职称：教授

职务：副院长（分管学院本科教学工作、学院实验室建设、实验室安全及设备管理工作）

系所：环境科学与工程系

办公室：环化学院432室

电话：021-66137748

Email：huangxin2008@shu.edu.cn

个人简介：

2008年获同济大学博士学位，2008年-至今上海大学环境科学与工程系工作，历任讲师、副教授、教授。研究方向为水处理技术、水系统与水规划。美国Montclair州立大学访问学者，IWA（国际水协）会员，中国化学会会员。在Water Research, Chemical Engineering Journal, Chemosphere,中国环境科学等国内、外核心期刊上发表论文30余篇，担任国际期刊审稿人。获国家发明专利授权7项，实用新型专利授权2项。主持国家自然科学面上项目(51678351)、青年基金项目(50908138)、上海市水务局咨询项目（沪水科16-03，17-05）、上海市科委科技攻关重点项目、国家科技重大水专项子课题、上海市教委高校选拔培养青年教师专项基金等以及多项工程咨询项目。2017年上海市教委“汇创青春”环境设计类竞赛优秀指导教师。

学术经历：

2008年 获同济大学市政工程系（给水排水）博士学位

2008年-至今 上海大学环境科学与工程系，讲师、副教授、教授

2013-2014年 美国蒙特克莱尔州立大学访问学者

研究方向：

饮用水处理理论与技术

水系统与水规划

代表性成果：

[1]“Efficient activation of intercalated persulfate via a composite of reduced graphene oxide and layered double hydroxide”, Journal of Hazardous Materials, 2020, 122051.

[2]“Cycle of Ni(II)-Ni(III)-Ni(II) in Ni-doped layered double hydroxides for activation of intercalated peroxydisulfate”, Chemical Engineering Journal, 2020, 123937.

[3]“Evaluation of heavy metals stability and phosphate mobility in the remediation of sediment by calcium nitrate”, Water environment research, 2020, 92(7):1017-1026.

[4]“Simultaneous recovery of phosphorus with nickel purification in nickel-plating wastewater via Fe/C activated H2O2 oxidation”, Chemical Engineering Journal, 2020, 122702 (ESI高被引论文，热点论文).

[5]“Enhancing oxidative capability of Ferrate(VI) for oxidative destruction of phenol in water through intercalation of Ferrate(VI) into layered double hydroxide”, Applied Clay Science, 2020, 171:48-56.

[6]“Synergic thermal activation of peroxydisulfate intercalated Mg/Al layered double hydroxide at a low temperature”, Chemical Engineering Journal, 2019,363:133-140.

[7] “The predominant phytoplankton of Pseudoanabaena holding specific biosynthesis gene-derived occurrence of 2-MIB in a drinking water reservoir”, Environmental Science And Pollution Research International, 2018, 25(19):134-142.

[8] “Efficient Low Temperature Hydrothermal Carbonization of Chinese Reed for Biochar with High Energy Density”, Energies, 2017, 10(12):2094-2010.

[9]“Novel activation of persulfate by its intercalation into Mg/Al-layered double hydroxide: Enhancement of non-radical oxidation”, Chemical Engineering Journal, 2017,328:66-73.

[10]“Bromate inhibition by reduced graphene oxide in thermal/PMS process”, Water Research, 2017,122:701-707.

[11]“Evaluation of heavy metal mobilization in creek sediment: Influence of RAC values and ambient environmental factors”, Science of the Total Environment, 2017,607-608:1339-1347.

[12] “Formation of bromate during ferrate(VI) oxidation of bromide in water”, Chemosphere, 2016, 155:528-533.

[13] “Bromate oxidized from bromide during sonolytic ozonation”, Ultrasonics Sonochemistry, 2015,22(1):139-143.

[14] “Photocatalytic decomposition of bromate ion by the UV/P25-Graphene processes”, Water Research, 2014,57(1): 1-7.

[15] 一种活化过硫酸盐降解水中有机物污染物的方法，ZL201510826485.4

[16] 利用石墨烯纳米银复合物增强拉曼散射检测水中2-MIB的方法，ZL201410564722.X

[17] 一种催化臭氧化抑制溴酸盐生成的方法，ZL201410210644.3

[18] 一种新型臭氧管道在线混合器，ZL201420229663.6

[19] 不同光电倍增管电压下三维光谱数据的峰值换算方法，ZL201310666446.3

科研项目：

1. 上海城投水务集团，上海市阶梯水价后评估研究，2020.9-2020.12(负责)

2. 上海城投原水公司，金泽水库藻类及异嗅防控关键技术研究与应用，2018.6.30-2020.5.31(负责)

3. 上海城市水资源开发利用国家工程中心，活性炭挂膜中试检测分析，2018.9-2019.9(负责)

4. 上海市供水管理处，居民小区二次供水设施水质铜绿假单胞菌等检测项目，2017.1-2020.12(负责)

5. 上海市水务局，上海市居民住宅二次供水设施防冻能力调查与评估，2017.7-2018.12(负责)

6. 国家自然科学基金，插层激发的过硫酸盐非自由基氧化体系与同步抑制消毒副产物研究，2017.1-2020.12(负责)

7. 上海市水务局，居民用户阶梯水价实施效果跟踪评价研究，2016.6-2017.12(负责)

8. 上海市科委科技攻关重点项目，青草沙水库典型异嗅物质控制关键技术集成与应用，2012.09-2014.09(负责)

