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范典
研究助理教授
fand@sustech.edu.cn

基本概况:

范典,于2018年获美国德克萨斯理工大学石油工程专业博士学位。研究工作聚焦于复杂地下地质体中流体和微纳固体颗粒运移的多尺度理论和数值模拟。其研究旨在应用于页岩油气开采、二氧化碳地质封存、微纳塑料处理、油气藏开采过程的防砂,以及纳米环境示踪剂回收等环境地学领域。


工作经历:

2021.08-至今:南方科技大学,环境科学与工程学院,研究助理教授

2021.01-2021.04:伦敦大学学院,化学工程系,研究员

2018.06-2021.01:伦敦大学学院,化学工程系,博士后研究助理,导师:Alberto Striolo

2020.05-2020.12:伦敦大学学院,化学工程系,教学助理

2015.09-2018.05:德州理工大学,石油工程系,教学助理


教育背景:

2013.08-2018.05:德州理工大学,石油工程,博士  

2009.08-2013.06:成都理工大学,石油工程,学士                     

 

研究方向:

1. 多尺度多物理量建模

2. 流体和颗粒在多孔介质中的运移

3. 页岩油气渗流

4. 微纳塑料处理

5. 纳米环境示踪剂回收

 

科研项目:

1. 国家自然科学基金青年科学基金项目(42202136),“基于矿物颗粒物质力学的页岩储层介质变形及孔渗演化规律”,2023-2025,在研,主持

2. 欧盟地平线EU Horizon 2020 (No. 764810), Science 4 Clean Energy, 2017-2020,978万欧元,结题,参与

3. 欧盟地平线EU Horizon 2020 (No. 640979), ShaleXenvironmenT, 2015-2018,339万欧元,结题,参与


学术成果:

第一和/或通讯作者文章

1. Fan, D.*, Chapman, E., Khan, A., Iacoviello, F., Mikutis, G., Pini, R., and Striolo, A., 2022. Anomalous Transport of Colloids in Heterogeneous Porous Media: A Multi-Scale Statistical Theory. Journal of Colloid and Interface Science, 617: 94-105.

2. Fan, D.*, Pini, R. and Striolo, A. 2021. A Seemingly Universal Particle Kinetic Distribution in Porous Media. Applied Physics Letters, 119, 134101.

3. Fan, D.*, Ettehadtavakkol, A. and Wang, W., 2020. Apparent Liquid Permeability in Mixed-Wet Shale Permeable Media. Transport in Porous Media. 134: 651-677.

4. Fan, D.*, Phan, A. and Striolo, A., 2020. Accurate Permeability Prediction in Tight Gas Rocks via Lattice Boltzmann Simulations with an Improved Boundary Condition. Journal of Natural Gas Science and Engineering, 73, 103049.

5. Fan, D. and Ettehadtavakkol, A., 2017. Analytical Model of Gas Transport in Heterogeneous Hydraulically Fractured Organic-Rich Shale Media. Fuel. 207: 625-640.

6. Fan, D. and Ettehadtavakkol, A., 2017. Semi-Analytical Modeling of Shale Gas Flow through Fractal Induced Fracture Networks with Micro-Seismic Data. Fuel. 193: 444-459.

7. Fan, D. and Ettehadtavakkol, A., 2016. Transient Shale Gas Flow Model. Journal of Natural Gas Science & Engineering. 33: 1353-1363.

8. Wang, W., Fan, D.*, Sheng, G., Chen, Z. and Su, Y., 2019. A Review of Analytical and Semi-Analytical Fluid Flow Models for Ultra-Tight Hydrocarbon Reservoirs. Fuel. 256: 115737.

合作作者文章

1. Kali, R. F. S., Fan, D., Hazel, N., and Striolo, A. 2022. Techno-socio-economic analysis of geological carbon sequestration opportunities. Environmental Science: Advances, 1 (2), 138–155.

2. Pang, Y., Fan, D., and Chen, S., 2021. A Novel Approach to Predict Gas Flow in Entire Knudsen Number Regime through Nanochannels with Various Geometries. SPE Journal, 1-20.

3. Phan, A., Fan, D., Striolo, A., 2020. Fluid Transport through Heterogeneous Pore Matrices: Multiscale Simulation Approaches. Physics of Fluids, 32.10: 101301.

会议论文及学术报告

1. Fan, D., Chapman, E., Pini, R., and Striolo, A. Dispersion and Retention of Colloids in Saturated Sandstone from the Microscale to the Macroscale. 14th InterPore Annual Meeting, Abu Dhabi, UAE, May 30-June 2, 2022.

2. Fan, D. Multi-Scale Dynamics of Nanoparticles versus Solutes Transport in Porous Media. An invited speech at Imperial College London, London, UK, March 25, 2022.

3. Fan, D. A Seemingly Universal Particle Kinetic Distribution in Porous Media. Mathematics in (bio)Chemical Kinetics and Engineering, Shanghai, China, October 24-27, 2021.

4. Fan, D., Wang, W., Ettehadtavakkol, A. and Su, Y. Confinement Facilitates Wetting Liquid Slippage Through Mixed-wet and Heterogeneous Nanoporous Shale Rocks. Conference paper at Unconventional Resources Technology Conference, Denver, Colorado, USA, 22-24 July 2019.

5. Fan, D. Simulations of Colloidal Nanoparticle Flow Through Geological Porous Media. An invited speech at BP Research Centre, Sunbury-on-Thames, UK, 6 November 2019.

6. Fan, D., Phan, A. and Striolo, A. Accurate Lattice Boltzmann Simulations of Gas Permeability Through Nanoporous Media. UK Fluids Conference, Cambridge, UK, 27-29 August 2019.

7. Fan, D., Striolo, A. and Pini, R. Recovery of Molecular versus Particle Tracers in Porous Media. International Conference on Properties & Phase Equilibria for Product & Process Design, Vancouver, Canada, 12-16 May 2019.