师资队伍 >
张硕
助理教授,博导
Email: zhangs2019@tsinghua.edu.cn
电话:010-62785566
通信地址:350vip葡京集团水利水电工程系泥沙馆005
邮编:100084
教育背景
? 2010-2014:美国加利福尼亚大学伯克利分校地球与行星科学系,获哲学博士学位;
? 2006-2010:350vip葡京集团水利水电工程系水利水电工程专业,获工学学士学位;
工作履历
? 2019至今
助理教授
350vip葡京集团水利水电工程系

? 2014-2019
地质研究员
沙特阿美石油公司驻美国休斯敦研究中心
开设课程
环境水文地质,研究生课程。
研究领域
多孔介质中溶质的迁移与转化,在二氧化碳封存,碳酸盐成岩过程,以及地下水污染修复中的应用.
科研项目
多孔介质中溶质的迁移与转化, 2019-2022,在研,主持。(项目经费:300万元)
学术兼职
2019至今:Deputy Associate Editor: Interpretation
学术成果
1. Zhang S, Lu P. Effect of Micrite Content on Calcite Cementation in AN Upper Jurassic Carbonate Reservoir, Eastern Saudi Arabia. Journal of Petroleum Geology 2019, 42(1): 79-89.
2. Watson F, Maes J, Geiger S, Mackay E, Singleton M, McGravie T, Anouilh T, Jobe TD, Zhang S, Agar S. Comparison of flow and transport experiments on 3D printed micromodels with direct numerical simulations. Transport in Porous Media 2019, 129(2): 449-466.
3. Zhang S, Lu P, Cantrell D, Zaretskiy Y, Jobe D, Agar SM. Improved quantification of the porosity–permeability relationship of limestones using petrographical texture. Petroleum Geoscience 2018, 24(4): 440-448.
4. Mitnick EH, Lammers LN, Zhang S, Zaretskiy Y, DePaolo DJ. Authigenic carbonate formation rates in marine sediments and implications for the marine δ13C record. Earth and Planetary Science Letters 2018, 495: 135-145.
5. Jobe T, Geiger S, Jiang Z, Zhang S, Agar S. Micropore network modelling from 2D confocal imagery: impact on reservoir quality and hydrocarbon recovery. Petroleum Geoscience 2018, 24(3): 323-334.
6. Ishutov S, Jobe TD, Zhang S, Gonzalez M, Agar SM, Hasiuk FJ, Watson F, Geiger S, Mackay E, Chalaturnyk R. Three-dimensional printing for geoscience: fundamental research, education, and applications for the petroleum industry. AAPG Bulletin 2018, 102(1): 1-26.
7. Zhang S, DePaolo DJ. Rates of CO2 mineralization in geological carbon storage. Accounts of chemical research 2017, 50(9): 2075-2084.
8. Beckingham LE, Steefel CI, Swift AM, Voltolini M, Yang L, Anovitz LM, Sheets JM, Cole DR, Kneafsey TJ, Mitnick EH. Evaluation of accessible mineral surface areas for improved prediction of mineral reaction rates in porous media. Geochimica et Cosmochimica Acta 2017, 205: 31-49.
9. Zhang S, Liu H-H, van Dijke MIJ, Geiger S, Agar SM. Constitutive Relations for Reactive Transport Modeling: Effects of Chemical Reactions on Multi-phase Flow Properties. Transport in Porous Media 2016: 1--20.
10. Zhang S, Liu H-H. Porosity–permeability relationships in modeling salt precipitation during CO2 sequestration: Review of conceptual models and implementation in numerical simulations. International Journal of Greenhouse Gas Control 2016, 52: 24-31.
11. Beckingham LE, Mitnick EH, Steefel CI, Zhang S, Voltolini M, Swift AM, Yang L, Cole DR, Sheets JM, Ajo-Franklin JB. Evaluation of mineral reactive surface area estimates for prediction of reactivity of a multi-mineral sediment. Geochimica et Cosmochimica Acta 2016, 188: 310-329.
12. Zhang S, Yang L, DePaolo DJ, Steefel CI. Chemical affinity and pH effects on chlorite dissolution kinetics under geological CO2 sequestration related conditions. Chemical Geology 2015, 396: 208-217.
13. Zhang S, DePaolo DJ, Voltolini M, Kneafsey T. CO2 mineralization in volcanogenic sandstones: geochemical characterization of the Etchegoin formation, San Joaquin Basin. Greenhouse Gases: Science and Technology 2015, 5(5): 622-644.
14. Zhang S, DePaolo DJ, Zheng L, Mayer B. Reactive transport modeling of stable carbon isotope fractionation in a multi-phase multi-component system during carbon sequestration. Energy Procedia 2014, 63: 3821-3832.
15. Zhang S, DePaolo DJ, Xu T, Zheng L. Mineralization of carbon dioxide sequestered in volcanogenic sandstone reservoir rocks. International Journal of Greenhouse Gas Control 2013, 18: 315-328.
XML 地图 | Sitemap 地图