水污染控制化学科教创新团队

 

 

董红钰 副教授

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

董红钰 副教授

 

联系方式

电子邮箱:hydong@des.ecnu.edu.cn

办公地址:生辅楼305

通讯地址:上海市闵行区东川路500号

 

教育经历

2015.09−2019.04                                同济大学环境科学与工程                               博士

2012.09−2015.06                                山东大学环境科学与工程                               硕士

2007.09−2011.07                 安庆师范大学(原安庆师范学院)环境科学                   学士

 

工作经历

2021.12−至今                            华东师范大学生态与环境科学学院                        副研究员

2019.05−2021.12                                  同济大学土木工程学院                               博士后

 

研究方向

高级氧化技术:

1. 金属活性中间体为核心的氧化技术及反应机制;

2. 基于活化亚硫酸盐的污染控制技术及化学机制;

3. 高级氧化技术在污废水深度处理过程中的应用及资源化.

 

 

科研项目

中国博士后科学基金面上项目(No. 2019M661618),Fe(VI)氧化污染物过程中的自加速机制及过程强化,2019.11−2021.12, 主持

 

学术成果

主要学术论文:

1.Dong, H. Y.; Xu, Q. H.; Lian, L. S.; Li, Y.; Wang, S. C.; Li, C.; Guan, X. Y.,* Degradation of organic contaminants in the Fe(II)/peroxymonosulfate process under acidic conditions: The overlooked rapid oxidation stage. Environmental Science & Technology 2021, 55, (22), 15390-15399.

2.Dong, H. Y.; Li, Y.; Wang, S. C.; Liu, W. F.; Zhou, G. M.; Xie, Y. F.; Guan, X. Y.,* Both Fe(IV) and radicals are active oxidants in the Fe(II)/peroxydisulfate process. Environmental Science & Technology Letters 2020, 7, (3), 219-224.(封面论文)

3. Dong, H. Y.; Wei, G. F.; Cao, T. C.; Shao, B. B.; Guan, X. Y.;* Strathmann, T. J., Insights into the oxidation of organic cocontaminants during Cr(VI) reduction by sulfite: The overlooked significance of Cr(V). Environmental Science & Technology 2020, 54, (2), 1157-1166.

4.Yu, Y. H.; Dong, H. Y.;* Lian, L. S.; Guan, X. H. Selective and rapid degradation of organic contaminants by Mn(V) generated in the Mn(II)-nitrilotriacetic acid/periodate process. Chemical Engineering Journal 2022, 443, 136387.

5.Dong, H. Y.; Wei, G. F.;* Yin, D. Q.; Guan, X. H.,* Mechanistic insight into the generation of reactive oxygen species in sulfite activation with Fe(III) for contaminants degradation. Journal of Hazardous Materials 2020, 384, 121497.

6.Dong, H. Y.; Chen, J.; Feng, L. Y.; Zhang, W. X.; Guan, X. H.;* Strathmann, T. J., Degradation of organic contaminants through activating bisulfite by cerium (IV): A sulfate radical-predominant oxidation process. Chemical Engineering Journal 2019, 357, 328-336.

7.Dong, H. Y.; Wei, G. F.; Fan, W. J.; Ma, S. C.; Zhao, H. Y.; Zhang, W. X.; Guan, X. H.;* Strathmann, T. J., Reinvestigating the role of reactive species in the oxidation of organic co-contaminants during Cr(VI) reactions with sulfite. Chemosphere 2018, 196, 593-597.

8.Dong, H. Y.; Gao, B. Y.;* Yue, Q. Y.;* Wang, Y.; Li, Q. Effect of pH on floc properties and membrane fouling in coagulation – Ultrafiltration process with ferric chloride and polyferric chloride. Chemosphere 2015, 130, 90-97.

9.Dong, H. Y.; Gao, B. Y.;* Yue, Q. Y.;* Sun, S. L.; Wang, Y.; Li, Q. Floc properties and membrane fouling of different monomer and polymer Fe coagulants in coagulation–ultrafiltration process: The role of Fe (III) species. Chemical Engineering Journal 2014, 258, 442-449.

10.Dong, H. Y.; Gao, B. Y.;* Yue, Q. Y.; Rong, H. Y.; Sun, S. L.; Zhao, S. Effect of Fe (III) species in polyferric chloride on floc properties and membrane fouling in coagulation–ultrafiltration process. Desalination 2014, 335, (1), 102-107.

11.Dong, H. Y.; Gao, B. Y.;* Yue, Q. Y.;* Sun, S. L.; Wang, Y.; Li, Q. Floc properties and membrane fouling of polyferric silicate chloride and polyferric chloride: the role of polysilicic acid. Environmental Science and Pollution Research 2015, 22, (6), 4566-4574.

12.李阳; 关小红; 董红钰.* Fe(Ⅱ)活化亚硫酸盐降解卡马西平的动力学及机制研究. 土木与环境工程学报(中英文) 2021, 43 (06), 165-171.

 

获授权发明专利

1) 关小红,董红钰,王辉,范文娟,乔俊莲.一种基于中间态铁快速去除水中有机污染物的方法.                                                                 专利号: ZL 201610094932.6

2) 关小红,董红钰,鲍倩倩,马尚辰,朱雅婷,饶丹丹. 一种用于饮用水处理的预氧化方法.                                                                           专利号: ZL 201710145150.5

3) 关小红,饶丹丹,董红钰,马尚辰,张雪莹,乔俊莲,周恭明. 一种利用亚硫酸盐促进曝气去除水中Mn2+的方法.                                    专利号: ZL 201710064464.2

 

荣誉及奖励

2019年 上海市“超级博士后”激励计划(资助年度:2019−2020年)