王宇暉(東華大學環境科學與工程學院教師)

博士，教授，碩士生導師，國家環境損害司法鑑定人。師從國內著名水文水資源學家中國工程院院士王浩教授，從事水生態環境修複方面的研究和技術研發及套用。在水生態修復領域發表第一（通訊）SCI收錄論文40餘篇，出版專著3部，授權國家發明專利10餘項。承擔國家自然科學基金、國家重點研發計畫任務、國家科技支撐計畫任務等科研項目。獲得“大禹獎水利科技獎”特等獎，“上海市科技進步獎”二等獎，教育部“霍英東青年教師獎”三等獎，“中紡聯教學成果獎”三等獎。入選上海市科委“青年科技啟明星”計畫，東華大學“礪志計畫”。擔任《南水北調水利科技》雜誌青年編委，《Water Research》等多個期刊特邀審稿人。

2007-2012年，東華大學與中國水利水電科學研究院聯培博士，導師：王 浩 院士

2003-2007年，東華大學（中國紡織大學），環境科學專業，學士

2012-2014年，東華大學，環境科學與工程學院，講師

2014-2021年1月，東華大學，環境科學與工程學院，副教授

2021年1月起，東華大學，環境科學與工程學院，教授

《環境水文學》、《環境管理學》、《ENVIRONMENTAL MONITORING》全英文課程、《MATLAB編程與微機上機》

水生態環境修復原理與技術、河湖生態動力學模型

[1] 國家自然科學基金青年科學基金項目(No. 51309053)—微電場-人工濕地修復水體重金屬污染的效果和機理及最佳化調控

[2] 國家科技支撐計畫課題專題項目(No. 2015BAB07B09)—南水北調中線水質差異應對關鍵技術研究與套用

[3] 國家重點研發計畫專題項目—太原市高效節水與非常規水資源利用關鍵技術與示範

[3]上海市青年科技啟明星計畫C類項目(No. 19QC1401100)—nZVI-BioChar協同強化人工濕地去除水中類固醇雌激素的套用及調控機制

[4] 東華大學”勵志計畫”項目（No. B201310）—複合電極人工濕地對低C/N污水高效脫氮的機理研究

[5] 國家重點實驗室開放基金項目(No. IWHR-SKL-201313)—電極強化潛流人工濕地水質淨化的機理研究

[6] 生態環境部公益性行業專項課題專題項目(No. 201309042)—流域綜合規劃環境影響評價關鍵技術研究

[7] 上海市金山區環境管理系統開發與測試項目(No. 11315176)

[8] 中央高校基本科研業務費專項基金(No. 11315176)—生物炭基人工濕地修復水體類固醇雌激素污染的機理

[9] 國家重點基礎研究發展計畫973計畫項目專題(No. 2010CB951102)——氣候變化對黃淮海地區水循環的影響機理和水安全評估

[10] 上海市“科技行動創新計畫”社會發展領域項目(No. 17DZ1202204)—電鍍行業場地重金屬遷移轉化機制及其風險評估技術研究

[11] 上海市自然科學基金面上項目(No. 10ZR1400300)—水平潛流人工濕地新型運行工藝脫氮的機理及其模擬

[1] Li MJ, Wang YH*, Liu ZW, Sha Y, Korshin GV, Chen YYC, Metal-release potential from iron corrosion scales under stagnant and active flow, and varying water quality conditions. Water Research. 2020, 175, 115675.

[2] Si ZH, Wang YH*, Song XS, Cao X, Zhang X, Sand W. Mechanism and performance of trace metal removal by continuous-flow constructed wetlands coupled with a micro-electric field. Water Research. 2019, 164, 114937.

[3] Sun YX, Wang YH*, Cao X, Song XS. Hydraulic performance evaluation of a quasi-two dimensional constructed wetland microcosm using tracer tests and Visual MODFLOW simulation. Journal of Contaminant Hydrology. 2019, 226, 103537.

[4] Wang YH, Song XS, Li HW, Ding Y*. Removal of metals from water using a novel high rate algal pond and submerged macrophyte pond treatment reactor. Water Science & Technology. 2019, 79 (8)： 1447–1457.

