陈赟
1989年7月生
博士，讲师






联系方式 教育背景 工作经历 主要研究方向 主讲课程 获奖情况 承担（参与）的主要科研项目 近期发表论文（*通讯作者） 授权专利
联系方式


电子邮箱：75010@njnu.edu.cn
办公室：南京师范大学仙林校区环境学院 素质楼406室
通信地址：南京市栖霞区文苑路1号，210023
Researchgate: https://www.researchgate.net/profile/Yun_Chen57




教育背景


2011.09-2017.06 中国科学技术大学，环境工程，工学博士（硕博连读）
2015.08-2016.12 新加坡南洋理工大学，环境工程，联合培养博士（国家公派）
2007.09-2011.06 南京师范大学，环境工程，工学学士





工作经历

2017.09-至今，南京师范大学，环境科学与工程，讲师




主要研究方向


1. 厌氧反应器监测与预警；
2. 混菌厌氧发酵代谢产物调控机制研究；
3. 污泥资源化回收。





获奖情况

1. 陈赟，混菌厌氧发酵代谢产物调控机制研究，第十一届奥加诺（水质与水环境）奖学金，二等奖学金，2017。
2. 江苏省双创博士人才，2018。
3. 南京留学人员科技创新项目C类人才，2019。




承担（参与）的主要科研项目

1. 国家自然科学基金青年项目（**）：硫酸盐还原介导“铁强化初级污泥”释磷同步削减内分泌干扰物的研究，主持，2021.01-2023.12。
2. 中国博士后科学基金第13批特别资助(站中)（2020T130307），主持，2020.07-2022.06.
3. 华东师范大学上海有机固废生物转化工程技术研究中心开放课题（SERC2020C01），主持，2020.06-2021.12。
4. 江苏省青年基金（BK**)：铁基污泥碱性厌氧发酵释磷机制与磷回收研究，主持，2019.06-2022.06。
5. 中国博士后科学基金面上资助项目（2019M661880）：光电子驱动的稻田温室气体（甲烷）生成新途径研究，主持，2019.09-2021.08。
6. 江苏省高等学校自然科学研究面上项目（18KJB610013）：颗粒活性炭介导强化剩余污泥碱性发酵产乙酸的机理研究，主持，2018.09-2020.08。
7. 水体污染控制与治理科技重大专项（2017ZX07203-003）：高藻胁迫下梅梁湾周边河道水环境深度改善和良性生态系统构建技术与工程示范，参与，2017-2020。


