王厚锋 (Wang Hou-Feng) 副教授 人才称号:福建省C类人才计划 电子邮件:wanghf@mail.ustc.edu.cn 办公地点:诚智楼C-610 |
一、研究方向
以“上书架”和“上货架”为科研之“道”,主要从事城市固体废弃物的绿色处理及其资源化处置等方面的研究,具体表现在以下3方面:
1、剩余污泥脱水过程机理探究及过程优化;
2、污泥体系流变动力学表征;
3、剩余污泥处理处置过程中的生态影响调研;
二、个人履历
2019.12-至今福建农林大学,红宝石9999hbs讲师
2018.07-2020.12福建农林大学,资环学院废水资源化中心博士后
2013.09-2018.06 中国科学技术大学,环境工程专业(保送硕博连读),博士学位
2009.09-20013.06西藏大学,化学与环境科学专业,学士学位
三、代表性论著(论文、专利、著作、教材、软著等)
1. Xiao, X., Zhang, Y. L., Zhou, Z. A., Wu, F., Wang, H. F.*, & Zong, X. (2022). Response of sediment microbial communities to different levels of PAC contamination and exposure time. Science of The Total Environment, 160683.
2. Zhang, H., Qi, H. Y., Zhang, Y. L., Ran, D. D., Wu, L. Q., Wang, H. F*., & Zeng, R. J. (2022). Effects of sewage sludge pretreatment methods on its use in agricultural applications. Journal of Hazardous Materials, 428, 128213.
3. Wang H F, Qi H Y, Du K, et al. Reinterpretation of the mechanism of coagulation and its effects in waste activated sludge treatment[J]. Separation and Purification Technology, 2022, 291: 120958.
4. Wang H F, Qi H Y, Lian Z H, et al. A unified operating procedure is crucial to evaluate sludge dewaterability, taking the setup of refrigerated storage time as an example[J]. Journal of Environmental Management, 2022, 307: 114528.
5. Wang HF., Bai, Y.N., Zhang, W., Wang, H. J.; Zeng RJ* Supplementary In-Depth Analysis of the Waste Activated Sludge Dewatering Process Using a Rheological Analysis. ACS ES&T Engineering. 2021, 1, 289−297
6. Wang HF, Hu H, Wang HJ, Bai YN, Shen XF, Zhang W, Zeng RJ* Comprehensive investigation of the relationship between organic content and waste activated sludge dewaterability. Journal of Hazardous Materials. 2020, 394, 122547
7. Wang, H. F.; Hu, H.; Wang, H. J.; Zeng, R. J., Combined use of inorganic coagulants and cationic polyacrylamide for enhancing dewaterability of sewage sludge. Journal of Cleaner Production 2019,211, 387-395.
8. Wang, H.-F.; Hu, H.; Wang, H.-J.; Zeng, R. J., Impact of dosing order of the coagulant and flocculant on sludge dewatering performance during the conditioning process. Sci Total Environ2018,643, 1065-1073.
9. Hu, H.; Wang, H.-F.; Ma, L.-L.; Shen, X.-F.; Zeng, R. J., Effects of nitrogen and phosphorous stress on the formation of high value LC-PUFAs in Porphyridium cruentum. Appl Microbiol Biot2018, 1-11.
10. Wang, H. F.; Ma, Y. J.; Wang, H. J.; Hu, H.; Yang, H. Y.; Zeng, R. J., Applying rheological analysis to better understand the mechanism of acid conditioning on activated sludge dewatering. Water Res2017,122, 398-406.
11. Wang, H.-F.; Hu, H.; Yang, H.-Y.; Zeng, R. J., Characterization of anaerobic granular sludge using a rheological approach. Water Res 2016,106, 116-125.
12. Wang, H.F., Wang, H. J.; Hu, H.; Zeng, R. J., (2017) Applying rheological analysis to understand the mechanism of polyacrylamide (PAM) conditioning for sewage sludge dewatering. Rsc Advances 7(48), 30274-30282.
四、承担课程
1.参与研究生课程《农业面源污染》,本科生课程《环保设备基础》;
2.指导4位硕士研究生,并协助指导1位博士研究生。
五、课题及项目
1.国家博士后基金面一等资助(12万),2018.8-2020.6,主持;
2.国家自然科学基金青年项目(24万),2021-2023,主持;
3.福建省自然科学基金青创项目(6万),2021-2023,主持。