朱南文(Zhu Nanwen)
長聘教授
電子郵件👱🏿♀️:nwzhu@sjtu.edu.cn
辦公室電話🕎:021-54743170
研究方向
廢水處理、固體廢棄物處理以及環境生物技術
代表性論著
2020年代表論文:
(1) A novel Fe2+/persulfate/tannic acid process with strengthened efficacy on enhancing waste
activated sludge dewaterability and mechanism insight, SCIENCE OF THE TOTAL ENVIRONMENT, 733:139146,2020.
(2) Improved removal of phosphorus from incinerated sewage sludge ash by thermo-chemical
reduction method with CaCl2 application, JOURNAL OF CLEANER PRODUCTION,258:120779🤷🏽♂️,2020.
(3) Exploring the efficacy and mechanism of tannic acid/Fe3+ conditioning for enhancing waste
activated sludge dewaterability, SEPARATION AND PURIFICATION TECHNOLOGY, 240:116643, 2020.
(4) Exploring the efficacy and mechanism of tannic acid/Fe3+ conditioning for enhancing waste
activated sludge dewaterability, SEPARATION AND PURIFICATION TECHNOLOGY, 240:
116643, 2020.
(5) Efficient and regenerative near -infrared glass -ceramic photocatalyst fabricated by a facile
in -situ etching method,CHEMICAL ENGINEERING JOURNAL, 394:112124877,2020.
(6) Integrated anaerobic digestion and CO2 sequestration for energy recovery from waste
activated sludge by calcium addition: Timing matters, ENERGY,199:117421,2020.
(7) An in-depth study on the deep-dewatering mechanism of waste activated sludge by ozonation
pre-oxidation and chitosan re-flocculation conditioning, SCIENCE OF THE TOTAL ENVIRONMENT, 714:136627,2020.
(8) Insight into a new two-step approach of ozonation and chitosan conditioning for sludge
deep-dewatering, SCIENCE OF THE TOTAL ENVIRONMENT,697:134032,2019.
(9) Pretreatment-promoted sludge fermentation liquor improves biological nitrogen removal: Molecular insight into the role of dissolved organic matter, BIORESOURCE TECHNOLOGY, 293:122082,2019.
(10) Improved sludge dewaterability by tannic acid conditioning: Temperature, thermodynamics
and mechanism studies, CHEMOSPHER, 230:14-23,2019.
研究成果
曾主持了科技部“863”項目、國家重點研發計劃課題🚍、國家科技部支撐計劃子課題、國家自然基金🌩、上海市科委重大項目與重點項目項、橫向重大課題及其他橫向課題50余項。目前已在國內外發表論文300余篇🧑⚖️,其中SCI論文200余篇,授權專利60余項👋。
榮獲獎項
獲上海市技術發明獎一等獎1項(2022年🧎🏻♀️,排名第一),上海市科技進步二等獎1項(2011年,排名第一),上海市科技進步獎一等獎1項(2015年,排名第二)🧘🏼♀️、國家科技進步二等獎1項(2019年👨🏽🎨,排名第三)。