呂 慧 博士 教授 博導

太阳集团1088vip 院長助理

廣東省水污染控制工程技術研究中心 副主任

廣東省生态環境青年科技工作者委員會 主任

Water Research區域主編(Editor

Bioresource Technology客座編輯

Chinese Chemical Letters青年編委

環境工程學報 特邀學術編輯

Water Security編委

國際水協中國青年委員會 常委

中國環境科學學會青年科學家分會 委員

中國城市科學研究會水環境與水生态分會 委員

中國水協青年委員會 委員

地址:廣州市廣州大學城太阳集团app首页環境學院
E-mail:lvhui3@mail.sysu.edu.cn

 

教育/工作經曆

  • 2012-至今,太阳集团app首页“百人計劃”,曆任副教授、教授、環工系副主任、教研室主任、院長助理
  • 2011-2012,香港科技大學,土木及環境工程系,博士後 
  • 2007-2011,香港科技大學,環境工程,博士
  • 2005-2007,哈爾濱工業大學,市政工程,碩士
  • 2001-2005,哈爾濱工業大學,給排水工程,學士

 

主要科研方向

  • 污水處理與資源化;工業廢水處理;新污染檢測分析及治理

 

人才項目和獎勵

  • 2021年廣東省教學成果獎(特等獎1項、二等獎1項)
  • 2021年太阳集团app首页教學成果獎(特等獎1項、一等獎1項)
  • 2020年國際水協“首創水星獎”産業創新類金獎
  • 2020年中國環保産業協會環境技術進步二等獎
  • 2020年廣東省環境技術進步一等獎
  • 2019年國家自然科學基金優秀青年基金
  • 2019年中國環境科學學會青年科學家獎
  • 2019年廣東省生态環境青年科技獎
  • 2019年太阳集团app首页教學成果一等獎
  • 2017年廣東省環境保護科學技術二等獎
  • 2017年廣東省市政行業協會科學技術一等獎
  • 2017年太阳集团app首页教學成果二等獎
  • 2016年廣東省“特支計劃”科技創新青年拔尖人才
  • 2016年廣州市珠江科技新星
  • 2014年廣東省“千百十工程“太阳集团app首页校級培養對象
  • 2012年德國FUTURE WATER HUBER科技獎
  • 2012年國際水協(IWA)全球及東亞區項目創新獎

 

教學項目

  • 智能時代環境工程“新工科智慧教學”的創新與實踐,教育部第二批新工科研究與實踐項目
  • 《水污染控制工程》線下一流本科課程,廣東省一流本科課程
  • 在線開放課程《水污染控制工程》,廣東省教學質量與教學改革項目
  • 《污泥源減量污水處理(MOSA)工藝虛拟仿真實訓》,國家本科一流本科課程
  • 國家虛拟仿真實驗教學項目
  • 新工科人才創新創業能力培養模式探索-以環境工程為例,教育部首批新工科研究與實踐項目

 

科研項目

 

  • 内外源媒介強化複合污染物生物協同轉化機制與調控原理,國家自然科學基金重點項目
  • 基于硫協同電子傳遞理論的污水處理新方法及新工藝,國家自然科學基金重點項目
  • 硫協同污水處理工藝去除典型新興有機污染物機理研究,國家自然科學基金面上項目
  • 基于SANI工藝的自養反硝化菌污泥顆粒化過程及其作用機制研究,國家自然科學基金面上項目
  • 硫循環協同反硝化除磷菌生物除磷機理及工藝研究,國家自然科學基金青年基金項目
  • 高氨氮廢水處理關鍵技術研發,深圳市科創委,科技計劃項目
  • 基于FNA抑制的垃圾滲濾液短程脫氮工藝研究,廣州市珠江科技新星
  • 基于數學模型的厭氧硫酸鹽還原菌污泥顆粒化研究,教育部新教師基金
  • 填埋場滲濾液亞硝化原位同步脫氮除臭研究,深圳市下坪固體廢棄物填埋場

 

著作章節

H. Lu, D. Wu, T.W. Hao, H.K. Chui, G.A. Ekama, Mark C.M. van Loosdrecht and G.H. Chen (2020). Chapter 7: Innovative Sulphur-based wastewater treatment. In Biological Wastewater Treatment: Principles, Modelling and Design (2nd Edition). (eds. Guanghao Chen, Mark C.M. van Loosdrecht, George A. Ekama, and Damir Brdjanovic). ISBN: 9781789060355. IWA Publishing, London, UK. Pp 327-380.

