科学研究

毕业生风彩

团建活动

1. 国家自然科学基金国际合作项目，化工行业挥发性有机物全浓度范围协同控制与资源回收关键技术研究（21961160743），2020-2022，主持

2. 天津市科技支撑项目，新冠病毒肺炎的传播机制与聚集性病例感控关键技术研究（20ZXGBSY00100），2020-2021，参与

3. 天津市科技计划项目，城市河道水体净化与水质保持技术平台（17PTGCCX00210），2017-2019，主持

4. 国家自然科学基金项目，气体滤塔尾气生物气溶胶和内毒素的排放特征与控制技术研究（51678402），2017-2020，主持

5. 国家重点研发计划政府间合作项目，再生水安全供水系统与关键技术（2016YFE0118800），2017-2020，参与

6. 国家自然科学基金重大项目，木质素的绿色催化解聚制备苯酚等重要酚类化合物（21690083），2017-2021，参与

7. 国家自然科学基金青年科学基金项目，乙二胺层层共价交联制备氧化石墨烯膜及其对微量有机物的去除机制（21707100），2018-2020，主持

8. 国家自然科学青年项目，超临界低碳醇溶剂中木质素催化转化制高附加值石油化学品的机理研究（21808163），2018-2020，主持

9. 分离膜与膜过程国家重点实验室开放课题，乙二胺共价交联氧化石墨烯膜的制备及优化（M2-201602），2016-2018，主持

10. 教育部留学回国启动基金，氧化物脱硝催化剂提高低温活性和耐硫性的研究（2015D4-0006），2015-2016，主持

11. 国家科技重大专项，海河干流上游段水生态环境质量提升关键技术与工程示范（2014ZX07203-009-01）， 2015-2018，主持

个人简介

王灿，男，天津大学教授、博士生导师，入选天津市创新人才推进计划，获得天津市青年科技优秀人才称号，入选天津市“131”创新型人才培养工程，中国环境科学学会第十届青年科技奖获得者，水业杰出青年，天津大学环境工程系副主任，“天津市河流污染控制与生态修复技术工程中心”副主任、国际水协中国青年委员会委员，中国环境科学学会挥发性有机物污染防治专业委员会委员，恶臭污染控制产业技术创新战略联盟专家委员会委员，中国土木工程学会工业给排水委员会委员，天津土木工程学会水科学分会理事。长期从事废气生物净化与生物气溶胶控制方面的研究，已出版学术专著3部，以第一或通讯作者发表期刊论文80余篇，其中SCI论文50余篇，获得授权专利19项，部分成果实现了技术转化，并进行了工程应用。

教育背景

2004-2009 清华大学 环境系（环境工程） 博士

2000-2004 同济大学 环境科学与工程学院（环境工程）学士

工作经历

2018-     天津大学环境科学与工程学院教授

2017-2018 美国佐治亚理工学院 访问学者

2013-2018 天津大学环境科学与工程学院 副教授

2009-2013 天津大学环境科学与工程学院 讲师

个人简介

陈鸿，女，天津大学讲师、硕士生导师，“天津市工业尾气资源综合利用技术工程中心”副主任、长期从事催化反应基础及应用基础研究，主要包括生物质能源利用，挥发性有机物去除，光催化等方向，具有丰富的科研经历和优异的科研能力，已发表科技论文30余篇，其中SCI收录论文20篇。多次在北美化学会会议、亚太化学工程大会、亚太催化大会等国际学术会议中做报告展示，得到同领域专家的高度评价。

教育背景

2006.3-2010.1 天大化工，工业催化博士

2003.9-2006.3 河北工业大学 化工学院化学工艺硕士

1999.9-2003.7 河北工业大学化工学院化工工艺学士

工作经历

2013-至今   天津大学，环境科学与工程学院，讲师

2014-2015 美国康涅狄格大学，化学系，访问学者

2011-2013 南洋理工大学，化学与生物医药化工学院化工系，博士后

2010-2011 天津大学，内燃机燃烧学国家重点实验室，博士后

个人简介

赵欣，男，天津大学环境学院讲师、硕士生导师。长期从事水处理技术与工艺、污水再生利用等方面的基础与应用研究，主要包括膜法水处理技术、电化学高级氧化技术、再生水水质安全评价、管网输配水质安全保障等。授课主要有建筑给排水、环境监测分析等。参与出版学术专著3部，发表SCI论文20余篇，曾获得天津市科学技术奖三等奖、天津大学本科生毕业设计优秀指导教师等奖励。

