Name: Qingfeng Meng
Academic title: Professor
Research Area:
Geological Resource and Geological Engineering
Email: meng.qingfeng@upc.edu.cn
Research Interests:
Fluid migration pathways and fluid overpressure mechanisms in sedimentary basins;
Quantitative characterization and modeling of fractured reservoirs;
Structural diagenesis and mechanical stratigraphy
Courses Offered:Petroleum Geology; Progress in Geological Resource and Engineering
Scholarly Activities
-Publications:
[1].Meng, Q., Hao, F., 2024. Penecontemporaneous polygonal faulting triggered by sand overloading onto unconsolidated clays: evidence from the northern South China Sea. Basin Research, http://doi.org/10.1111/bre.12853.
[2].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, 107(11): 1971-1985.
[3].Meng, Q., Hao, F., 2022. Overburden deformation induced by active diapirism: discrete element numerical simulations. Basin Research, https://doi.org/10.1111/bre.12730.
[4].Meng, Q., Hao, F., Tian, J., 2021. Origins of non-tectonic fractures in shale. Earth-Science Reviews 222: 103825.
[5].Meng, Q., Hodgetts, D. 2020. Mechanical control on patterns of overburden deformation induced by dyke-fed sandstone intrusions: insights from numerical experiments. Tectonophysics 777: 228351.
[6].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. Tectonophysics 757: 58-67.
[7].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 Geology 127: 103862.
[8].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 Geology 126: 25-36.
[9].Meng, Q., Hooker, J., Cartwright, J. 2018. Displacive widening of calcite veins in shale: insights into the force of crystallization. Journal of Sedimentary Research 88: 327-343.
[10].Meng, Q., Hooker, J., Cartwright, J. 2017. Genesis of natural hydraulic fractures as an indicator of basin inversion. Journal of Structural Geology 102: 1-20.
[11].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 Society 174: 869-882.
-Research Project:
[1].Hydrocarbon Reservoir Formation and Enrichment Mechanism in the South China Sea (The Laoshan Laboratory)
[2].National Talent Programof China
[3].Reservoir Formation and Enrichment Mechanism in the Deep Strata of the Yinggehai Basin (CNOOC)
Other websites:
https://orcid.org/0000-0002-6054-6203
