南华纪间冰期古海洋氧化还原环境演化及其地质意义,2020-09 至 2021-12,主持
(4)中央级公益性科研业务专项,华南南华系南沱冰期地层划分对比研究,2017.01 -2019.12,主持
(5)国家自然科学基金联合基金项目,前寒武纪铁锰巨量沉积富集机制及其对地球表生系统演化的响应,2023.01-2026.12,参与
(6)地质调查项目,冀东与峡东等地区中新元古代地球表生系统基础地质调查,2019.01 -2021.12,参与
(7)国家自然科学基金面上项目,洋壳物质再循环与稀土成矿作用,2018.01-2021.12,参与
(8)油田生产科技项目,塔里木盆地台盆区碳酸盐岩复杂油气藏成因机制与分布预测,2013.06-2016.12,参与
(9)国家“973”基础研究计划,中国西部叠合盆地深部油气复合成藏机制与富集规律,2011.01-2015.12,参与
获奖及荣誉:
成果入选“中国地质调查局 2022 年度地质科技十大进展”(R2)、 “中国地质学会2022 年度地质科技重要进展”(R2)。
代表性论著:
对新元古代-寒武系转折期地球表层环境演化及化石能源分布进行了一系列研究:(1)甄别出新元古代冰期地层中的冰进-冰退沉积旋回,建立了新元古代冰期裂谷盆地快速充填向非冰期坳陷盆地填平补齐发展的沉积-构造演化格局;(2)首次完整重建了冰期海洋的氧化还原状态演化,建立了新元古代冰期缺氧还原向非冰期贫氧氧化发展的化学环境演化模型;(3)揭示了非冰期烃源岩分布发育与表层环境演化的关联机制,提出了表层环境演变控烃作用下的深部油气成藏模式,明确了新元古代-寒武系转折期地球表层环境演化的化石能源效应。
(1)Weibing Shen, Xiangkun Zhu, Bin Yan, et al., 2022. Secular variation in seawater redox state during the Marinoan Snowball Earth event and implications for eukaryotic evolution. Geology, 50(11), 1239-1244.
(2)Weibing Shen, Xiangkun Zhu, Hongzhe Xie, et al., 2022. Tectonic–sedimentary evolution during initiation of the Tarim Basin: Insights from late Neoproterozoic sedimentary records in the NW basin, Precambrian Research, 371.
(3)Weibing Shen, Xiangkun Zhu, Jin Li, et al., 2022.Mechanism of organic matter accumulation in black shale of the Datangpo Formation: Insights from paleo-environmental variation during the Cryogenian non-glaciation. Precambrian Research, 383.
(4)Weibing Shen, Jianfa Chen, Yangyang Wang, et al., 2019. The origin, migration and accumulation of the Ordovician gas in the Tazhong III region, Tarim Basin, NW China. Marine and Petroleum Geology, 101, 55–77.
(5)Weibing Shen, Xiongqi Pang, Jianfa Chen, et al., 2018. Ordovician Hydrocarbon Migration along the Tazhong No. 10 Fault Belt in the Tazhong Uplift, Tarim Basin, Northwest China. Energy & Fuels, 32, 1474−1490.
(6)Weibing Shen, Xiangkun Zhu, Bin Yan, et al., 2021. Sequence stratigraphy of the Cryogenian Nantuo Formation in South China: Constraints on Marinoan glaciation dynamics. Journal of Asian Earth Sciences, 214, 104776.
(7)Weibing Shen, Yangyang Wang, Ziyu Zheng, et al., 2022. Paleo-environmental variation and its control on the organic matter accumulation in black shale of the Permian Gufeng Formation in the Lower Yangtze area, South China. Frontiers in Earth Science, 221.
(8)W.B. Shen, X.Q. Pang, Y.Y. Wang, et al., 2015. Predicting potential exploration targets based on key factors controlling hydrocarbon accumulation—a case study from the Lower Ordovician Yingshan Formation in the Tazhong area, Tarim Basin, NW China, Australian Journal of Earth Science, 62(4), 493-511.
(9)Bin Yan, Weibing Shen, Nina Zhao, et al., 2020. Constraints on the nature of the Marinoan glaciation: Cyclic sedimentary records from the Nantuo Formation, South China, Journal of Asian Earth Sciences, 189, 104137.
(10)Yangyang Wang, Jianfa Chen, Weibing Shen, et al., 2020. Anomalies of gas molecular and isotopic compositions of terrestrial mud volcanoes caused by post-genetic processes. Journal of Petroleum Science and Engineering, 196, 107698.
(11)Y.Y. Wang, X.Q. W.B. Shen, et al., 2021. Element enrichment/depletion during faulting in shale-rich surface exposures of the 2008 Wenchuan earthquake (Mw 7.9) and implications for coseismic temperature. Australian Journal of Earth Sciences, 68, 731-745
(12)Yangyang Wang, Jianfa Chen, Weibing Shen, et al., 2022. Coseismic fluid–rock interactions in the Yingxiu–Beichuan surface rupture zone of the Mw 7.9 Wenchuan earthquake and their implications for the structural diagenesis of fault rocks. Journal of Structural Geology. 159, 104603.
(13)Yangyang Wang, Jianfa Chen, Weibing Shen, et al., 2019. Analysis of Ordovician hydrocarbon migration in the Halahatang area, Tarim Basin, NW China. Carbonates and Evaporites, 34, 1055–1075.
(14)Yangyang Wang, Jianfa Chen, Weibing Shen, et al., 2022. Mechanism of organic matter accumulation in black shales of the Yuertusi Formation in the Tarim Basin: Insights from paleo-environmental variation during the Early Cambrian. Frontiers in Earth Science, 10. doi: 10.3389/feart.2022.879658
(15)Yangyang Wang, Sijia Li, Weibing Shen. Comparative mineralogical and geochemical compositions within the fault gouge in the surface exposures of the Mw 7.9 Wenchuan earthquake fault and their implications for mass removal and fluid–rock interactions. Journal of Earth Science. https://kns.cnki.net/kcms/detail/42.1788.P.20211101.2004.006.html
(16)沈卫兵*, 庞雄奇, 陈践发. 塔里木盆地塔中 II 区奥陶系油气差异性分布及其主控因素分析. 地质论评, 2018, 64(4): 913-926.
(17)沈卫兵*, 陈践发, 罗广平. 塔中隆起奥陶系储层与油源断裂复合控藏模式.西南石油大学学报(自然科学版), 2018,40(5):71-83.
(18)沈卫兵*, 庞雄奇, 陈践发, 等. 塔里木盆地深部油气藏类型与分布特征.高校地质学报, 2017,23(2):324-336.
(19)沈卫兵, 庞雄奇*, 陈践发, 等. 含油气盆地深层碳酸盐岩近源-优相-低势复合富油气模式与有利目标预测评价方法-以塔里木盆地塔中地区鹰山组碳酸盐岩为例. 石油学报, 2015, 12: 121-129.
(20)沈卫兵, 庞雄奇*, 张宝收, 等. 塔中地区碳酸盐岩与碎屑岩储层物性差异及主控因素. 高校地质学报, 2015, 21(1): 138-146.
社会兼职及学术机构任职:
长期受邀评审Marine and Petroleum Geology、Journal of Asian Earth Sciences、Terra Nova等国内外期刊文章。