教育背景

2008-2014  清华大学环境学院（环境工程）  博士

2004-2008  清华大学环境系（环境工程）  学士

工作经历

2014-至今  天津大学，环境科学与工程学院，讲师

2019-2020 美国佐治亚理工学院 访问学者

1.有机废气生物净化技术；

2.生物气溶胶检测与控制；

3.催化反应基础及在生物控制中的应用；

4.水和空气消毒技术；

5 污水再生利用技术(膜法/电化学)。

2020年

[1]  Hu XR, Han MF, Wang C*, Yang NY, Wang YC, DuanEH, Hsi HC, Deng JG. A short review of bioaerosol emissions from gas bioreactors: Health threats, influencing factors and control technologies,Chemosphere. 2020, accepted.

[2]  Yang YN，Wang C*， Han MF. Gel-encapsulated microorganisms used as a strategy torapidly recover biofilters after starvation interruption, Journal of Environmental Management. 2020, 261, 110237.

[3]  Han MF, Wang C*, Yang NY, Hu XR, Wang YC, Duan EH, Ren HW, Hsi HC, Deng JG. Performance enhancement of a biofilter with pH buffering and filter bed supporting material in removal of chlorobenzene,Chemosphere. 2020, 251, 126358.

[4]  Chen M , Pan S, Zhang C, Wang C*, Zhang WQ,Chen ZF, Zhao X, Zhao YX. Electrochemical oxidation of reverse osmosis concentrates using enhanced TiO2-NTA/SnO2-Sb anodes with/without PbO2 layer.Chemical Engineering Journal, 2020, 399, 125756.

[5]  Chen M, Wang C*, Zhao X, Wang YC, Zhang WQ,Chen ZF, Meng XY, Luo JM, Crittenden J. Development of a highly efficient electrochemical flow-through anode based on inner insite enhanced TiO2-nanotubes array. Environment International, 2020, 140, 105813.

[6]  Chen M, Zhao X*, Wang C*, Pan S, Zhang C, WangYC. Electrochemical oxidation of reverse osmosis concentrates using  macroporous Ti-ENTA/SnO2-Sb flow-throughanode：degradation performance, energy efficiency and toxicity assessment.Journal of Hazardous Materials, 2020 (accepted).

[7]  Chen M, Wang C*, Zhao X*, Wang YC, Zhang WQ,Chen ZF, Meng XY, Luo JM, Crittenden J. Development of a highly efficient electrochemical flow-through anode based on inner in-site enhanced TiO2-nanotubes array. Environment International, 2020, 140: 105813.

[8]  Chen M, Pan S, Zhang C, Wang C*, Zhang WQ,Chen ZF, Zhao X*, Zhao YX. Electrochemical oxidation of reverse osmosis concentrates using enhanced TiO2-NTA/SnO2-Sb anodes with/without PbO2 layer.Chemical Engineering Journal, 2020, 399: 125756.

[9]  Mo YH*, Du MM, Yuan TT, Liu MX, Wang H, He BQ,Li JX, Zhao X. Enhanced anodic oxidation and energy saving for dye removal by integrating O2-reducing biocathode into electrocatalytic reactor. Chemosphere, 2020, 252: 126460.

2019年

[10]  Chen M，Wang C*， Wang YC，Meng XY，ChenZF，Zhang WQ，Tan G. Kinetic,Mechanism and Mass transfer impact on electrochemical oxidation of MIT usingTi-enhanced nanotube arrays/SnO2-Sb anode, Electrochimica Acta. 2019, 323,134779.

[11]  Wang C*, Hu XR, Zhang, ZW. Airborne disinfection using microwave-based technology: energy efficient and distinctin activation mechanism compared with waterborne disinfection. Journal ofAerosol Science, 2019,137.

[12]  Wang YZ, Song L, Wang C*. Distribution of antibiotic resistance genes and bacteria from six atmospheric environments:exposure risk to human, Science of the Total Environment. 2019, 694,133750.