[5] Wang JF, Zhu QY, Shan YG, Wang YH*, Song XS, Lei XH. A comparative study on the efficiency of biodegradable EDDS and micro-electric field on the promotion of the phytoextraction by Commelina communis L. in Cu-contaminated soils. Geoderma. 2018,314.

[6] Wang YH, Yan DH, Wang JF, Ding Y, Song XS. Effects of Elevated CO2 and Drought on Plant Physiology, Soil Carbon and Soil Enzyme Activity with Glycine max (Soybean). Pedosphere. 2017, 27(5)： 846-855.

[7] Wang JF, Song XS*, Wang YH*, Bai JH, Li MJ, Dong GQ, Lin FD, Lv YF, Yan DH. Bioenergy generation and rhizodegradation as affected by microbial community distribution in a coupled constructed wetland-microbial fuel cell system associated with three macrophytes. Science of Total Environment. 2017, 607-608(12)： 53-62.

[8] Wang JF, Song XS, Wang YH*, Bai JH, Bai H, Yan DM, Cao Yin, Li YH, Yu ZL, Dong GQ. Bioelectricity generation, contaminant removal and bacterial community distribution as affected by substrate material size and aquatic macrophyte in constructed wetland-microbial fuel cell. Bioresource Technology. 2017, 245(12)： 372-378.

[9] Wang JF, Wang YH*, Bai JH, Liu ZW, Song XS, Yan DM, Abiyu A, Zhao ZM, Yan DH. High efficiency of inorganic nitrogen removal by integrating biofilm-electrode with constructed wetland： Autotrophic denitrifying bacteria analysis. Bioresource Technology. 2017, 227(3)： 7-14.

[10] Wang JF, Song XS, Wang YH*, Zhao ZM, Wang BD, Yan DH. Effects of electrode material and substrate concentration on the bioenergy output and wastewater treatment in air-cathode microbial fuel cell integrating with constructed wetland. Ecological Engineering. 2017, 99(2)： 191-198.

[11] Ding Y, Wang W, Liu XP, Song XS, Wang YH*. Ullman JL. Intensified nitrogen removal of constructed wetland by novel integration of high rate algal pond biotechnology. Bioresource Technology. 2016, 219(11)： 757-761.

[12] Wang W, Ding Y, Wang YH*, Song SX, Ambrose RF, Ullman JL. Intensified nitrogen removal in immobilized nitrifier enhanced constructed wetlands with external carbon addition. Bioresource Technology. 2016, 218(10)： 1261-1265.

[13] Wang W, Ding Y, Wang YH*, Song XS, Ambrose RF, Ullman JL, Winfrey BK, Wang JF, Gong J. Treatment of rich ammonia nitrogen wastewater with polyvinyl alcohol immobilized nitrifier biofortified constructed wetlands. Ecological Engineering. 2016, 94(9)： 7-11.

[14] Zhao ZM, Song XS*, Wang YH*, Wang DY, Wang SY, He Y, Ding Y, Wang W, Yan DH, Wang JF. Effects of algal ponds on vertical flow constructed wetlands under different sewage application techniques. Ecological Engineering. 2016, 93(8)： 120-128.

[15] Song XS, Wang YH*, Wang SY, Yan DH. Addition of Fe2+ increase nitrate removal in vertical subsurface flow constructed wetlands. Ecological Engineering. 2016, 91(6)： 487-494.

[16] He Y, Wang YH*, Song XS. High-effective denitrification of low C/N ratios wastewater by constructed wetland (CW) combined with biofilm-electrode reactor (BER). Bioresource Technology. 2016, 203(3)： 245-251.

[17] Wang YH, Wang JF, Zhao XX*, Song XS, Gong J. The Inhibition and Adaptability of Four Wetland Plant Species to High Concentration of Ammonia Wastewater and Nitrogen Removal Efficiency in Constructed Wetlands. Bioresource Technology. 2016, 202(2)：198-205.

