»姓名:孟庆峰 |
»系属:资源系 |
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»学位:博士 |
»职称:教授 |
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»专业:地质资源与地质工程 |
»导师类别:博导 |
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»电子邮箱:meng.qingfeng@upc.edu.cn |
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»联系电话: |
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»通讯地址:山东省青岛市黄岛区长江西路66号 |
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»概况:课题组利用多方法、新技术、多学科交叉以解决深层及非常规油气藏勘探开发中亟待解决的理论及应用问题 |
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◎研究方向 (1)沉积盆地深层油气输导体系及超压机制 (2)致密储层天然裂缝定量描述及控藏模式 (3)力学地层学和构造成岩学的跨学科研究 ◎教育经历 2012-2017博士,牛津大学 2009-2012硕士,北京大学 2005-2009本科,中国石油大学(北京) ◎工作经历 2020-今 中国石油大学(华东),教授 2017-2019曼彻斯特大学,Research Associate ◎学术兼职 《Journal of Petroleum Geology》编委 《石油学报》青年编委 ◎主讲课程 现代油气成藏理论、油气地质与勘探课程设计、科技论文写作、资源勘查工程专业英语 ◎指导研究生及博士后 课题组提供丰富的科研机会和充足的补助,欢迎有志学子申报硕博士! 2022级:郭志烽、李涛、李华伟 2021级:杨白冰 ◎承担项目 南海深水深层油气成藏机理与富集规律,青岛海洋科学与技术国家实验室“十四五”重大项目,2022-2024,负责人 莺歌海盆地中深层大型天然气田成藏机理及成藏规律,中国海洋石油公司重大科技项目,2021-2023,负责人 陆相页岩天然裂缝定量表征及对可压裂性的影响,山东省创新团队及人才计划类项目,2021-2025,负责人 国家高层次海外人才项目,2020-2025,负责人 济阳坳陷页岩油储层四性研究,山东省重点研发计划,2021-2023,参与 ◎荣誉称号 国家高层次海外人才青年项目 ◎论文 Meng*, Q., Hao*, F., 2023. Control of grain size of brittle minerals on fracture development in shale under compression: insights from numerical experiments.AAPG Bulletin, accepted. Meng*, Q., Hao, F., 2022. Overburden deformation induced by active diapirism: discrete element numerical simulations.Basin Research, https://doi.org/10.1111/bre.12730. Meng*, Q.,Hao*, F., Tian, J., 2021.D.Origins of non-tectonic fractures in shale.Earth-Science Reviews222:103825. Meng*, Q., Hodgetts, D.2020.Mechanical control on patterns of overburden deformation induced by dyke-fed sandstone intrusions: insights from numerical experiments.Tectonophysics777: 228351. Meng*, Q., Hodgetts, D. 2020. Forced folding and fracturing induced by differential compaction during post-depositional inflation of sandbodies: insights from numerical modelling.Marine and Petroleum Geology112: 104052. Meng*. Q., Hodgetts, D. 2019. Combined control of décollement layer thickness and cover rock cohesion on structural styles and evolution of fold belts: a discrete element modelling study.Tectonophysics757: 58-67. Meng*, Q., Hodgetts, D. 2019. Structural styles and decoupling in stratigraphic sequences with double décollements during thin-skinned contractional tectonics: insights from numerical modelling.Journal of Structural Geology127: 103862. Meng*, Q., Hooker, J., Cartwright, J. 2019. Role of pressure dissolution in the formation of bedding-parallel calcite veins in an immature shale (Cretaceous, southern UK).Geological Magazine156: 918-934. Meng*, Q., Hooker, J., Cartwright, J. 2019. Progressive accretion of antitaxial crystal fibres: implications for the kinematics and dynamics of vein dilation.Journal of Structural Geology126:25-36. Meng*, Q., Hooker, J., Cartwright, J. 2018. Quantifying vein attributes in massive mudstones (Triassic, SW England): implications for progressive evolution of opening-mode fracture networks.Marine and Petroleum Geology98: 523-532. Meng*, Q., Hooker, J., Cartwright, J. 2018. Displacive widening of calcite veins in shale: insights into the force of crystallization.Journal of Sedimentary Research88:327-343. Meng*, Q., Hooker, J., Cartwright, J. 2018. Lithological control on fracture cementation in the Keuper Marl (Triassic), north Somerset, UK.Geological Magazine155:1761-1775. Meng*, Q., Hooker, J., Cartwright, J. 2017. Genesis of natural hydraulic fractures as an indicator of basin inversion.Journal of Structural Geology102: 1-20. Meng*, Q., Hooker, J., Cartwright, J. 2017. Early overpressuring in organic-rich shales during burial: evidence from fibrous calcite veins in the Lower Jurassic Shales-with-Beef Member in the Wessex Basin, UK.Journal of the Geological Society174: 869-882. |