|
博士 |
校聘 副教授 |
硕士生导师 |
研究方向: |
市政、农业废弃物资源化 |
电子邮箱: |
wenlei17@connect.hku.hk |
温 磊 |
招生专业: |
农业生物环境与能源工程、农田水土工程、市政工程 |
温磊,男,中共党员,博士。昆明理工大学高层次人才。2021年12月博士毕业于香港大学。曾参与香港特区政府TRS、GRF/RGC和ITF项目,主要研究方向为污泥处置及资源化、微生物发酵与膜工艺,以第一作者在水处理及工程类期刊JMS、ECM及STOTEN等发表学术论文4篇,均为中科院一区。现主持昆明理工大学高层次人才引进项目。 |
2010.09-2014.06 |
大连海事大学 |
环境工程 |
学士 |
2014.09-2016.06 |
复旦大学 |
环境工程 |
硕士 |
2016.10-2017.09 |
香港大学 |
市政工程 |
研究助理 |
2017.09-2021.12 |
香港大学 |
市政工程 |
博士 |
2022.01-2023.12 |
香港大学 |
市政工程 |
博士后 |
[1] Wen, L., Lin, L., Fan, Y.Y., Luo, Y., Ma, S.S., Zhou, Y., Yang, C., Shih, K.M., Li, X.Y.*, 2023. Valorization of thermally hydrolyzed sludge with clay for sintering of ceramic tiles. Sci. Total Environ. 232, 119647. (中科院一区, If= 10.753)
[2] Wen, L., Huang, X.W., Li, X.Y.*, 2022. Enhanced production of short-chain fatty acids from sludge by thermal hydrolysis and acidogenic fermentation for organic resource recovery. Sci. Total Environ. 828, 154389. (中科院一区, If= 10.753)
[3] Wen, L., Li, X.Y.*, 2021. Production of intracellular lipids from thermally hydrolyzed waste sludge by oleaginous yeast for energy and resource recovery. Energy Convers. Manag. 252, 115129. (中科院一区, If= 11.533)
[4] Wen, L., Peng, L.E., Li, X.Y.*, 2021. Contactless membrane distillation for effective ammonia recovery from waste sludge: A new configuration and mass transfer mechanism. J. Membr. Sci. 633, 119733. (中科院一区, If= 10.530)
[5] Yang, C., Wen, L., Li, Y.Y., Li, X.Y.*, 2022. Fabrication of SnO2-Sb reactive membrane electrodes for high-efficiency electrochemical inactivation of bacteria and viruses in water. Chem. Eng. J. 446, 137327. (中科院一区, If=16.744)
[6] Peng, L.E., Jiang, Y.C., Wen, L., Guo, H., Yang, Z., Tang, C. Y.*, 2021. Does interfacial vaporization of organic solvent affect the structure and separation properties of polyamide RO membranes? J. Membr. Sci. 625, 119173. (中科院一区, If= 10.530)
[7] Liang, J.J., Li, B., Wen, L., Li, R.H., Li, X.Y.*, 2021. Thermal hydrolysis of wastewater sludge followed by fungal fermentation for organic recovery and hyphae fiber production. Engineering. 7, 203-211. (中科院一区, If= 12.834)
[8] Li, R.H., Guo, X.C., Li., B., Lin, L., Li, P., Wen, L., Liang, J.J., Li, X.Y.*, 2021. Iron-enhanced primary sedimentation and acidogenic sludge fermentation to achieve self-sufficient organic carbon supply for enhanced nutrient removal in wastewater treatment. Resour Conserv Recycl. 164, 105220. (中科院一区, If=13.716)
[9] Fan, Y.A., Zhou, Z.Y., Feng., Y., Zhou, Y., Wen, L., Shih, K.M*, 2020. Degradation mechanisms of ofloxacin and cefazolin using peroxymonosulfate activated by reduced graphene oxide-CoFe2O4 composites. Chem. Eng. J. 383, 123056. (中科院一区, If=16.744)
[1] Enhanced sedimentation and hydrolysis of solid organics for biological denitrification in wastewater treatment,香港基础研究基金(GRF/RGC:17261916),2017.01-2019.12,参与。 [2] Recovery of organic, nutrient and metal resources from wastewater sludge by co-fermentation and capacitive deionization,香港基础研究基金(GRF/RGC:17210219),2020.01-2022.12,参与。 [3] Enhanced separation and sludge refinery for wastewater treatment – Solving the nexus of pollution control and resource recovery in mega cities,香港主题研究TRS计划(T21-711/16-R),2016.11-2022.10,参与。 [4] Pilot study of the innovative CeFSCM-CfSBBR system for advanced wastewater treatment,香港创新科技基金(ITS/242/20FP),2021.07-2023.06,参与。 |
