姓名：王偉

學歷學位：工學博士

職稱：教授/博士生導師

職務：系主任兼系支部書記

主講課程：水質工程學II，城市水工程儀表與控制，環境工程概論

E-mail：dwhit@126.com

個人簡歷：

王偉，教授，博士生導師，主要從事水科學、技術和工程應用研究，研究興趣包括：（一）水處理及再生水利用，涉及難降解有機物、氮磷及污泥處置等問題，涉及生物工藝耦合物化手段協同-集成處理的新理論和新工藝;（二）有機物和二氧化碳資源利用與能量轉化，涉及二氧化碳、餐廚、剩余污泥、有機秸稈、畜禽廢棄物等資源利用與能量轉化的原理、方法、材料、反應器與應用;（三）流域水資源利用和水污染治理，涉及城鄉水資源利用預警和調度、河庫廠網水質水量變化規律、再生水回用風險和生態安全評估等問題。獲得安徽省科技進步一等獎2次和黑龍江省科技進步一等獎1次，在EST、JHM、WR、BITE等國際著名刊物發表SCI收錄論文80余篇，授權國家發明專利10余項。在社會兼職方面，擔任《中國給水排水》和《工業水處理》首屆青年編委、安徽省農村水環境治理與水資源利用工程實驗室副主任、工業廢水及環境治理安徽省重點實驗室首屆學術委員會副主任委員、國家自然基金委項目通訊評審專家、安徽省科技項目評審專家。

教育經歷：

2007年09月―2011年07月  哈爾濱工業大學    市政工程專業           博士

2005年09月―2007年07月  哈爾濱工業大學    市政工程專業           碩士

2001年09月―2005年07月  安徽建筑工業學院  給水排水工程專業   學士

工作經歷：

2020年11月―至今                合肥工業大學市政工程系          教授、系主任

2022年04月―2023年04月    合肥市水務局副局長、黨組成員（掛職）

2021年03月―2022年03月    合肥市水務局副局長、黨組成員（掛職）

2020年01月―至今                合肥工業大學市政工程系          教授

2019年04月―至今                合肥工業大學市政工程系          副教授、系支部書記

2014年10月-2015年09月    荷蘭代爾夫特理工大學             博士后

2014年01月―2019年12月    合肥工業大學市政工程系          副教授

2012年10月―2019年03月    合肥工業大學市政工程系          系副主任

2011年07月―2013年12月    合肥工業大學市政工程系          講師

主持科研項目：

（1）國家重點研發計劃項目子課題：針對有毒工業廢水的內外循環互補的高效厭氧技術，2020-2023年；

（2）國家自然科學基金面上項目：酚類化合物厭氧互營降解轉化機制及調控研究，2019-2022年；

（3）國家自然科學基金青年項目：間歇共基質調控厭氧共代謝分解難降解有機物的作用機制，2013-2015年；

（4）安徽省自然科學基金青年項目：厭氧強化處理煤氣化廢水中酚類化合物作用機理的研究，2012-2014年；

（5）合肥工業大學應用培育計劃項目：惡臭污染物生物處理一體化裝備研究，2019-2020年；

（6）合肥工業大學學術新人提升計劃B項目：富集酚類降解菌群的厭氧膜生物反應器構建及膜污染控制研究，2016-2017年；

（7）中科院重點實驗室開放課題項目：含酚廢水厭氧膜生物處理過程中膜污染控制及影響機制研究，2018-2019年；

（8）多家企業委托技術研發項目：農村污水處理、工業廢水處理、垃圾滲濾液處理、污泥資源化處理等。

獲得獎勵情況：

（1）2019年，智能污水處理一體化設備，安徽省科技進步三等獎；

（2）2015年，污水處理廠的模擬、監測和優化運行關鍵技術應用，安徽省科學技術一等獎；

（3）2012年，多級生化組合工藝處理煤化工廢水技術及應用，黑龍江省科學技術二等獎；

（4）2012年，Anaerobic co-metabolism of coal gasification wastewater with methanol addition——國際水協（IWA）2012年東亞區域應用研究項目創新榮譽獎；

（5）2010年，有毒（有機）工業廢水物化/生化組合工藝處理效能與工程應用，黑龍江省科學技術一等獎；

（6）2007年，兩級兩相厭氧工藝處理高濃度化工廢水的技術研究，中國石油和化學工業科技進步二等獎。

發表科研論文：

(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/H2O2 and 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.

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在讀碩士研究生

2020級

李永存，黃志強，肖岳冰，胡旭坤，王志明，張燁，郭印

2019級

黃海波，劉聽俠，歐華，彭星源，申凱宇，徐國慶

2018級

林惟實，鄭曉浩，王傳亞

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畢業碩士研究生

2020屆

王菁，裘誠剛，張斌

2019屆

楊傳賀，逄超

2018屆

吳奔騰，任雪松

2017屆

王順，楊凱

2016屆

潘尚磊

2015屆

張靜