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特聘研究员、博士生导师
电子邮箱:hangdeng@pku.edu.cn
教育经历:
2009/09–2015/06 博士 普林斯顿大学,环境工程系
2005/09–2009/07 学士 33678新甫京国际品牌,环境学院,中国经济研究中心(双学位)
工作经历:
2022/01 – 至今 特聘研究员 33678新甫京国际品牌,33678新甫京国际品牌能源与资源工程系
2018/03 – 2022/01 研究员 美国劳伦斯伯克利国家实验室,能源地学部
2015/07 – 2018/03 博后 美国劳伦斯伯克利国家实验室,能源地学部
研究领域:
我们主要从事地下环境(即复杂裂隙多孔介质)演化的研究。通过建立、运用先进的耦合实验系统、显微镜和光谱学技术、以及CFD模型和反应溶质运移模型,深入研究裂隙多孔介质中几何结构、渗流、溶质扩散与地球化学反应的相互作用与反馈机制这一基础科学问题。可持续的利用地下环境是实现能源安全和碳中和的重要战略需求,我们通过对裂隙、孔隙中渗流特征、物质运移及其演化机理的深入研究和准确预测,为相关的工程应用和政策决策提供了重要的科学基础。
我们研究的主要课题包括:
• 裂隙演变及其对多孔介质中渗流、地球化学反应、力学过程及性质的影响
• 矿物沉淀反应机理及对裂隙多孔介质物化性质的影响
• 多相流与(生物)地球化学反应的动态耦合
• 多物理场的尺度升级
• 二氧化碳地质封存、页岩开采、矿化封存等系统的技术经济评估
诚挚欢迎有兴趣和热情的本科生、研究生、博士后和研究助理加入我们。
学术兼职及服务:
• ES&T首届青年编委会成员(2021-2023)
• 美国地球物理学会年会水文部组委会成员(2018-2022),组委会主席(2021)
• 专刊编辑:
o Greenhouse Gases: Science & Technology: special issue “Negative Emission Technologies”, 2022-
o Frontiers in Water and Frontiers in Sustainability: research topic “Management of Unconventional Water Resources”, 2021-
o Applied Geochemistry: special issue “Applied geochemistry in porous media: Interplay of chemical reactions, physical alteration, and flow phenomena”, 2020-
o Environmental Engineering Science: special issue "Addressing Society’s Water and Energy Challenges with Reactive Transport Modeling", 2020
部分论文列表:

注:“*” 代表通讯作者

H. Deng*, H. Breunig, J. Apte, J., Y. Qin, An Early Career Perspective on the Opportunities and Challenges of Team Science, Environmental Science & Technology, 2022, https://doi.org/10.1021/acs.est.1c08322.

H. Deng*, J. Poonoosamy, S. Molins, A reactive transport modeling perspective on the dynamics of interface-coupled dissolution-precipitation, Applied Geochemistry, 2022, 137, 105207.

P. Li, H. Deng*, S. Molins, The Effect of Pore-Scale Two-Phase Flow on Mineral Reaction Rates, Frontiers in Water, 2022, https://doi.org/10.3389/frwa.2021.734518.

Q. Zhang, H. Deng*, Y. Dong*, S. Molins, X. Li, C.I. Steefel, Investigation of coupled processes in fractures and the bordering matrix via a micro-continuum reactive transport model, Water Resources Research, 2022, e2021WR030578.

H. Deng*, C. Tournassat, S. Molins, F. Claret, C.I. Steefel, A Pore‐Scale Investigation of Mineral Precipitation Driven Diffusivity Change at the Column‐Scale, Water Resources Research, 2021, doi: 10.1029/2020WR028483.

H. Deng*, A. Navarre-Sitchler, E. Heil, C. Peters, Addressing Water and Energy Challenges with Reactive Transport Modeling, Environmental Engineering Science, 2021, 38(3), pp 109-114.

H. Deng*, J. Fitts, T.V. Ryan, J.J. Kim, C.A. Peters, Acid erosion of carbonate fractures and accessibility of arsenic-bearing minerals: In Operando synchrotron-based microfluidics experiment, Environmental Science & Technology, 2020, 54(19), pp 12502–12510. 

H. Deng*, N. Spycher, Modeling Reactive Transport Processes in Fractures, Reviews in Mineralogy and Geochemistry, 2019, 85(1), pp 49-74.

H. Deng*, S. Molins, D. Trebotich, C.I. Steefel, D.J. DePaolo, Pore-scale numerical investigation of the impacts of surface roughness: upscaling of reaction rates in rough fractures, Geochimica et Cosmochimica Acta, 2018, 239, pp 374-389.

H. Deng*, C.I. Steefel, S. Molins, D.J. DePaolo. Fracture Evolution in Multimineral Systems: The Role of Mineral Composition, Flow Rate, and Fracture Aperture Heterogeneity. Earth and Space Chemistry, 2018, 22 (2), pp 112-124.

H. Deng*, M. Voltolini, S. Molins, C.I. Steefel, D.J. DePaolo, J. Ajo-Franklin, L. Yang. Alteration and Erosion of Rock Matrix Bordering a Carbonate-Rich Shale Fracture. Environmental Science & Technology, 2017, 51 (15), pp 8861–8868.

H. Deng*, J.M. Bielicki, M. Oppenheimer, J.P. Fitts, C.A. Peters. Leakage Risks of Geologic CO2 Storage and the Impacts on the Global Energy System and Climate Change Mitigation. Climatic Change, 2017, 144 (2), pp 151-163.

H. Deng*, S. Molins, C.I. Steefel, D.J. DePaolo, M. Voltolini, L. Yang, J. Ajo-Franklin. A 2.5D Reactive Transport Model for Fracture Alteration Simulation. Environmental Science & Technology, 2016, 50 (14), pp 7564-7571.

H. Deng, J.P. Fitts, D. Crandall, D. McIntyre, C.A. Peters*. Alterations of Fractures in Carbonate Rocks by CO2-acidified Brines. Environmental Science & Technology, 2015, 49(16), pp 10226-10234.

H. Deng, B.R. Ellis, C.A. Peters*, J.P. Fitts, D. Crandall, G.S. Bromhal, Modifications of Carbonate Fracture Hydrodynamic Properties by CO2-acidified Brine Flow. Energy & Fuels, 2013, 27(8), pp 4221-4231.