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李振宇

作者:         发布日期:2023-02-15     浏览次数:

     

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李振宇,博士,教授,博士生导师。

中国海水淡化与水再利用学会青年专家委员会委员。

人力资源社会保障部高层次留学人才回国资助计划人选(2019)

Elsevier期刊《Case Studies in Chemical and Environmental Engineering》编委

SCIE期刊《Chiang Mai Journal of Science》编委

一、学习情况

学士安徽工程大学食品科学与工程系

硕士泰国宋卡王子大学工业生物技术系

博士泰国宋卡王子大学工业生物技术系

二、工作经历

2016年9月–至今:教授,西北农林科技大学食品科学与工程学院

2020年5月–至今:客座教授,泰国宋卡王子大学膜科学与技术研究中心

2016年9月–至今:副研究员(兼),美国哈佛大学肯尼迪政府学院

2015年9月– 2016年8月:博士后,美国哈佛大学肯尼迪政府学院

2012年9月– 2015年8月:研究科学家,沙特阿卜杜拉国王科技大学水除盐与再生研究中心

2009年9月– 2012年9月:联合博士后,沙特阿卜杜拉国王科技大学与新加坡国立大学全球合作项目

2008年4月– 2009年1月:研究助理,泰国宋卡王子大学农工业学院

1999年7月– 2002年10月:科员,安徽工程大学科技处

三、主要研究领域

1) 膜分离与纯化技术在食品工程、农产品加工及生物技术领域的应用

2) 先进膜技术在水处理领域的应用

3) 新型膜材料、膜组件和集成化膜过程研究

4) 水、能源和食品系统的关联性(Water-Energy-Food Nexus)与可持续发展研究

四、取得的研究成果和目前正在进行的科学研究工作情况

1. 研究项目情况

1) 2022年度陕西省重点研发计划《脱脂山羊乳正渗透非热高效浓缩研究》,2022-2024 (主持人)

2) 2019 年度科技部国家重点研发计划“政府间国际科技创新合作”重点专项《新型集成膜技术与食品-水-能源系统可持续发展研究》,2019-2022 (第一参与人)

3) Desalination Using Forward Osmosis-Reverse Osmosis Hybrid, 韩国GS E&C 公司资助项目,2010 – 2012(排名第二/总五人,项目技术负责人)

4) Hybrid Osmosis Process for Water Desalination and Reuse, 沙特阿卜杜拉国王科技大学Seed Fund项目,2013-2014(排名第二/总五人,项目技术负责人)

5) Renewable Energy-Driving Hydroponic System Using An Integrated Membrane-Biological Process for Sustainable Agriculture and Water Reuse in Arid Regions, 沙特阿卜杜拉国王科技大学与澳大利亚悉尼科技大学科学技术合作发展基金,2015-2016 (排名第三/总七人,项目管理人,Principal Project Manager)

2. 发表论文

1)Li, S.H., Meng, H.N., Wang, H.H., Vrouwenvelder, J.S., Li, Z.Y.* 2022. A sacrificial protective layer as fouling control strategy for nanofiltration in water treatment.  Water Research 219, 118554.

2)Zhangsun, H., Wang, Q.Z., Xu, Z.H., Wang, J., Wang, X.S., Zhao, Y.J., Zhang, H., Zhao, S., Li, L.H., Li, Z.Y.*, Wang Li. 2022. NiCu nanoalloy embedded in  N -doped porous carbon composite as superior electrochemical sensor for neonicotinoid determination.  Food Chemistry 384, 132607.

3)Zhao, S.Z., Li, S.H., Pei, J.F., Meng, H.N., Wang, H.H., Li, Z.Y.* 2022. Evaluation of hybrid pressure-driven and osmotically-driven membrane processes for non-thermal production of apple juice concentrate.  Innovative Food Science and Emerging Technologies 75, 102895.

4)Meng, X.M., Zhang, J.W., Wang, W.J., Gonzalez-Gil, G., Vrouwenvelder, J.S. and Li, Z.Y.* 2021. Effects of nano- and microplastics on kidney: Physicochemical properties, bioaccumulation, oxidative stress and immunoreaction.  Chemosphere, 288,132631.

5)Wang, H.H., Zhang, Y., Ren, S.P., Pei, J.F. and Li, Z.Y.* 2022. Athermal concentration of apple juice by forward osmosis: process performance and membrane fouling propensity.  Chemical Engineering Research and Design, 177,569-577.

6)赵淑真, 李思杭, 裴剑飞, 郭艳, 李振宇*. 正渗透浓缩对苹果浊汁品质的影响. [J] 西北农林科技大学学报(自然科学版), 2022, 50(3) 1-8.