 

部分論文

  1. Fang, Heting, Lu, Hui*, et al., Ciprofloxacin-degrading Paraclostridium sp. isolated from sulfate-reducing bacteria enriched sludge: Optimization and mechanism. Water Research, 2021, 191:116808.
  2. Zeng, Chujun, Lu, Hui*, et al., Elemental sulfur-driven autotrophic denitrification for advanced nitrogen removal from mature landfill leachate after PN/A pretreatment. Chemical Engineering Journal, 2020, 410:128256.
  3. Jia, Yanyan, Lu, Hui*, et al., Influence of ibuprofen and its biotransformation products on different biological sludge systems and ecosystem. Environmental International, 2020, 146:106265.
  4. Wang, Shuo, Lu, Hui*, et al., Correlation of extracellular polymeric substances and microbial community structure in denitrification biofilm exposed to adverse conditions. Microbial Biotechnology, 2020, 13, 1889-1903.
  5. Oberoi, Akashdeep Singh, Lu, Hui*, et al., Electron distribution in sulfur-driven autotrophic denitrification under different electron donor and acceptor feeding schemes. Chemical Engineering Journal, 2020, 404:16486.
  6. Zhang, Huiqun, Lu, Hui*, et al., Comparative study on ciprofloxacin removal in sulfur-mediated biological system. Chinese Chemical Letters, 2020, 31, 1432-1437.
  7. Jia, Yanyan, Lu, Hui*, et al., Biotransformation of ibuprofen in biological sludge systems: Investigation of performance and mechanisms. Water Research, 2020, 170:115303
  8. Oberoi, Akashdeep Singh, Lu, Hui*, et al., Insights into fate and removal of antibiotics in engineered biological treatment systems: A critical review. Environmental Science and Technology, 2019, 53(13), 7234-7264.
  9. Zhang, Huiqun, Lu, Hui*, et al., Stress-responses of activated sludge and anaerobic sulfate-reducing bacteria sludge under long-term ciprofloxacin exposure. Water Research, 2019, 164:114964.
  10. Jia, Yanyan, Lu, Hui*, et al., Insights into pharmaceuticals removal in an anaerobic sulfate-reducing bacteria sludge system. Water Research, 2019, 161, 191-201.
  11. Zhang, Yan, Lu, Hui*, et al., Elucidating functional microorganisms and metabolic mechanisms in a novel engineered ecosystem integrating C, N, P and S biotransformation by metagenomics. Water Research, 2019, 148, 219-230.
  12. Zhang, Huiqun, Lu, Hui*, et al., Fundamental insights into ciprofloxacin adsorption by sulfate-reducing bacteria sludge: Mechanisms and thermodynamics. Chemical Engineering Journal, 2019, 378:122103.
  13. Qiu, Lin-Qing, Lu, Hui*, et al., Removal of sulfamethoxazole (SMX) in sulfate-reducing flocculent and granular sludge systems. Bioresource Technology, 2019, 288:121592.
  14. Zhang, Huiqun, Lu, Hui*, et al., Understanding the role of extracellular polymeric substances (EPS) on ciprofloxacin (CIP) adsorption in anaerobic sludge, anaerobic sludge and sulfate-reducing bacteria sludge systems. Environmental Science and Technology, 2018, 52(11), 6476-6486.
  15. Jia, Yanyan, Lu, Hui*, et al.,Ciprofloxacin degradation in anaerobic sulfate-reducing bacteria (SRB) sludge system: Mechanism and pathways.Water Research, 2018, 136, 64-74.
  16. Lu, Hui, et al., Elucidating the stimulatory and inhibitory effects of dissolved sulfide on sulfur-oxidizing bacteria (SOB) driven autotrophic denitrification. Water Research, 2018, 133, 165-172.
  17. Wu, Di, Lu, Hui*, et al., Elucidating the microbial communities and anaerobic mechanisms of a new biomass capable of capturing carbon and sulfur pollutants for sulfate-laden wastewater treatment. Biochemical Engineering Journal, 2018, 136, 18-27.
  18. Zhang, Yan, Lu, Hui*, et al., Spatiotemporal heterogeneity of core functional bacteria and their synergetic and competitive interactions in denitrifying sulfur conversion-associated enhanced biological phosphorous removal. Scientific Reports, 2017, 7: 10927.
  19. Wang, Bo, Lu, Hui*, et al., Optimizing mixing and intensity to prevent sludge flotation in sulfidogenic anaerobic sludge bed reactors. Water Research, 2017, 122, 481-491.
  20. Jia, Yanyan, Lu, Hui*, et al., Sulfamethoxazole degradation in anaerobic sulfate-reducing bacteria sludge system. Water Research, 2017, 119, 12-20.
  21. Yang, Weiming, Lu, Hui*, et al., Granulation of sulfur-oxidizing bacteria for autotrophic denitrification. Water Research, 2016, 104, 507-519.
  22. Yang, Weiming, Lu, Hui*, et al., Sulfide-driven autotrophic denitrification significantly reduces N2O emissions. Water Research, 2016, 90, 176-184.
  23. Qian, Jin, Lu, Hui*, et al., Investigation on thiosulfate- involved organics and nitrogen removal by a sulfur cycle-based biological wastewater treatment process. Water Research, 2015, 69, 295-306.
  24. Qian, Jin, Lu, Hui*, et al., System evaluation and microbial analysis of a sulfur cycle-based wastewater treatment process for co-treatment of simple wet flue gas desulfurization wastes with freshwater sewage. Water Research, 2015, 80, 189-199.
  25. Lu, Hui, et al., SANI process realizes sustainable saline sewage treatment: Steady state model-based evaluation of the pilot-scale trial of the process. Water Research, 2012, 46(2), 475-490.
  26. Lu, Hui*, et al., The demonstration of a novel sulfur cycle-based wastewater treatment process: Sulfate reduction, autotrophic denitrification and nitrification integrated (SANI®) biological nitrogen removal process. Biotechnology and Bioengineering, 2012, 109(11), 2778-2789.
  27. Qian, Jin, Lu, Hui*, et al., Beneficial co-treatment of simple wet flue gas desulphurization wastes with freshwater sewage through development of mixed denitrification–SANI process. Chemical Engineering Journal, 2015, 262, 109-118.
  28. Yu, Mei, Lu, Hui*, et al., Effects of carbon-to-sulfur (C/S) ratio and nitrate (N) dosage on Denitrifying Sulfur cycle-associated Enhanced Biological Phosphorus Removal (DS-EBPR). Scientific Reports, 2016, 6:23221.
  29. Hao, Tianwei, Lu, Hui*, et al., Granulation of anaerobic sludge in the sulfate-reducing up-flow sludge bed (SRUSB) of SANI® process. Water Science and Technology, 2013, 68(3), 560-566.
  30. Lu, Hui, et al., Pilot scale evaluation of SANIâ process for sludge minimization and greenhouse gas reduction in saline sewage treatment. Water Science and Technology, 2011, 63(10), 2149-2154.
  31. Lu, Hui, et al., Steady-state model-based evaluation of sulfate reduction autotrophic denitrification and nitrification integrated (SANI) process. Water Research, 2009, 43(14), 3613-3621.

