性别：男学位：博士职务：市政工程系主任所属学院：土木与水利工程学院社会兼职：E-mail：dwhit@126.com
个人简介
王伟，教授，博士生导师，现任合肥工业大学市政工程系主任兼支部书记，主要从事水处理技术研究、应用和教学工作。获得安徽省科学技术一等奖和黑龙江省科学技术一等奖等4项省部级奖励，在EST、JHM、WR、BITE等国际著名刊物发表SCI收录论文60余篇，授权国家发明专利10余项。在社会兼职方面，担任《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。

教育经历2001.09 - 2005.06 安徽建筑工业学院（安徽建筑大学） 给排水工程 学士
2005.09 - 2007.06 哈尔滨工业大学 市政工程 硕士
2007.09 - 2011.06 哈尔滨工业大学 市政工程 博士

工作经历2020年11月―至今 合肥工业大学市政工程系 教授、系主任
2020年01月―至今 合肥工业大学市政工程系 教授
2019年04月―至今 合肥工业大学市政工程系 系支部书记
2014年10月-2015年09月 荷兰代尔夫特理工大学 博士后
2014年01月―2019年12月 合肥工业大学市政工程系 副教授
2012年10月―2019年03月 合肥工业大学市政工程系 系副主任
2011年07月―2013年12月 合肥工业大学市政工程系 讲师

主讲课程城市水工程仪表与控制、水质工程学II

研究方向污废水厌氧生物处理和控制技术研究
污废水厌氧氨氧化脱氮新技术研究
污废水物化处理新技术研究
剩余污泥处置和有机固废资源化新技术研究

主持科研项目[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，2019-2022年；
[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，2020-2023年；
[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，2013-2015年；
[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，2012-2014年；
[5] 合肥工业大学应用培育计划项目：恶臭污染物生物处理一体化装备研究，2019-2020年；
[6] 合肥工业大学学术新人提升计划B项目：富集酚类降解菌群的厌氧膜生物反应器构建及膜污染控制研究，2016-2017年；
[7] 中科院重点实验室开放课题项目：含酚废水厌氧膜生物处理过程中膜污染控制及影响机制研究，2018-2019年；
[8] 多家企业委托技术研发项目：农村污水处理、工业废水处理、垃圾渗滤液处理、污泥资源化处理等。

参加科研项目[1] 国家自然科学基金区域创新发展联合基金重点项目：养殖废水碳氮磷资源化新技术及智能控制的研究, 2020-2023年；
[2] 安徽省科技重大专项：养殖废水厌氧氨氧化高效脱氮关键装备研发与示范，2018-2020年；
[3] 国家水污染控制重大专项：重点点源氮磷消减与污染控制技术及工程示范，2012-2015年。

获得奖励情况[1] 2019年，智能污水处理一体化设备，安徽省科技进步三等奖；
[2] 2015年，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；
[3] 2012年，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；
[4] 2012年，Anaerobic co-metabolism of coal gasification wastewater with methanol addition——国际水协（IWA）2012年东亚区域应用研究项目创新荣誉奖；
[5] 2010年，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；
[6] 2007年，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。