7)Dong, M.N., Sun, X.Y., Bu, T., Zhang, H., Wang, J., He, L.H., Li, L.H., Li, Z.Y.* and Wang, L. 2021. 3D/2D TMSs/TiO2 nanofibers heterojunctions for photodynamic-photothermal and oxidase-like synergistic antibacterial therapy co-driven by VIS and NIR biowindows.   Composites Part B: Engineering, 230, 109498.

8)Li, S.H., Zhao, S.Z., Pei, J.F., Wang, H.H., Meng, H.N., Vrouwenvelder, J.S. and Li, Z.Y.* 2021. Stimuli-responsive lysozyme nanocapsule engineered microfiltration membranes with a dual-function of anti-adhesion and antibacterial for biofouling mitigation.  ACS Applied Materials and Interfaces 13, 32205-32216.

9)Pei, J.F., Gao, S.S., Sarp, S., Wang, H.H., Chen, X.N., Yu, J., Yue, T.L., Youravong, W., Li, Z.Y.* 2021. Emerging forward osmosis and membrane distillation for liquid food concentration: a review.   Comprehensive Reviews in Food Science and Food Safety , 20, 1910-1936.

10)Wang, H.H., Zhang, Y., Yang, D.B., Hou, L., Li, Z.Y.* and Wang, Y.Y. 2021. Fluorine-substituted regulation in two comparable isostructural Cd(II) coordination polymers: Enhanced fluorescence detection for tetracyclines in water.  Crystal Growth and Design, 21, 2488-2497 .

11) Delgado-Gallardo, J., Sullivan, G.L., Esteban, P., Wang, Z.Y., Arar, O., Li. Z.Y., Watson, T.M. and Sarp, S. 2021. From Sampling to Analysis: A Critical Review of Techniques Used in the Detection of Micro- and Nanoplastics in Aquatic Environments.  ACS EST Water, 1,4, 748-764.

12)Pei, J.F., Wang, W.J., Wang, Y.F., Wang, H.H., Bucs, S.S., Vrouwenvelder, J.S., Li, Z.Y.* 2021. Fate of polyphenols in forward osmosis.   Journal of Membrane Science  621, 118993.

13)Zhang, J.Y., Li, S.H., Wang, W.J., Pei, J.F., Zhang, J.W., Yue, T.L., Youravong, W., Li, Z.Y.* 2021. Bacteriocin assisted food functional membrane for simultaneous exclusion and inactivation of  Alicyclobacillus acidoterrestris in apple juice.  Journal of Membrane Science , 618, 118741.

14) Pei, J.F.,Pei, S.Y., Wang, W.J., Li, S.H., Youravong, W., Li, Z.Y.* 2020. Athermal forward osmosisprocess for the concentration of liquid egg white: Process performance and improved physicochemical property of protein.  Food Chemistry 312,126032.

15)Kim,Y., Li, S., Francis,L.,Li,Z.Y.,Linares,R.V.,Alsaadi,A.S., Abu-Ghdaib, M., Son, H.S., Amy, G.,Ghaffour,N. 2019. Osmotically and thermally isolated forward osmosis–membrane distillation (FO–MD) integrated module,  Environmental Science & Technology , 53, 3488-3498.

16)Li, Z.Y.*, Siddiqi, A., Diaz Anadon, L., and Narayanamurti, V. 2018. Towards sustainability in water-energy nexus: ocean energy for seawater desalination.  Renewable and Sustainable Energy Review 82, 3833-3847.

17) Li, Z.Y.*,Valladares, R., Bucs, S.S., Fortunato, L., Helix-Nielsen, C., Vrouwenvelder, J.S., Ghaffour, N.,Leiknes, T., andAmy, G. 2017. Aquaporin based biomimetic membrane in forward osmosis: chemical cleaning resistance and practical operation.  Desalination 420, 208-215.

18)Amy, G., Ghaffour, N., Li, Z.Y., Francis, L., Valladares Linares, R., Missimer, T., and Lattemann, S. 2017. Membrane-based seawater desalination: Present and future prospects.  Desalination  401, 16-21.

19)Valladares Linares, R., Li, Z.Y.*, Yangali-Quintanilla, V. Li, Q.Y., Vrouwenvelder, J.S., Ghaffour, N. and Amy, G. 2016. Hybrid SBR-FO system for wastewater treatment and reuse: Operation, fouling and cleaning.  Desalination 393, 31-38.

20)Sarp, S., Li, Z.Y., Saththasivam, J. 2016. Pressure retarded osmosis: past experiences, current developments and future prospects.  Desalination 389, 2-14.