 

專利

  1. Lu, Hui, et al., Nitrification-Denitrification Coupled Two-stage Autotrophic Denitrification Advanced Nitrogen Removal Method, (US 11,203,541 B2, Dec 21, 2021),授權美國發明專利
  2. Lu, Hui, et al., Biological Wastewater Treatment and Reuse Utilizing Sulfur Compounds as Electron Carrier to Minimize Sludge Production, (US 9,884,779 B2, Feb. 6, 2018),授權美國發明專利
  3. 呂慧等,以硫化合物作為電子載體以實現污泥産量最小化的污水生物處理及回用(特許第5923512号,2016年4月22日),授權日本發明專利
  4. 呂慧等,二氧化钛顆粒改性芳香聚酰胺分離膜及其制備方法(ZL 200610010287.1)
  5. 呂慧等,氧化鋁顆粒/芳香聚酰胺共混分離膜及其制備方法(ZL 200610010480.5)
  6. 呂慧等,一種利用納米二氧化钛改性聚砜酰胺分離膜的方法(ZL 200610010489.6)
  7. 呂慧等,TiO2/PVDF共混陽離子交換膜及其制備方法,(ZL 200710072042.6)
  8. 呂慧等,改性陰離子交換膜及其制備方法,(ZL 200710072040.7)
  9. 呂慧等,以硫化物為電子載體以實現污泥産量最小化的污水生物處理與回用,(ZL 201180057987.5)
  10. 呂慧等,一種硫自養反硝化顆粒污泥及其制備方法和應用,(ZL 201410248398.0)
  11. 呂慧等,一種硫協同反硝化同步脫氮除磷的廢水處理方法,(ZL 201410326625.7)
  12. 呂慧等,一種硫協同反硝化同步脫氮除磷顆粒污泥的培養方法,(ZL 201410326806.X)
  13. 呂慧等,一種基于硫酸鹽還原菌去除新興有機物微污染物的水處理方法,(ZL201610154351.0)
  14. 呂慧等,一種去除水中新興有機污染物的生物處理方法及應用,(ZL201610416235.8)