9. 上海市科委，二甲基异莰醇快速检测技术研究(12231201602)，2012.09-2014.09(负责)

10. 国家自然科学青年基金，咸潮原水中溴在消毒过程中的转化机制（50908138），2010.1-2012.12(负责)

11. 污染控制与资源化国家重点实验室，消毒过程中活性溴的转化研究（PCRRF11007），2011.09-2013.04(负责)

12. 煤炭资源清洁利用与矿山环境保护湖南省重点实验室，典型浮选药剂臭氧化反应机制分析和CFD模拟，2011.09-2013.09(负责)

13. 上海市教委，上海高校选拔培养青年教师专项基金，2008.12-2010.12(负责)

14. 上海桃浦污水厂，污水厂处理水质色变控制技术研究2012.04-2012.10(负责)

获奖情况：

2018年, 同臣环保杯《净水技术》优秀论文奖

2017年, 第二届汇创青春环境设计类竞赛二等奖、优秀指导教师

教授课程：

《饮用水安全保障工程》，课程号11446082；《环境工程原理(一)》，课程号11445091；

Associate professor

Department of Environmental Science and Engineering

Room 432, Huanhua Building

66137748(TEL)

66137761(FAX)

huangxin2008@shu.edu.cn

Educational Background：

Dr. Xin Huang obtained a PhD degree with honors from Tongji University (Shanghai, China) in 2008. Since then, he started work at the Shanghai University as a faculty of the Department of Environmental Science and Technology. He visited the Montclair State University (New Jersey, USA) as a visiting scholar from Oct.2013 to Oct.2014. Dr. Xin Huang is a member of the International Water Asscociation and the China Chemical Society. He is also a registered engineer for Water and Wastewater Engineering, China.

He has published more than twenties refereed publications, some of them in top journals such as Water Research and Chemosphere. Dr. Xin Huang has five patents of invention and two patents of utility models. He has held projects funded by National Natural Science Foundation of China, Minstry of Science and Technology of PRC, Science and Technology Commission of Shanghai Municipality and Shanghai Municipal Education Commission. Dr. Xin Huang also worked as PI for advisory and engineered projects, such as investigation and removal of algae in drinking water resources, upgrade of ozonation process, discoloring treatment for wastewater treatment plant and evaluating the effect of differential pricing on water consumption, etc.

Academic Background：

2013,10-2014,10: Visiting Scholar in Montclair State University (USA)

2008,07-present: Associate Professor, Department of Environmental Science and Technology, Shanghai University

2008,06 Ph.D., Tongji University, Shanghai

Research Field：

(1) Novel oxidation technologies and oxidants applied in water treatment

(2) The transformation of micro-pollutants in drinking water treatment, such as disinfection by-products, PPCPs, odorous compounds

Journal Papers and Patents：

[1] “Formation of bromate during ferrate(VI) oxidation of bromide in water”, Chemosphere, 2016, 155:528-533.

[2] “Bromate oxidized from bromide during sonolytic ozonation”, Ultrasonics Sonochemistry, 2015,22(1):139-143.

[3] “Photocatalytic decomposition of bromate ion by the UV/P25-Graphene processes”, Water Research, 2014,57(1): 1-7.

[4] “Formation of THMs and HANs during Bromination of Microcystis aeruginosa”, Journal of Environmental Sciences-China, 2013,25(9):1795-1799.

[5] “A discrimination method for simultaneously determination of bromamine(NH₂Br) and free bromine in water”，ZL201210380091.7

[6] “Determination of trace hydroxylamine in water by discoloring spectrophotometry methods using ABTS radical”，ZL201210380092.1

[7] “A novel methods to inhibit the formation of bromate in ozonation”，ZL201310416043.3

[8] “A novel catalytic ozonation method with the inhibition of bromate”，ZL201410210644.3

Research Projects:

1. Effect of the differential pricing on water consumption - a three years’ evaluation. Shanghai Water Authority, 2016.6-2017.12(PI)

2. Analysis on the bubbling of ozone in an contactor- a pilot study. Shanghai SMI Raw Water Co.,Ltd., 2015.6-2015.12，(PI)

3. Rapid determination of 2-methlylisoborneol. Science and Technology Commission of Shanghai Municipality (Grant No. 12231201602)，2012.09-2014.09 (PI)

4. Transformation of bromide ion during disinfecting raw water with saline water intrusion. National Natural Science Foundation of China (Grant No.50908138)，2010.1-2012.12(PI)

5. Effect of free bromine on disinfection by-products. State Key Laboratory Pollution Control & Resource Reuse (Tongji University), (Grant No.PCRRF11007)，2011.09-2013.04 (PI)

6. Degradation and CFD analysis of typical floating agents in ozonation. Hunan Province Key Laboratory of Coal Resources Clean-utilizaiton and Mine Environment Protection，2011.09-2013.09(PI)

7. Science Foundation for Excellent Youth Scholar of University. Shanghai Municipal Education Commission, 2008.12-2010.12(PI)

8. Using excitation-emission matrix (EEM) for industrial wastewater monitoring. Shanghai Taopu Wastewater Plant, 2012.04-2012.10(PI)

Honors and Awards：

Courses:

《Engineering for Drinking Water Safety》， 11446082；《Principles of Environmental Engineering》，11445091；《Urban and Architectural Water Supply and Drainage Systems》，11446083