21)Phuntsho, S., Kim, J.E., Johir, M.A.H., Hong, S., Li, Z.Y., Ghaffour, G., Leiknes, T. and Shon, H.K. 2016. Fertilizer drawn forward osmosis process: pilot-scale desalination of mine impaired water for fertigation.  Journal of Membrane Science 508, 22-31.

22)Valladares, R., Li, Z.Y.,Yangali-Quintanilla, V.,Ghaffour, N., Amy, G., Leiknes, T., Vrouwenvelder, J.S.2016. Life cycle cost of a hybrid forward osmosis-low pressure reverse osmosis system for seawater desalination and wastewater recovery.  Water Research 88, 225-234.

23)Livazovica, S., Li, Z.Y., Behzad, A.R., Peinemann, K.V., Nunes, S.P. 2015. Cellulose multilayer membranes manufacture with ionic liquid.  Journal of Membrane Science 490, 282-293.

24)Li, Z.Y.*, Valladares, R., Bucs, S.S., Aubry, C., Ghaffour, N., Amy, G., Vrouwenvelder, J.S. 2015.Calcium carbonate scaling in ammonia-carbon dioxide forward osmosis desalination.  Journal of Membrane Science 481, 36-43.

25)Valladares,R, Li, Z.Y.*, Sarp, S., Bucs, S.S., Amy, G., Vrouwenvelder, J.S. 2014.Forward osmosis niches in seawater desalination and wastewater reuse.  Water Research 66, 122-139.

26)Valladares, R., Li, Z.Y.*, Sarp, S., Park, Y.G.,Vrouwenvelder, J.S. and Amy, G. 2014. Boron rejection of a new generation forward osmosis membrane for seawater desalination.  Desalination and Water Treatment 1-7 .

27)Valladares R., Bucs, S. S., Li, Z.Y.,AbuGhdeeb, M. Amy, G. and Vrouwenvelder, J.S. 2014. Impact of spacer thickness on biofouling in forward osmosis.  Water Research 57, 223–233.

28)Li, Z.Y.*, Valladares, R., Yangali-Quintanilla, V., Muhannad, A.G., Zhan, T. and Amy, G. 2014. Osmotically driven membrane process for the management of urban runoff in coastal regions.  Water Research 48, 200–209.

29)Amy, G., Ghaffour, N., Ng, K.C. and Li, Z.Y. 2013. Advances in low energy desalination.  Water Environment Federation (WEF): Water Reuse and Desalination 4, 12–13.

30)Valladares, R., Li, Z.Y.*, Muhannad, A.G., Wei, C.H., Amy, G. and Vrouwenvelder, J.S. 2013. Water harvesting from municipal wastewater via osmotic gradient: an evaluation of process performance. Journal of Membrane Science 447, 50–56.

31)Valladares, R., Li, Z.Y.Yangali-Quintanilla, V., Li, Q. and Amy, G. 2013. Cleaning protocol for a FO membrane fouled in wastewater reuse.  Desalination and Water Treatment 51, 4821–4824.

32)Valladares, R, Yangali-Quintanilla, V., Li, Z.Y. and Amy, G. 2012. NOM and TEP fouling of a forward osmosis (FO) membrane: foulant identification and cleaning.  Journal of Membrane Science 421-422, 217–224.

33)Li, Z.Y., Yangali-Quintanilla, V., Valladares, R., Li, Q.Y. and Amy, G. 2012. Flux patterns and membrane fouling propensity during desalination of seawater by forward osmosis.  Water Research 46, 195–204.

34)Valladares, R., Yangali-Quintanilla, V., Li, Z.Y. and Amy, G. 2011. Rejection of micropollutants by clean and fouled forward osmosis membrane.  Water Research 45, 6737–6744.

35)Yangali-Quintanilla, V., Li, Z.Y., Valladares, R., Li, Q.Y. and Amy, G. 2011. Indirect desalination of Red Sea water with forward osmosis and low pressure reverse osmosis for water reuse.  Desalination 280, 160–166.

36)Laorko, A., Li, Z.Y., Tongchitpakdee, S. and Youravong, W. 2011. Effect of gas sparging on flux enhancement and phytochemical properties of clarified pineapple juice by microfiltration.  Separation and Purification Technology 80, 445–451.

37)Laorko, A., Li, Z.Y., Tongjitpakdee, S., Chantachum, S. and Youravong, W. 2010. Effect of membrane property and operating conditions on phytochemical properties and permeate flux during clarification of pineapple juice.  Journal of Food Engineering 100, 514–521.

38)Youravong, W., Li, Z.Y. and Laorko, A. 2010. Influence of gas sparging on clarification of pineapple wine by microfiltration.  Journal of Food Engineering 96, 427–432.