[13]  Wang YC, Chen M, Wang C*, Meng XY, Zhang WQ,Chen ZF, Crittenden J. Electrochemical degradation of methylisothiazolinone by using Ti/SnO2-Sb2O3/α, β-PbO2 electrode: Kinetics, energy efficiency, oxidation mechanism and degradation pathway. Chemical Engineering Journal, 2019, 374:626-636.

[14]  Wang C*, Zhang Z W, Liu H. Microwave-inducedrelease and degradation of airborne endotoxins from Escherichia colibioaerosol, Journal of Hazardous Materials, 2019, 366: 27-33.

[15]  Wang C*, Lu S Y, Zhang Z W. Inactivation of airborne bacteria using different UV sources: Performance modeling, energy utilization, and endotoxin degradation, Science of The Total Environment, 2019,655 (10): 787-795.

[16] Han M F, Wang C*, Yang N Y, Li Y F.Determination of design parameters and cost-effectiveness analysis for atwo-liquid phase biofilter treating gaseous dichloromethane, BiochemicalEngineering Journal, 2019, 143: 81-90.

[17] Zhe Wen, Linhao Yu, Fuhang Mai, Zewei Ma, Hong Chen*, Yongdan Li, CatalyticConversion of Microcrystalline Cellulose to Glucose and 5-Hydroxymethylfurfuralover a Niobic Acid Catalyst, Ind. Eng. Chem. Res. 2019, 58, 3817675-17681.

[18] Fei Yan, Zhe Wen, Kai Wu, Kai Cui, Fuhang Mai, Zewei Ma, Yushuai Sang, YunfeiBai, Hong Chen* and Yongdan Li，Deoxyalkylation of guaiacol using haggite structured V4O6(OH)4. Catal. Sci. Technol. 2019, 9,1922-1932.

[19] Fuhang Mai, Zhe Wen, Yunfei Bai, Zewei Ma, Kai Cui, Kai Wu, Fei Yan, HongChen*, Yongdan Li, Selective Conversion of Enzymatic Hydrolysis Lignin into Alkylphenols in Supercritical Ethanol over a WO3/γ-Al2O3 Catalyst, Ind. Eng.Chem. Res. 2019, 58, 2410255-10263.

[20] Fuhang Mai, Kai Cui, Zhe Wen, Kai Wu, Hong Chen*, Yongdan Li, Highly selective conversion of guaiacol as a lignin model compound to tert-butylphenols insupercritical ethanol over a H2WO4 catalyst，RSC Adv., 2019,9, 2764-2771.

2018年

[21] Han M F, Wang C*, Fu Y. Treatment of hydrophobic volatile organic compounds using two-liquid phase biofilters，Science of the Total Environment, 2018, (640-641): 1447-1454.

[22] Wang N Y, Wang C*. Effects of microcystin-LR on the tissue growth and physiological responses of the aquaticplant Iris pseudacorus L. Aquatic Toxicology, 2018, 200: 197-205.

[23] Han M F, Liu H, Wang C*. Comparison of physical technologies for biomass control in a biofilter treating gaseous toluene, Journal of the Air & Waste Management Association, 2018, 1995:1-8.

[24] Wang Y C, Fu Y, Wang C*. Dissimilaremission characteristics of bioaerosol and suspended particles emitted from gaseous biofilters, Aerosol and Air Quality, 2018, 18: 1874-1885.

[25] Wang Y C, Wang C*, Shi S, Fang S. Improved degradation and mechanism investigation of paper making wastewater treatment by manganese ehhanced Fenton reaction, Water Science Technology, 2018, 77(10):2509-2516.

[26] Zhang Z W, Xiao L, Ji M, Wang C*. 2018,Assessment of the spatial–temporal variations on the water quality of stagnant Haihe River, Tianjin, North China. Water Science and Technology: Water supply,2018, 18(3): 1103-1116.

[27] Wang Y C, Shi S, Wang C*, Fang S. Degradation of pulp mill wastewater by a heterogeneous Fenton-like catalyst Fe/Mn supported on zeolite, Environment Protection Engineering, 2018, 44(2): 129-143.

[28] Lu S Y, Wang N Y, Wang C*. Oxidation and biotoxicity assessment of microcystin-LR using different AOPs based on UV, O3and H2O2. Frontier Environmental Science and Engineering, 2018, 12(3): 1-7.