[18] Wang YH, Liao WH, Ding Y, Wang X, Jiang YZ, Song XS, Lei XH*. Water resource spatiotemporal pattern evaluation of the upstream Yangtze River corresponding to climate changes. Quaternary International. 2015, 380-381(9)： 187-196.

[19] Song XS, Ding Y, Wang YH*, Wang W, Wang G, Zhou B. Comparative study of nitrogen removal and bio-film clogging for three filter media packing strategies in vertical flow constructed wetlands. Ecological Engineering. 2015, 74(1)： 1-7.

[20] Ding Y, Wang W, Song XS*, Wang G, Wang YH*. Effect of spray aeration on organics and nitrogen removal in vertical subsurface flow constructed wetland. Chemosphere, 2014, 117(12)： 502-505.

[21] Wang YH, Jiang YZ, Liao WH, Gao P, Huang XM, Wang H, Song XS, Lei XH. 3-D hydro-environmental simulation of Miyun reservoir, Beijin. Journal of Hydro-environment Research, 2014, 8(4)： 383-395.

[22] Ding Y, Wang W, Song XS, Wang YH*. Spatial distribution characteristics of environmental parameters and nitrogenous compounds in horizontal subsurface flow constructed wetland treating high nitrogen-content wastewater. Ecological Engineering. 2014, 70(9)： 446-449.

[23] Wang YH, Song XS, Liao WH, Niu RH, Wang W, Ding Y, Wang Y, Yan DH. Impacts of inlet-outlet configuration, flow rate and filter size on hydraulic behavior of quasi-2-dimensional horizontal constructed wetland： NaCl and dye tracer test. Ecological Engineering. 2014, 69(8)： 177-185.

[24] Wang YH, Song SX, Ding Y, Niu RH, Zhao XX, Yan DH. The impact of influent mode on nitrogen removal in horizontal subsurface flow constructed wetlands： A simple analysis of hydraulic efficiency and nutrient distribution. Ecological Engineering. 2013, 60(11)： 271-275.

[1] 王宇暉, 薛偉, 廖衛紅, 雷曉輝, 著. 水文模擬預測方法和套用The Method and Application of Hydrological Modeling, 2015. 中國水利水電出版社. ISBN： 978-7-5170-3064-5.

[2] 王宇暉, 廖衛紅, 雷曉輝, 宋新山, 著. 流域水量水質聯合模擬技術與套用, 2015. 中國水利水電出版社. ISBN： 978-7-5170-3100-0.

[3] 王俊峰，宋新山，劉昭偉，王宇暉，著. Micro-electric Field or MFC Constructed Wetlands for Water Purification, 2018. 中國水利水電出版社. ISBN： 978-7-5170-6453-4.

專利授權

[1]低C/N生活污水高效脫氮的複合電極水平潛流人工濕地裝置，發明專利，ZL201310122176.X

[2] 一種高效處理有機污水的微生物燃料電池人工濕地，發明專利，ZL201410001954.4

[3] 一種地熱自暖水平潛流人工濕地污水處理系統，發明專利，ZL2014101393633

[4] 一種間歇式運行的垂直流人工濕地增氧脫氮系統, 發明專利, ZL2014100026158.X

[5] 一體化硝化反硝化自驅動微電場強化人工濕地的裝置，發明專利, ZL201510256060.4

[6] 一種多孔介質濾床懸浮顆粒物堵塞形態可視化分析系統，發明專利，ZL20161053713.7

[6] 一種人工濕地水動力研究實驗裝置，實用新型，ZL201320206442.2

[7] 一種藻菌共生表面流複合人工濕地系統，實用新型，ZL201320449052.8

[8] 一種占地面積小的塘床耦聯複合型人工濕地淨水系統，實用新型，ZL201320637308.8

[9] 間歇式運行的垂直流人工濕地增氧脫氮系統，實用新型，ZL201420003412.6

[10] 一種可輔助曝氣及以反衝洗措施解決堵塞的人工濕地，實用新型，ZL201420293699.0

[11] 一種用中空纖維膜模擬植物根系進行微曝氣的人工濕地，實用新型，ZL201420363732.2

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