39)Li. Z.Y., Youravong, W. and H-Kittikun, A. 2010. Protein hydrolysis by protease isolated from tuna spleen by membrane filtration: a comparative study with commercial proteases. LWT-Food Science and Technology 43, 166–172.

40)Li. Z.Y., H-Kittikun, A. and Youravong, W. 2009. Purification of protease from pre-treated tuna spleen extract by ultrafiltration: an altered operational mode involving critical flux condition and diafiltration. Separation and Purification Technology 66, 368–374.

41)Laorko, A., Li, Z.Y., Youravong, W., Tongjitpakdee, S. and Chantachum, S. 2008. Cold sterilization of coconut water by membrane filtration: effects of membrane property and operation condition.  Applied Membrane Science and Technology . 7, 23–31.

42)Li, Z.Y., Youravong, W. and H-Kittikun, A. 2008. Removal of suspended particles from extract of tuna spleen by microfiltration: experimental evaluation of a low fouling condition.  Journal of Food Engineering 85, 309–315.

43)Li, Z.Y., H-Kittikun, A. and Youravong, W. 2008. Removal of suspended solids from tuna spleen extract by microfiltration: a batch process design and improvement.  Biochemical Engineering Journal 38, 226–233.

44)Li, Z.Y., H-Kittikun, A. and Youravong, W. 2008. Separation of protease from yellowfin tuna spleen extract by ultrafiltration: effect of hydrodynamics and gas sparging on critical and limiting flux and selectivity.  Journal of Membrane Science 311, 104–111.

45)Li, Z.Y., Youravong, W. and H-Kittikun, A. 2006. Separation of proteases from yellowfin tuna spleen by ultrafiltration.  Bioresource Technology 97, 2364–2370.

46)Li, Z.Y., Youravong, W. and H-Kittikun, A. 2006. Analysis of fouling mechanism during dead-end microfiltration of tuna spleen extract. 安徽工程大学学报. 21, 1–6.

3. 参编著作

1) Rodrigo Valladares Linares, Zhenyu Li, Menachem Elimelech, Gary Amy and Hans Vrouwenvelder. Recent Developments in Forward Osmosis Process. London: International Water Association (IWA) Publishing (国际水协会出版社). 2016. ISBN: 9781780408118

2) Li, Z.Y., Valladares,R, Sarp, S., and Amy, G. Chapter 9: Direct and indirect seawater desalination by forward osmosis.  In (Hilal, N. and Sarp, S.  eds. ) Membrane Based Salinity Gradient Processes for Water Treatment and Power Generation. Oxford: Elsevier Publishing (爱斯唯尔出版社). 2018. ISBN: 978-0-444-63961-5

3) Li, S.H., Li, Z.Y. Reverse osmosis and forward osmosis in integrated systems.  In (Angelo, B., Alfredo, C., Navin, K.R. eds) Current Trends and Future Developments on (Bio-) Membranes. Elsevier Publishing. Oxford: Elsevier Publishing (爱斯唯尔出版社). 2019. ISBN: 978-0-12-816777-9

4) Li, S., Li, Z.Y. Reverse osmosis and forward osmosis in desalination membrane systems.  In  (Angelo, B., Alfredo, C., Navin, K.R. eds) Current Trends and Future Developments on (Bio-) Membranes.Oxford: Elsevier Publishing (爱斯唯尔出版社). 2019. ISBN: 978-0-12-816777-9

4. 专利

1) Yangali-Quintanilla, V., Li, Z.Y., Valladares, R., and Amy, G. Apparatus, System, and Method for Forwar Osmosis in Water Reuse. US Patent 20,130,001,162.

2) Ghaffour, N., Lijo, F., Li, Z.Y., Valladares, R., Ahmad, S., Muhannad, A.G. and Amy, G. Osmotically and Thermally Isolated Forward Osmosis-Membrane Distillation (FO-MD) Integrated Module for Water Treatment Applications. WIPO Patent 2016/135701.

3) 李振宇,李思杭,赵淑真,裴剑飞(2021):一种基于可去除可再生表面涂层的膜污染防治方法。申请号:202110307837.0

4) 李振宇,李思杭 (2022) 一种无金属离子浸出的可响应释放型MIL-53修饰膜的制备方法和应用。申请号: 202210672989.5

五、联系方式

陕西杨凌西农路

西北农林科技大学食品科学与工程学院

邮编:712100

电话:029-87092827

E-mail: lizhenyu@nwafu.edu.cn

English website:

https://food.nwsuaf.edu.cn/english/faculties/professor/d7b24bd1da7b4535877928f9b05888a9.htm

https://www.belfercenter.org/person/zhenyu-li


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