承担的部分项目：

1.      自然科学基金委与日本学术振兴会（NSFC-JSPS）合作与交流项目.中日复合污染物界面过程与控制对策研讨会.2023-2024.项目负责人

2.      全生命周期碳足迹模型研究：以污水处理行业为例.国家自然科学基金专项项目.2023-2025.项目负责人

3.      基于机器学习的污水处理厂“水-能-碳”耦合机制及减污降碳协同增效路径研究.国家自然科学基金面上项目.2023-2026.项目负责人

4.      电解耦合过硫酸盐体系强化剩余活性污泥脱水的效能与机理.上海市2021年度“科技创新行动计划”国际科技合作项目.2021-2024.项目负责人

1.     全生命周期碳足迹模型研究：以污水处理行业为例.国家自然科学基金专项项目.2023-2025.项目负责人

2.     基于机器学习的污水处理厂“水-能-碳”耦合机制及减污降碳协同增效路径研究.国家自然科学基金面上项目.2023-2026.项目负责人

3.     电解耦合过硫酸盐体系强化剩余活性污泥脱水的效能与机理.上海市2021年度“科技创新行动计划”国际科技合作项目.2021-2024.项目负责人

论文发表（均为第一作者或通讯作者，其中*为通讯作者）：

以第一和通讯作者发表SCI论文40多篇，H-Index 31，论文被引用>3729次（Web of Science）

1.  王洪涛.全球水危机警钟再响，水资源管理该去向何处？可持续发展经济导刊.2023,04:37-39

2.  杨芊,王洪涛*.关于工业园区突发环境事件应急管理体系的思考.环境监测管理与技术,2022,34(3):1-5

3.  狄惠琴,张沂頔,王洪涛*.化纤纺织染整废水中锑污染控制策略.工业水处理,2021，已接收

4.  刘艺文,王洪涛*.基于灰水足迹和熵值法的苏锡常地区水敏感性行业识别.环境科学学报，2020,21(8):70-74.

5.  石琦,黄润垚,王洪涛*,李风亭.酸化-氧化-絮凝联合调理污泥的全过程研究.环境污染与防治.2020,42(10):1263-1268.

6.  王吉祥,亓雪娇,王洪涛*.非洲部分地区饮用水水质及天然絮凝剂应用现状.净水技术,2017(6):35-40

7.  董亚楠,罗穆喜,李想,王洪涛*,李风亭.南方地区部分污水处理工艺现状及技术分析.净水技术,2016(5):32-37,51

8.  Mudi Zhai, Bomin Fu, YuhuiZhai, Weijie Wang, Amy Maroney, Arturo A. Keller, Hongtao Wang*,Jean-Marc Chovelon. Simultaneous removal of pharmaceuticals and heavy metalsfrom aqueous phase via adsorptive strategy: A critical review. Water Research,2023(236):119924.

9.  Yidi Zhang, Xiaohang Ni, HongtaoWang*. Visual analysis of greenhouse gas emissions from sewage treatmentplants based on CiteSpace: from the perspective of bibliometrics. EnvironmentalScience and Pollution Research, Accepted, 2023.

10. Bomin Fu, Chenyang Yu, JingSun, Hongtao Wang*,Yasuhisa Adachi*. The influence of humic substanceson environmental behavior of antibiotic resistance genes: A mini-review. Journalof Hazardous Materials Advances, 2022, 8: 100173.

11.  Zonglin Li, Junsen Wang,Jiajun Chang, Bomin Fu, Hongtao Wang*. Insight into advanced oxidationprocesses for the degradation of fluoroquinolone antibiotics: Removal,mechanism, and influencing factors. Science of the Total Environment, 2022,857: 159172.

12. Junsen Wang, Tianrun Wang,Zonglin Li, Bomin Fu, Yuhui Zhai, Weijie Wang, Mudi Zhai, Jean-Marc Chovelon,Yuxiu Gong, Hongtao Wang*. Enhancement of sludge dewaterability byelectrolysis coupled with peroxymonosulfate oxidation process: Performance,mechanisms and implications, Chemosphere, 2022, 307: 135865.