发表科研论文[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] Deng, J., Xiao, L., Yuan, S., Wang, W., Zhan, X., Hu, Z. (2021). Activation of peroxymonosulfate by CoFeNi layered double hydroxide/graphene oxide (LDH/GO) for the degradation of gatifloxacin. Separation and Purification Technology, 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] He, C., Yang, C., Yuan, S., Hu, Z., Wang, W. (2020). Effects of sludge retention time on the performance of anaerobic ceramic membrane bioreactor treating high-strength phenol wastewater. Archaea, 2020, 1-10.
[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.
[16] Deng, J., Wu, G., Yuan, S., Zhan, X., Wang, W.*, Hu, Z.* (2019). Ciprofloxacin degradation in UV/chlorine advanced oxidation process: Influencing factors, mechanisms and degradation pathways. Journal of Photochemistry and Photobiology A-chemistry, 151-158.
[17] Zhang, B., Dong, F., He, C., Hu, Z., Yuan, S., Wang, W.* (2019). Enhancement of Performance Robustness and Nitrogen Removal by Coupling Anammox with Denitrification in a Corncob-Dosed Reactor. Environmental Engineering Science, 36(12), 1482-1490.
[18] Lin, J., Yuan, S., Wang, W.*, Hu, Z.*, Yu, H. (2016). Precipitation of organic arsenic compounds and their degradation products during struvite formation. Journal of Hazardous Materials, 317, 90-96.
[19] Ji, P., Tang, R., He, P., Yuan, S., Wang, W.*, Hu, Z.* (2017). Characterization of arsenic species in the anaerobic granular sludge treating roxarsone-contaminated wastewater. Chemical Engineering Journal, 327, 162-168.
[20] Wang, F., Wang, W., Yuan, S., Wang, W.*, Hu, Z.* (2017). Comparison of UV/H2O2 and UV/PS processes for the degradation of thiamphenicol in aqueous solution. Journal of Photochemistry and Photobiology A-chemistry, 79-88.
[21] Wang, W.*, Pan, S., Xu, R., Zhang, J., Wang, S., Shen, J. (2015). Competitive adsorption behaviors, characteristics, and dynamics of phenol, cresols, and dihydric phenols onto granular activated carbon. Desalination and Water Treatment, 56(3), 770-778.
[22] Qiu, C., Yang, C., He, C., Gong, M., Hu, Z., Wang, W.* (2019). Controlling sludge retention time to alleviate inhibition of nitrosation and nitration by accumulated aluminum in an A/O-MBR. International Biodeterioration & Biodegradation, 144, 104755.
[23] Wang, W.*, Wang, S., Zhang, J., Hu, Z.*, Zhang, X., Sierra, J. M. (2016). Degradation kinetics of pentachlorophenol and changes in anaerobic microbial community with different dosing modes of co-substrate and zero-valent iron. International Biodeterioration & Biodegradation, 113, 126-133.
[24] Yan, P., Yuan, S., Wang, W.*, Hu, Z*, Mu, Y, Yu, H. (2018). Efficiency of sequential UV/H2O2and biofilm process for the treatment of secondary effluent. Environmental Science and Pollution Research, 26, 577-585.
[25] Yang, C., Qiu, C., He, C., Hu, Z., Wang, W.* (2019). Influence of aluminium accumulation on biological nitrification and phosphorus removal in an anoxic–oxic membrane bioreactor. Environmental Science and Pollution Research, 26(27), 28127-28134.
[26] He, P., Wu, G., Tang, R., Ji, P., Yuan, S., Wang, W.*, Hu, Z.* (2018). Influence of arsanilic acid, Cu2+, PO43– and their interaction on anaerobic digestion of pig manure. Frontiers of Environmental Science & Engineering in China, 12(2), 9.
[27] Shui, M., Ji, F., Tang, R., Yuan, S., Zhan, X., Wang, W.*, Hu, Z.* (2016). Impact of roxarsone on the UASB reactor performance and its degradation. Frontiers of Environmental Science & Engineering in China, 10(6), 4.
[28] Wang, W.*, Wang, S., Feng, J., Yuan, S., Hu, Z.*, Sierra, J. M., Zhang, X. (2016). Kinetics of hydroquinone oxidation by a wire–cylinder dielectric barrier discharge reactor. Desalination and Water Treatment, 57(60), 29212-29219.
[29] Wang, S., Ma, C., Pang, C., Hu, Z., Wang, W.* (2019). Membrane fouling and performance of anaerobic ceramic membrane bioreactor treating phenol- and quinoline-containing wastewater: granular activated carbon vs polyaluminum chloride. Environmental Science and Pollution Research, 26(33), 34167-34176.
[30] Wang, W.*, Zhang, J., Wang, S., Shen, J., Pan, S. (2014). Oxygen-limited aeration for relieving the impact of phenolic compounds in anaerobic treatment of coal gasification wastewater. International Biodeterioration & Biodegradation, 95, 110-116.
[31] Wang, W.*, Pang, C., Sierra, J. M., Hu, Z., Ren, X. (2019). Performance and recovery of a completely separated partial nitritation and anammox process treating phenol-containing wastewater. Environmental Science and Pollution Research, 26(33), 33917-33926.
[32] Meng, J., Xu, F., Yuan, S., Mu, Y., Wang, W.*, Hu, Z.* (2019). Photocatalytic oxidation of roxarsone using riboflavin-derivative as a photosensitizer. Chemical Engineering Journal, 355, 130-136.
[33] Wang, W.*, Wang, S., Ren, X., Hu, Z.*, Yuan, S. (2017). Rapid establishment of phenol- and quinoline-degrading consortia driven by the scoured cake layer in an anaerobic baffled ceramic membrane bioreactor. Environmental Science and Pollution Research, 24(33), 26125-26135.
[34] Chen, K., Ji, F., Yuan, S., Hao, W., Wang, W.*, Hu, Z.* (2017). The performance of activated sludge exposed to arsanilic acid and amprolium hydrochloride in sequencing batch reactors. International Biodeterioration & Biodegradation, 116, 260-265.
[35] Wang, W.*, Han, H. (2012). Recovery strategies for tackling the impact of phenolic compounds in a UASB reactor treating coal gasification wastewater. Bioresource Technology, 103(1), 95-100.
[36] Wang, W., Han, H.*, Yuan, M., Li, H., Fang, F., Wang, K. (2011). Treatment of coal gasification wastewater by a two-continuous UASB system with step-feed for COD and phenols removal. Bioresource Technology, 102(9), 5454-5460.
[37] Wang, W., Ma, W., Han, H.*, Li, H., Yuan, M. (2011). Thermophilic anaerobic digestion of Lurgi coal gasification wastewater in a UASB reactor. Bioresource Technology, 102(3), 2441-2447.
[38] Wang, W., Han, H.*, Yuan, M., Li, H. (2010). Enhanced anaerobic biodegradability of real coal gasification wastewater with methanol addition. Journal of Environmental Sciences-china, 22(12), 1868-1874.
[39] 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.