近期发表论文、专利及软件（*通讯作者）


1. Y. Chen, R. Ruhyadi, J. Huang, W. Yan, G. Wang, N. Shen, W. Hanggoro, A novel strategy for improving volatile fatty acid purity, phosphorus removal efficiency, and fermented sludge dewaterability during waste activated sludge fermentation, Waste Management 119 (2021) 195-201.
2. W. Yan, Y. Chen*, N. Shen, G. Wang, J. Wan, J. Huang, The influence of a stepwise pH increase on volatile fatty acids production and phosphorus release during Al-waste activated sludge fermentation, Bioresour. Technol. 320 (2021) 124276.
3. N. Shen, Z. Liang, Y. Chen*, H. Song, J. Wan, Enhancement of syntrophic acetate oxidation pathway via single walled carbon nanotubes addition under high acetate concentration and thermophilic condition, Bioresour. Technol. 2020; 306: 123182.
4. H. Lin, Y. Chen*, N. Shen, Y. Deng, W. Yan, R. Ruhyadi, G. Wang, Effects of individual volatile fatty acids (VFAs) on phosphorus recovery by magnesium ammonium phosphate, Environ. Pollut. 2020; 261: 114212.
5. Y. Chen, R. Ruhyadi, N. Shen, Y. Wu, W. Yan, Z. Liang, J. Huang, G. Wang, Three birds with one stone: Lower volatile fatty acids (VFAs) reduction, higher phosphorus (P) removal, and lower alkali consumption via magnesium dosing after waste activated sludge (WAS) alkaline fermentation, J. Cleaner Prod. 2020; 258: 120687.
6. Y. Chen^#, H. Lin^#, N. Shen, W. Yan, J. Wang, G. Wang, Phosphorus release and recovery from Fe-enhanced primary sedimentation sludge via alkaline fermentation, Bioresour. Technol. 2019; 278: 266-271.
7. Y. Chen^#, H. Lin^#, W. Yan, J. Huang, G. Wang, N. Shen, Alkaline fermentation promotes organics and phosphorus recovery from polyaluminum chloride-enhanced primary sedimentation sludge, Bioresour. Technol. 2019; 294: 122160.
8. R. Ruhyadi^#, Y. Chen^#, N. Shen, W. Yan, Z. Liang, H. Wang, G. Wang, Multiple uses of magnesium chloride during waste activated sludge alkaline fermentation, Bioresour. Technol. 2019; 290: 121792.
9. Y. Chen, K. Xiao, N. Shen, R.J. Zeng, Y. Zhou, Hydrogen production from a thermophilic alkaline waste activated sludge fermenter: Effects of solid retention time (SRT), Chemosphere. 2018; 206: 101-106.
10. Y. Chen, K. Xiao, X. Jiang, N. Shen, R.J. Zeng, and Y. Zhou, Long solid retention time (SRT) has minor role in promoting methane production in a 65°C single-stage anaerobic sludge digester, Bioresource Technology. 2018; 247: 724-729.
11. Y. Chen, X. Jiang, K. Xiao, N. Shen, R. J. Zeng, Y. Zhou, Enhanced volatile fatty acids (VFAs) production in a thermophilic fermenter with stepwise pH increase -Investigation on dissolved organic matter transformation and microbial community shift, Water Research. 2017; 112:261-8.
12. Y. Chen, K. Xiao, X. Jiang, N. Shen, R. J. Zeng, Y. Zhou, In-situ sludge pretreatment in a single-stage anaerobic digester, Bioresource Technology. 2017; 238:102-108.
13. Y. Chen, N. Shen, T. Wang, F. Zhang, R. J. Zeng, Ammonium level induces high purity propionate production in mixed culture glucose fermentation, RSC Advances. 2017; 7:518-25.
14. Y. Chen, F. Zhang, T. Wang, N. Shen, Z.-W. Yu, R.J. Zeng, Hydraulic retention time affects stable acetate production from tofu processing wastewater in extreme-thermophilic (70^oC) mixed culture fermentation, Bioresource Technology. 2016; 216:722-728.
15. Y. Chen, T. Wang, N. Shen, F. Zhang, R.J. Zeng, High-purity propionate production from glycerol in mixed culture fermentation, Bioresource Technology. 2016; 219:659-667.
16. Y. Chen, Man. Chen, N. Shen, R.J. Zeng, H₂ production by the thermoelectric microconverter coupled with microbial electrolysis cell, International Journal of Hydrogen Energy. 2016; 41:22760-22768.
17. Y. Chen, J. He, Y.-Q. Wang, T.A. Kotsopoulos, P. Kaparaju, R.J. Zeng, Development of an anaerobic co-metabolic model for degradation of phenol, m-cresol and easily degradable substrate, Biochemical Engineering Journal. 2016; 106:19-25.
18. Y. Chen, J. He, Y. Mu, Y.C. Huo, Z. Zhang, T.A. Kotsopoulos, R.J. Zeng, Mathematical modeling of upflow anaerobic sludge blanket (UASB) reactors: Simultaneous accounting for hydrodynamics and bio-dynamics, Chemical Engineering Science. 2015; 137:677-684.
19. N. Shen, Y. Chen, Y. Zhou, Multi-cycle operation of enhanced biological phosphorus removal (EBPR) with different carbon sources under high temperature, Water Research. 2017; 114:308-315.
20. K. Xiao, Y. Chen, X. Jiang, Y. Zhou, Evaluating filterability of different types of sludge by statistical analysis: The role of key organic compounds in extracellular polymeric substances, Chemosphere. 2017; 170:233-41.
21. K. Xiao, Y. Chen, X. Jiang, Q. Yang, W.Y. Seow, W. Zhu, and Y. Zhou, Variations in physical, chemical and biological properties in relation to sludge dewaterability under Fe (II) – Oxone conditioning, Water Research. 2017; 109:13-23.
22. K. Xiao, Y. Chen, X. Jiang, V.K. Tyagi, Y. Zhou, Characterization of key organic compounds affecting sludge dewaterability during ultrasonication and acidification treatments, Water Research. 2016; 105:470-478.
23. F. Zhang, Y. Chen, K. Dai, R.J. Zeng, The chemostat study of metabolic distribution in extreme-thermophilic (70^oC) mixed culture fermentation, Applied Microbiology and Biotechnology. 2014; 98:10267-10273.
24. F. Zhang, Y. Chen, K. Dai, N. Shen, R.J. Zeng, The glucose metabolic distribution in thermophilic (55^oC) mixed culture fermentation: A chemostat study, International Journal of Hydrogen Energy. 2014; 40:919-926.
25. X.-R. Pan, Y.-K. Wang, W.-W. Li, Y.-S. Wang, X. Wang, Y. Chen, Y.-K. Geng, C.-X. Li, H.-q. Yu, P.K. Lam, (2017) Selective co-production of acetate and methane from wastewater during mesophilic anaerobic fermentation under acidic pH conditions. Environmental Science: Water Research & Technology.
26. K. Xiao, W.Y. Seow, Y. Chen, D. Lu, X. Jiang, Y. Zhou, (2017) Effects of thermal-Fe (II) activated oxone treatment on sludge dewaterability. Chemical Engineering Journal.
27. W. Yan, N. Shen, Y. Xiao, Y. Chen, F. Sun, V.K. Tyagi, Y. Zhou, (2017) The role of conductive materials in the start-up period of thermophilic anaerobic system. Bioresource Technology.
28. F. Zhang, J.H. Yang, K. Dai, Y. Chen, Q.R. Li, F.M. Gao, R.J. Zeng, Characterization of microbial compositions in a thermophilic chemostat of mixed culture fermentation, Applied Microbiology and Biotechnology. 2016; 100:1511-1521.
29. F. Zhang, Y. Zhang, Y. Chen, K. Dai, M.C.M. van Loosdrecht, R.J. Zeng, Simultaneous production of acetate and methane from glycerol by selective enrichment of hydrogenotrophic methanogens in extreme-thermophilic (70^oC) mixed culture fermentation, Applied Energy. 2015; 148:326-333.
30. N. Shen, X.Y. Xia, Y. Chen, H. Zheng, Y.C. Zhong, R.J. Zeng, Palladium nanoparticles produced and dispersed by Caldicellulosiruptor saccharolyticus enhance the degradation of contaminants in water, RSC Advances. 2015; 5:15559-15565.




授权专利 曾建雄, 王婷, 陈赟。 一种混菌体系发酵生产丙酸的方法 （CN A）