[29] Tian Z, Wang C*, Ji M. Full-scale Dissolved air flotation (DAF) equipment for emergency treatment of eutrophic water. WaterScience and Technology, 2018. 77(7): 1802-1809.

[30] Liu H, Zhang Z W, Wen N J, Wang C*.Determination and risk assessment of airborne endotoxin concentrations in a university campus, Journal of Aerosol Science, 2018. 115: 146-157.

[31] Fei Yan, Yunfei Bai, Yushuai Sang, Linhao Yu, Kai Wu, Kai Cui, Zhe Wen, Fuhang Mai, Hong Chen,* and Yongdan Li, Facile Preparation of Haggite by Reducing V2O5in Guaiacol/Methanol Solution. Inorg. Chem. 2018, 57, 8705−8708.   

[32]  Mo YH, Zhao X*, Yuan TT, He BQ. Factors affecting the separation performance of graphene oxide membranes: mechanical support, properties of graophene oxide, and exotic species. Journal of ChemicalTechnology and Biotechnology, 2018, 93(5): 1388-1393.

[33]  Wang MQ, Tian YM, Zhao X*, Li X. The application of an efficient modified decolorizer in coagulation treatment of high color reclaimed water. Water Science & Technology, 2018, 77(9):2190-2203.

2017年

[34] Sun X, Wang C*, Ji M. Production and release of microcystin-LR during treatment using chemical algicide, Fresenius Environmental Bulletin, 2017, 26(1): 572-578.

[35] Wen N J, Liu H, Fu Y, Wang C*. Optimization and influence mechanism of sampling and analysis of airborne endotoxin based onLimulus amebocyte lysate assay, Aerosol and Air Quality Research, 2017, 17:1000-1010.

[36] Shi S, Wang C*, Fang S, Jia M H, Li X G.Removal performance and water quality analysis of paper machine white water ina full-scale wastewater treatment plant, Environmental Technology, 2017,38(11): 1443-1451.

[37] Wang N Y, Wang K, Wang C*, Comparison of different algicides on growth of Microcystis aeruginosa and microcystinrelease, as well as its removal pathway in riverways, Frontiers ofEnvironmental Science and Engineering, 2017, 11(6): 1-8.

[38] Mengmeng Chen, Xiaolei Ma, Rui Ma, Zhe Wen, Fei Yan, Hong Chen*, Yongdan Li. Ethanolysis of Kraft ligninover are duction modified MoO3 catalyst. Industrial&Engineering Chemistry Research, 2017, 56 (47), 14025–14033. ISSN:0888-5885.

[39] Kai Cui, Zewei Ma, Fei Yan, Kai Wu, Yushuai Sang, HongChen, YongdanLi. Selective conversion of guaiacol to substituted alkylphenols in supercritical ethanolover MoO3, Applied Catalysis B: Environmental, 2017, 219, 592-602.

2016年

[40] Liu X，Wang C*, Ji M, Zhou YN．Pretreatment of ultra-high concentration pharmaceutical wastewater by a combined Fenton and Electrolytic Oxidation technologies：COD reduction, biodegradability improvement and biotoxicity removal,Environmental Progress, 2016, 35(3). 772-778.

[41] Fang S, Wang C*, Chao BT. Operationg conditions on the optimization and water quality analysis on the advanced treatment of paper making wastewater by coagulation/Fenton process. Desalinationand Water Treatment, 2016, 57(27): 12755-12762.

[42] Wang D, Hu Q Y, Li M, Wang C*, Ji M.Evaluating the removal of organic fraction of commingled chemical industrial wastewater by activated sludge process augmented with powdered activated carbon[J]. Arabian Journal of Chemistry.2016, 9(S2):1951-1961. IF=3.613

[43] Hong Chen, Yihu Dai, Xinli Jia, Hao Yu,Yanhui Yang*. HighlySelective Gas-Phase Oxidation of Ethanol to Ethyl Acetate over Bi-functionalPd/Zeolite Catalysts, Green Chemistry, 2016, 18: 3048-3056.

[44] Yang Li, Xiaogang Yun, Wenqin Zhang,Yongdan Li, Hong Chen*. Facet -selective charge carrier transport, deactivation mechanism and stabilization of a Cu2O photo-electro-catalyst, Physical ChemistryChemical Physics, 2016, 18: 7023-7026.

