王伟(市政)
2021/03/24
性别:男 学位:博士 职称:教授,博导 系部:市政工程系 邮箱:wang_wei@hfut.edu.cn 主页:/ 方向:污废水处理、水环境治理、微生物固碳 招生:可指导市政工程(学术硕博)、土木水利(专硕)、能源动力(工程博士)等方向研究生,每年拟招收硕士生4-6名、博士生1-2名、博士后1名,热情欢迎有志青年学子推免或报考! | |
个人简介主要研究污废水处理和水环境治理领域的工艺理论和技术产品开发。围绕有毒难降解工业废水处理、农村污水和雨水处理、碳中和等领域,探索新型厌氧生物处理理论与技术、节能高效污染物资源化利用技术、水环境治理新技术和新产品。主持国家自然科学基金面上和青年项目、国家重点研发计划项目子课题和省部级课题及企业委托课题等多项课题。发表论文70余篇,授权国家专利10项。兼任《中国给水排水》和《工业水处理》首届青年编委、安徽省农村水环境治理与水资源利用工程实验室副主任、工业废水及环境治理安徽省重点实验室首届学术委员会副主任委员、国家自然基金委项目通讯评审专家、安徽省科技项目评审专家等。 教育背景2001/09–2005/07,安徽建筑工业学院,给水排水工程,学士 2005/09–2007/07,哈尔滨工业大学,市政工程,硕士 2007/09–2011/07,哈尔滨工业大学,市政工程,博士 工作经历2011/07–2013/12,皇冠hg1088官方,皇冠hg1088官方,讲师 2014/01–2019/12,皇冠hg1088官方,皇冠hg1088官方,副教授 2014/10–2015/09,荷兰代尔夫特理工大学,博士后 2020/01–至 今,皇冠hg1088官方,皇冠hg1088官方,教授 | |
科研项目[1] 国家自然科学基金面上项目,酚类化合物厌氧互营降解转化机制及调控研究,51878232,2019/01-2022/12,主持; [2] 国家重点研发计划项目子课题,针对有毒工业废水的内外循环互补的高效厌氧技术,2019YFC0408502,2020/04-2023/03,主持; [3] 国家自然科学基金青年项目,间歇共基质调控厌氧共代谢分解难降解有机物的作用机制,51208164,2013/01-2015/12,主持; [4] 安徽省自然科学基金青年项目,厌氧强化处理煤气化废水中酚类化合物作用机理的研究,1208085QE79,2012/07-2014/06,主持; [5] 合肥市自然科学基金项目,污水高效脱氮的厌氧氨氧化菌的富集机制研究,2021023,2021/07-2023/06,主持。 获得奖励[1] 智能污水处理一体化设备,安徽省科技进步三等奖,2019,排名2/3; [2] 污水处理厂的模拟、监测和优化运行关键技术应用,安徽省科学技术一等奖,2015,排名5/10; [3] 多级生化组合工艺处理煤化工废水技术及应用,黑龙江省科学技术二等奖,2012,排名2/5; [4] 有毒(有机)工业废水物化/生化组合工艺处理效能与工程应用,黑龙江省科学技术一等奖,2010,排名8/11; [5] 两级两相厌氧工艺处理高浓度化工废水的技术研究,中国石油和化学工业科技进步二等奖,2007,排名4/7。 代表成果[1] He, C., Liu, T., Ou, H., Yuan, S., Hu, Z., Wang, W*. (2021). Coupling granular activated carbon and exogenous hydrogen to enhance anaerobic digestion of phenol via predominant syntrophic acetate oxidation and hydrogenotrophic methanogenesis pathway. Bioresource Technology, 323, 124576. [2] Tang, R., Wang, Y., Yuan, S., Wang, W.*, Yue, Z., Zhan, X., Hu, Z*. (2021). Organoarsenic feed additives in biological wastewater treatment processes: Removal, biotransformation, and associated impacts. Journal of Hazardous Materials, 406, 124789. [3] Huang, H., Yang, C., He, C.*, Hu, X., Hu Z., Wang, W*.(2021). Combining biofilm and membrane flocculation to enhance simultaneous nutrients removal and membrane fouling reduction. Science of The Total Environment, 255, 117685. [4] Tang, R., Prommer, H., Yuan, S., Wang, W., Hu, Z. H*. (2021). Enhancing roxarsone degradation and in situ arsenic immobilization using a sulfate-mediated bioelectrochemical system. Environmental Science & Technology, 55, 393-401. [5] Shi, L., Wang, W., Yuan, S.J., Hu, Z*. (2014). Electrochemical stimulation of microbial roxarsone degradation under anaerobic conditions. Environmental Science & Technology, 48, 7951-7958. [6] Pang, C., Ren, X., Zhang, X., Hu, Z.*, Wang, W*. (2020). Influence of immersion depth of membrane on filtration performance of anaerobic membrane bioreactor. Environmental Science and Pollution Research. 27, 29433-29440. [7] Wang, J., Wu, B., Sierra, J. M., He, C., Hu, Z.*, Wang, W.* (2020). Influence of particle size distribution on anaerobic degradation of phenol and analysis of methanogenic microbial community. Environmental Science and Pollution Research, 1-13. [8] Wu, B., Wang, J., Hu, Z., Yuan, S., Wang, W.* (2020). Anaerobic biotransformation and potential impact of quinoline in an anaerobic methanogenic reactor treating synthetic coal gasification wastewater and response of microbial community. Journal of Hazardous Materials, 384, 121404. [9] Wu, B., He, C., Yuan, S., Hu, Z., Wang, W.* (2019). Hydrogen enrichment as a bioaugmentation tool to alleviate ammonia inhibition on anaerobic digestion of phenol-containing wastewater. Bioresource Technology, 276, 97-102. [10] He, C., Lin, W., Zheng, X., Wang, C., Hu, Z., Wang, W.* (2019). Synergistic effect of magnetite and zero-valent iron on anaerobic degradation and methanogenesis of phenol. Bioresource Technology, 291, 121874. [11] Wang, W.*, Yang, K., Sierra, J. M., Zhang, X., Yuan, S., Hu, Z.* (2017). Potential impact of methyl isobutyl ketone (MIBK) on phenols degradation in an UASB reactor and its degradation properties. Journal of Hazardous Materials, 333, 73-79. [12] Wang, W.*, Ren, X., Yang, K., Hu, Z.*, Yuan, S. (2017). Inhibition of ammonia on anaerobic digestion of synthetic coal gasification wastewater and recovery using struvite precipitation. Journal of Hazardous Materials, 340, 152-159. [13] Wang, W.*, Wu, B., Pan, S., Yang, K., Hu, Z.*, Yuan, S. (2017). Performance robustness of the UASB reactors treating saline phenolic wastewater and analysis of microbial community structure. Journal of Hazardous Materials, 331, 21-27. [14] Pang, C., He, C., Hu, Z., Yuan, S., Wang, W.* (2019). Aggravation of membrane fouling and methane leakage by a three-phase separator in an external anaerobic ceramic membrane bioreactor. Frontiers of Environmental Science & Engineering in China, 13(4), 50. [15] Tang, R., Chen, H., Yuan, S., Zhan, X., Wang, W.*, Hu, Z.* (2017). Arsenic accumulation and volatilization in a 260-day cultured upflow anaerobic sludge blanket (UASB) reactor. Chemical Engineering Journal, 277-283. |
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