简 历:
工学博士,硕士生导师。长期从事污水处理与资源化、水处理流体力学分析、流域污染防治方面研究,先后主持国家自然科学基金、中国博士后基金、省重点研发基金、省基金等省级以上项目7项。在Water Research,Bioresource Technology等高影响力刊物上发表文章20余篇(总影响因子94.65),授权国家专利10余项。
研究(情况)项目:
【1】国家自然科学基金,基于团聚及水力剪切的好氧颗粒污泥形成-解体动态平衡模型开发及高效稳定运行调控策略研究
【2】浙江省重点研发项目,浙江省易腐垃圾末端处理工程调研与评估
【3】浙江省自然科学基金,基于强化生物膜工艺脱氮及稳定运行的易腐垃圾厌氧尾水资源化利用研究
【4】优秀青年科学家专项,省属高校基本科研项目,基于自絮凝及团聚行为的强化好氧污泥颗粒化策略研究
【5】中国博士后科学基金,好氧颗粒污泥高效稳定运行水力学调控策略
发表的论文、专著、教材:
[1] Zhou, J.H., Ren, Q., Xu, X.L., Fang, J.Y., Wang, T., Wang, K.M., Wang, H.Y. 2021. Enhancing stability of aerobic granules by microbial selection pressure using height-adjustable influent strategy. Water Research 201:117356 (IF 13.4)
[2] Hong, Q.K.,Wang, K.M., Wu, C.H., Qiu, Z.X., Shen, Y.X., Wang, H.Y., Zhou, J.H.* 2023. Effect of starch-coated magnetic particles on treatment performance and membrane fouling in membrane bioreactor for low carbon/nitrogen municipal wastewater treatment.Journal of Environmental Chemical Engineering 11:109436 (IF 7.96)
[3] Zhou, J.H., Zhao, H., Hu, M., Yu, H.T., Xu, X.Y., Vidonishc, J., Alvarez, P.J.J., Zhu, L. 2015. Granular activated carbon as the nucleating agent for aerobic sludge granulation: Effect of GAC size on velocity field differences (GAC versus flocs) and aggregation behavior. Bioresource Technology 198, 358-363 (IF 11.889)
[4] Zhou, J.H., Yu, H.T., Zhao, H., Alvarez, P.J.J., Xu, X.Y., Zhu, L. 2016. Optimizing granules size distribution for aerobic granular sludge stability: Effect of a novel funnel-shaped internals on hydraulic shear stress. Bioresource Technology 216, 562-570 (IF 11.889)
[5] Zhou, J.H., Chen, K.B., Zeng, F.C., Wang, H.Y., 2017. Degradation of chloramphenicol by potassium ferrate (VI) oxidation: Kinetics and products. Environmental Science and Pollution Research 24, 10166-10171 (IF 5.19)
[6] Zhou, J.H., Zhou, Y.C., Yu, H.C., Zhao, Y.Q., Ye, K.Q., Fang, J.Y., Wang, H.Y. 2019. Determining the effects of aeration intensity and reactor height to diameter (H/D) ratio on granule stability based on bubble behavior analysis. Environmental Science and Pollution Research 26, 784-796 (IF 5.19)
[7] Zhou, J.H., Yu, H.C., Ye, K.Q., Wang, H.Y., Ruan, Y.J., Yu, J.M. 2019. Optimized aeration strategies for nitrogen removal efficiency: application of end gas recirculation aeration in the fixed bed biofilm reactor. Environmental Science and Pollution Research 26, 28216-28227. (IF 5.19)
[8]Zhou, J.H., Wu, C.H., Cheng, G.F., Hong, Q.K., Li, Y.Z., Wang, H.Y. 2019. Impact of poly dimethyldiallylammonium chloride on membrane fouling mitigation in a membrane bioreactor. Environmental Technology, 40, 1043-1049 (IF 3.475)
[9] Zhou, J.H., Jiang S.F., Yu H.C., Wu, C.H., Zeng, T., Zhou, Y.C., Hong,Q.K., Wang, H.Y. 2020. A comparative study on membrane fouling alleviation mechanisms by using nanoscale Fe3O4 and poly dimethyldiallylammonium chloride. Environmental Technology41: 1477-1485(IF 3.475)
科研成果及专利:
Ø 强化好氧颗粒污泥工艺稳定运行的泥水分排方法,发明专利,201410820872.2
Ø 进水高度可调的底部进水高效脱氮好氧颗粒污泥反应器,发明专利,CN107337270B
Ø 一种基于自旋转强化二次流的曝气装置,实用新型,201922116835.4
Ø 一种强化反硝化脱氮的缓释碳源填料,实用新型,201921741468.0
Ø 一种海绵城市排水装置,实用新型,201920032711.5
Ø 一种串联回流强化脱氮人工湿地,实用新型,202021711703.2
研究生培养等教学情况:
奖励和荣誉:
指导研究生获校研究生一等奖学金5人,二等奖学金8人。
其它:
第十二届青年教师教学技能竞赛优秀奖