[45] Mo YH*, Zhao X, Shen YX. Cation-dependent structural instability of graphene oxide membranes and its effect on membrane separation performance. Desalination, 2016, 399: 40-46.

[46] Song YR, Tian YM, Zhao X*, Guo H, Zhang HY.Corrosion process of ductile iron with cement mortar linings as coatings inreclaimed water. International Journal of Electrochemical Science, 2016, 11(8):7031-7047.

[47] Hu HY*, Du Y, Wu QY*, Zhao X, Tang X, ChenZ. Differences in dissolved organic matter between reclaimed water source and drinking water source. Science of the Total Environment, 2016, 551-552:133-142.

2015年

[48] Wang D, Li M, Wang C*, Ji M. Optimization and effect of powdered activated carbon addition on commingled chemical industrial wastewater treatment in a sequencing batch reactor．Desalination and Water Treatment，2015, 56(1): 24-32.

[49] Wang C*, Chen WN, Hu QY, Ji M, Gao X.Dynamic fouling behavior and cake layer structure changes in nonwoven membranebioreactor for bath wastewater treatment, Chemical Engineering Journal, 2015,264(3): 462-469.

[50] Liu X，Li Y，WangC*，et al．Cr (VI) removal by anew type of anion exchange resin DEX-Cr: Adsorption affecting factors, isotherms, kinetics, and desorption regeneration．EnvironmentalProgress & Sustainable Energy，2015, 34(2): 387-393.

[51] Hu Q Y, Wang C. Interaction of gaseous aromatic and aliphatic compounds in thermophilic biofilters[J]. Journal ofHazardous Materials.2015, 300:210-217.

[52] Hu Q Y, Wang C*, Huang K X. Biofiltration performance and characteristics of high-temperature gaseous benzene, hexane andtoluene[J]. Chemical Engineering Journal.2015, 279:689-695.

[53] Hu Q Y, Li M, Wang C*, Ji M. Influence of powdered activated carbon addition on water quality, sludge properties, and microbial characteristics in the biological treatment of commingled industrial wastewater[J]. Journal of Hazardous Materials.2015, 295:1-8.

[54] Liu X，Li Y，WangC*, Ji M．Comparison study on Cr (VI) removal by an ionex change resins of Amberlite IRA96, D301R, and DEX-Cr: isotherm, kinetics,thermodynamics, and regeneration studies．Desalination and Water Treatment，2015, 55(7)：1841-1850．

[55]Yang Li, Xiaoli Zhang, Hong Chen*, Yongdan Li. Thermal conversion synthesis ofCu2O photocathode and the promoting effects of carboncoating, CatalysisCommunications, 2015, 66:1-5.

[56]Yang Li, Néstor Guijarro Carratalá, Xiaoli Zhang, MathieuS.Prévot, XavierJeanbourquin, Kevin Sivula, Hong Chen*. Templating solgelhematite films with sacrificial copper oxide: enhancing photoanode performance with nanostructure and oxygen vacancies, ACS Applied Materials &Interfaces, 2015, 7: 16999-17007.

[57]Guanyi Chen, Wanqing Li, Hong Chen*, Beibei Yan. Progress in the aqueous-phasereforming of different biomass-derived alcohols for hydrogen production. Journal of ZhejiangUniversity-SCIENCE A, 2015, 16 (6), 491-506.

[58]Hong Chen, Xinli Jia, Yongdan Li, Changjun Liu, YanhuiYang*. Controlled surface properties of Au/ZSM5 catalysts and their effects inthe selective oxidation of ethanol, Catalysis Today, 2015, 256(1): 153-160.  

2014年

[59] Zhao X, Huang H, Hu HY*, Su C, Zhao J, Liu SM. Increase of microbial growth potential in municipal secondary effluent by coagulation. Chemosphere, 2014, 109: 14-19.

[60] Zhao X, Hu HY*, Yu T, Su C, Jiang HC, Liu SM. Effect of different molecular weight organic components on the increase of microbial growth potential of secondary effluent by ozonation. Journal ofEnvironmental Sciences, 2014, 26(11): 2190-2197.

[61] Zhao X, Hu HY*, Liu SM, Jiang F, Shi XL, LiMT, Xu XQ. Improvement of the assimilable organic carbon (AOC) analytical method for reclaimed water. Frontiers of Environmental Science and Engineering,2013, 7(4): 483-491.