13. José Tavares Araruna Jr., Ronald Mejia Sanchez, Xuejiao Qi, HongtaoWang*, Shuguang Liu, Rodrigo Fernandes Magalhães de Souza, Paola MachadoBarreto Manhães. A promising approach to mitigate risks on the existingtailings dams in Brazil. Bulletin of Environmental Contamination andToxicology, 2022, 109 (1): 44-50.

14. Runyao Huang, Jin Xu, Li Xie, Hongtao Wang*, Xiaohang Ni.Energy neutrality potential of wastewater treatment plants: A novel evaluationframework integrating energy efficiency and recovery. Frontiers ofEnvironmental Science & Engineering, 2022, 16(9): 117.（封面论文）

15. Shike Zhang, Hongtao Wang*,Arturo Keller. Novel Machine Learning-Based Energy Consumption Model ofWastewater Treatment Plants. ACS ES&T Water, 2021, Accepted.

16. Runxi Liu, Runyao Huang,Ziheng Shen, Hongtao Wang*, Jin Xu. Optimizing the Recovery Pathway of aNet-Zero Energy Wastewater Treatment Model by Balancing Energy Recovery andEco-efficiency. Applied Energy, 2021, Accepted.

17. Runyao Huang, Ziheng Shen, HongtaoWang*, Jin Xu, Zisheng Ai, Hongyuan Zheng, Runxi Liu. Evaluating the energyefficiency of wastewater treatment plants in the Yangtze River Delta:perspectives on regional discrepancies. Applied Energy, 2021, Accepted.

18. Junsen Wang, Tianrun Wang,Qinyun Zhu, Shike Zhang, Qi Shi, Jean-Marc Chovelon, Hongtao Wang*.Preparation of a novel sludge-derived biochar by K2FeO4conditioning to enhance the removal of Pb2+. Colloid and InterfaceScience Communications. 2021, Accepted.

19. Gricel Alcira PortilloMiranda, José Tavares Araruna Júnior*, Eduardo de Albuquerque Brocchi, HongtaoWang*. Humic substances reduce the erodibility of soils in mining areas.Journal of Cleaner Production. 2020, Accepted.

20. Gengping Zhang, Qi Shi,Qiannan Li, Hongtao Wang*, Heyang Yuan, Wenjing Guo, Yufei Lu. Agentsfor sludge dewatering in fundamental research and applied research: abibliometric analysis. Journal of Cleaner Production. 2020, Accepted.

21. Xuejiao Qi, HongtaoWang*, Lu Zhang, Bolin Xu, Qi Shi, Fengting Li. Removal of Cr(Ⅲ) from aqueous solution by using bauxite residue (red mud):Identification of active components and column tests, CHEMOSPHERE, 2020, 245:1255560.

22. Qi Shi, Yufei Lu, WenjingGuo, Tianrun Wang, Qinyun Zhu, Yaxian Zhang, Hongtao Wang*, Fengting Li,Taiming Xu, Chunjiang Li. Application of a cellulose filter aid in municipalsewage sludge dewatering and drying: jar, pilot and factory scale. WaterEnvironment Research, 2020,92: 495-503（封面论文）

23. Yaxian Zhang, Qi Shi, MuxiLuo, Hongtao Wang*, Qi Xuejiao,Chia-Hung Hou*, Li Fengting, Zisheng Ai, Jose Tacares Araruna Junior. Improvedbauxite residue dealkalization by combination of aerated washing andelectrodialysis. Journal of Hazardous Materials, 2019, 364: 682-690

24. Xuejiao Qi, HongtaoWang*, Chenfan Huang, Lu Zhang,Jiyu Zhang, Bolin Xu, Fengting Li, Jose Tacares Araruna Junior. Analysis ofbauxite residue components responsible for copper removal and related reactionproducts. Chemosphere, 2018, 207: 209-217

25. Pengzhou Luo, Yi Yang*, Hongtao Wang*, Yifan Gu, Jin Xu, YueLi. Water footprint and scenario analysis in the transformation of Chongminginto an international eco-island. Resources, Conservation & Recycling.2018, 132: 376-385.