师资

李炜怡
研究副教授
liwy3@sustech.edu.cn

李炜怡,中国清华大学硕士(化学工程),美国辛辛那提大学博士(化学工程),在新加坡南洋理工大学南洋水处理研究所(NEWRI)的新加坡膜技术中心(SMTC)工作7年。主要研究方向为膜分离技术,并在研发以膜分离技术为基础的高效水处理技术方向积累了丰富的经验;具体研究课题包括应用实验(光学相干断层成像仪Optical Coherence Tomography,OCT等)和数值模型(基于网格的模拟Network-Based Modeling等)手段探索在膜分离过程中极为复杂的耦合传递现象,进而优化分离膜的性能(例如,抗膜污染的微孔结构等)、开发新型分离膜和膜分离应用。其研究成果已发表在Journal of Membrane Science、Water Research、Environmental Science & Technology、Applied Energy、Desalination、AIChE Journal等国际著名权威期刊上,并主持(共同主持)或参与了多项美国和新加坡的政府研究项目。

 

目前任职
南方科技大学环境科学与工程学院,研究副教授

 

教育背景
2004/09-2009/12:美国辛辛那提大学,化学工程,博士
2000/09-2003/07:中国清华大学,化学工程,硕士
1996/09-2000/07:中国天津大学,化学工程,学士

 

以往工作经历
2010/01-2017/06:新加坡南洋理工大学新加坡膜技术中心,博士后
2004/09-2009/12:美国辛辛那提大学化学工程系,研究和教学助理
2003/09-2004/07:中国清华大学化学工程系,研究助理

 

研究领域
1)新型膜分离过程表征技术
2)膜分离过程模拟和优化
3)新型分离膜材料和制备技术开发
4)分离膜组件设计和优化
5)膜分离在海水淡化、污水处理、生物医药等领域的综合应用

 

发表论著
1. Y. Wang, W. Li, R. Wang, C. Y. Tang, Enhancing Boron Rejection in FO Using Alkaline Draw Solutions, , Water Research, 118(2017) 20-25.
2. Y. Wang, R. Wang, W. Li, C. Y. Tang, Whey Protein Recovery Using Forward Osmosis - Evaluating the Factors Limiting the Flux Performance, J. of Membrane Science, 533(2017) 179-189.
3. Q. Han, W. Li (co-corresponding author), T. T. Trinh, X. Liu, J. W. Chew, A Network-Based Approach to Interpreting Pore Blockage and Cake Filtration During Membrane Fouling, J. of Membrane Science, 528(2017) 112-125.
4. X. Liu, W. Li (co-corresponding author), T. H. Chong, A. G. Fane, Effects of Spacer Orientations on the Cake Formation During Membrane Fouling: Quantitative Analysis Based on 3D OCT Imaging, Water Research, 110(2017) 1-14.
5. W. Li (corresponding author), X. Liu, Y. Wang, T. H. Chong, C. Y. Tang, A. G. Fane, Analyzing the Evolution of Membrane Fouling via a Novel Method Based on 3D Optical Coherence Tomography Imaging, Environmental Science & Technology, 50(2016) 6930-6939.
6. W. Li, K. K. Chen, Y. Wang, W. B. Krantz, A. G. Fane, C. Y. Tang, A Conceptual Design of Spacers with Hairy Structures for Membrane Filtration, J. of Membrane Science, 510(2016) 314-325.
7. S. Qi, Y. Li, Y. Zhao, W. Li, C. Y. Tang, Highly Efficient Forward Osmosis Based on Porous Membranes: Applications and Implications, Environmental Science & Technology, 49(2015) 4690-4695.
8. Y. Gao, S. Haavisto, W. Li (corresponding author), C. Y. Tang, J. Salmela, A. G. Fane, Novel Approach to Characterizing the Growth of a Fouling Layer during Membrane Filtration via Optical Coherence Tomography, Environmental Science & Technology, 48(2014) 14273-14281.
9. Y. Gao, Y. Wang, W. Li, C. Y. Tang, Characterization of the External and Internal Concentration Polarizations during Forward Osmosis, Desalination, 338(2014) 65-73.
10. Y. Gao, S. Haavisto, C. Y. Tang, J. Salmela, W. Li (corresponding author), Characterization of Fluid Dynamics in Spacer-filled Channels for Membrane Filtrations Using Doppler Optical Coherence Tomography, J. of Membrane Science, 448(2013) 198-208.
11. W. Li, W. B. Krantz, E. R. Cornelissen, J. W. Post, A. R. D. Verliefde, C. Y. Tang, A Novel Hybrid Process of Reverse Electrodialysis and Reverse Osmosis for Low Energy Seawater Desalination and Brine Management, Applied Energy, 104(2013) 592-602.
12. Y. Gao, W. Li, W. C. L. Lay, H. G. L. Coster, A. G. Fane, C. Y. Tang, Characterization of Forward Osmosis Membranes by Electrochemical Impedance Spectroscopy, Desalination, 312(2013) 45-51.
13. S. Qi, W. Li, N. Ma, Y. Zhao, J. Wei, W. Ting, C. Y. Tang, Influence of Polyelectrolyte Layers and Draw Solutes on the Performance of Layer-by-Layer FO Membranes, J. of Membrane Science, 423-424(2012) 536-542.
14. D. Xiao, W. Li (co-first author), S. R. Chou, R. Wang, C. Y. Tang, A Modeling Investigation on Optimizing the Design of Forward Osmosis Hollow Fiber Modules, J. of Membrane Science, 392(2012) 76-87.
15. W. Li, Y. Gao, C. Y. Tang, Network Modeling for Studying the Effect of Support Structure on Internal Concentration Polarization During Forward Osmosis: Model Development and Theoretical Analysis, J. of Membrane Science, 379(2011) 307-321.
16. W. Li, C. Duclos-Orsello, C. C. Ho, Theoretical Analysis of the Effects of Asymmetric Membrane Structure on Fouling During Microfiltration, AIChE Journal, 55(2009) 1434-1446.
17. C. Duclos-Orsello, W. Li, C. C. Ho, A Three Mechanism Model to Describe Fouling of Microfiltration Membranes, J. of Membrane Science, 280(2006) 856-866.
18. W. Li, J. Li, T. Chen, D. Wang, Z. Zhao, C. Chen, Study on Nanofiltration for Purifying Fructo-oligosaccharides: Process Simulation and Optimization, WMSCI 2005, 10(2005) 509-514.
19. W. Li (corresponding author), J. Li, T. Chen, Z. Zhao, C. Chen, Study on Nanofiltration for Purifying Fructo-oligosaccharides II. Extended Pore Model, J. of Membrane Science, 258(2005) 8-15.
20. W. Li, J. Li, T. Chen, C. Chen, Study on Nanofiltration for Purifying Fructo-oligosaccharides I. Operation Modes, J. of Membrane Science, 245(2004) 123-129.
21. W. Li, J. Li, C. Chen, T. Chen, Experimental Study on Nanofiltration for Purifying FOS and Diafiltration mode, Membrane Science and Technology (P.R. China), 24(2004) 6-10.