2023-02-23
教师基本信息表 |
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1、个人基本信息: |
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姓名:江静怡 |
性别: 女 |
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出生年月:1991.02 |
技术职称: |
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毕业院校:香港科技大学 |
学历(学位): 博士 |
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所在学科:市政工程,环境工程 |
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2、学习和工作经历: |
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教育经历 2013.9-2018.1香港科技大学土木及环境工程系,环境工程,获工学博士学位 2009.9-2013.6南京大学环境学院,环境工程,获工学学士学位 工作经历 2022.11-至今新利官网开户水利与环境工程学院,讲师 2018.3-2021.8香港科技大学土木及环境工程系,博士后 2018.3-2021.8 ELSEVIER期刊《Chemosphere》助理编辑 2014.2-2015.12香港科技大学土木及环境工程系,助教 |
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3、目前研究领域: |
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●饮用水/污水处理过程中消毒副产物的生成转化机制的研究及相应控制策略 ●饮用水/污水中新兴微污染有机物(PPCPs)的检测,鉴定,风险评估及控制策略 |
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4、主持在研或已完成主要课题: |
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(1)Removal of (Halo)pharmaceuticals in Drinking Water Treatment by Reversing GAC Adsorption and Chlorine Disinfection通过对调活性炭吸附和氯消毒去除饮用水处理中的卤代药物。香港研资局竞争性专项研究基金项目(No. 16212518),项目主要完成人,2018.6–2021.5,结题 (2)Removal of Intermediate Aromatic Halogenated DBPs by Activated Carbon Adsorption: A New Approach to Controlling Regulated Trihalomethanes and Haloacetic Acids in Chlorinated Drinking Water活性炭吸附去除卤代芳香类中间体消毒副产物:一种控制饮用水中消毒副产物的新途。香港研资局竞争性专项研究基金项目(No. 16213014),项目主要完成人,2013.12–2017.12,结题 (3)Consultancy Study on Improvement Works for Water Treatment Works Adopting Direct Filtration to Meet the Turbidity Performance Target for Filtered Water Project。香港水务署(荃湾滤水厂)水质提标改造咨询项目(No. 1920213),项目主要完成人,2020.6–2021.2,结题 (4)Enhanced Separation and Sludge Refinery for Wastewater Treatment–Solving the Nexus of Pollution Control and Resource Recovery in Mega Cities高效浓缩分离和污泥精炼协同新技术实现城市水污染控制和资源回收。香港研资局主题研究基金项目(T21-711/16-R)子课题参与,2016.11–2021.10,结题 (5)Optimization of Dechlorination to Generate Greener Chlorinated Saline Sewage Effluents环境友好型氯化含盐污水脱氯工艺的优化研究。香港环境及自然保育基金-吴氏会德丰联合环保基金项(ECWW15EG07),参与,2015.8–2017.7,结题 |
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5、主要科研成果(发表学术论文、出版著作、授权发明专利): |
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[1]Jiang, J., Zhang, X*., 2018. A smart strategy for controlling disinfection byproducts by reversing the sequence of GAC adsorption and chlorine disinfection. [J] Sci. Bull. 63, 1167–1169 (第一作者, SCI一区TOP期刊收录,IF: 20.577/Q1) [2]Jiang, J., Han, J., Zhang, X.*, 2020. Nonhalogenated aromatic DBPs in drinking water chlorination: A gap between NOM and halogenated aromatic DBPs. [J] Environ. Sci. Technol. 54, 1646–1656 (第一作者, SCI一区TOP期刊收录,ESI高被引论文,IF: 11.357/Q1) [3]Jiang, J., Zhang, X.*, Zhu, X., Li, Y., 2017. Removal of intermediate aromatic halogenated DBPs by activated carbon adsorption: A new approach to controlling halogenated DBPs in chlorinated drinking water. Environ. Sci. Technol. 51, 3435–3444 (第一作者, SCI一区TOP期刊收录,ESI高被引论文,IF: 11.357/Q1) [4]Jiang, J., Li, W., Zhang, X.*, Liu, J., Zhu, X., 2018. A new approach to controlling halogenated DBPs by GAC adsorption of aromatic intermediates from chlorine disinfection: Effects of bromide and contact time. [J] Sep. Purif. Technol. 203, 260–267 (第一作者, SCI一区TOP期刊收录,IF: 20.577/Q1) [5] Chen, B.*,Jiang, J., Yang, X.*, Zhang, X.*, Westerhoff, P.*, 2021. Roles and knowledge gaps of point-of-use technologies for mitigating health risks from disinfection byproducts in tap water: A critical review. [J] Water Res. 200, 117265 (合作导师为通讯和第一作者,SCI一区TOP期刊收录,IF:13.400/Q1) [6] Li, Y.,Jiang, J., Li, W., Zhu, X., Zhang, X.*, 2020. Volatile DBPs contributed marginally to the developmental toxicity of drinking water DBP mixtures against Platynereis dumerilii. [J] Chemosphere 252, 126611 (共同一作,SCI二区TOP期刊收录,IF:8.943/Q1) [7] Li, Y., Li, W., Zhang, X.*,Jiang, J., 2022. Effects of ultrasonication on the DBP formation and toxicity during chlorination of saline wastewater effluents. [J] J. Env. Sci. 117, 326–335 (SCI二区收录待查,IF:6.796/Q1) [8] Grote, M.*, Höfer, T., Boudenne, J.-L., Croué, J.-P., Escher, B., von Gunten, U.*, Jenner, H.,Jiang, J.,Karanfil, T., Khalanski, M., Kim, D., Linders, J., Maas, J., Manasfi, T., Polman. H., Quack, B., Tegtmeier, S., Werschkun, B., Zhang, X., Ziegler, G., 2022. Inputs of disinfection byproducts to the marine environment from various industrial activities: Comparison to natural production. [J] Water Res. 118383 (SCI一区TOP期刊收录,IF:13.400/Q1) [9] Yang, Y., Zhang, X.*,Jiang, J., Han, J., Li, W., Li, X., Leung, K.M.Y., Snyder, S.A., Alvarez, P.J.J., 2021. Which micropollutants in water environments deserve more attention globally? [J] Environ. Sci. Technol. 56, 1, 13–29 (SCI一区TOP期刊收录,IF: 11.357/Q1) [10] Han, J., Zhang, X.*,Jiang, J., Li, W., 2021. How much of the total organic halogen and developmental toxicity of chlorinated drinking water might be attributed to aromatic halogenated DBPs? [J] Environ. Sci. Technol. 55, 5906–5916 (SCI一区TOP期刊收录,ESI高被引论文,IF: 11.357/Q1) [11] Han, J., Zhang, X.*, Li, W.,Jiang, J., 2021. Low chlorine impurity might be beneficial in chlorine dioxide disinfection. [J] Water Res. 188, 116520 (SCI一区TOP期刊收录,IF:13.400/Q1) [12]Liu, J., Li, Y.,Jiang, J., Zhang, X.*, Sharm, V.K.*, Sayesc, C.M.*, 2020. Effects of ascorbate and carbonate on conversion and developmental toxicity of halogenated disinfection byproducts during boiling of tap water. [J] Chemosphere 254, 126890 (SCI二区TOP期刊收录,IF:8.943/Q1) [13] Pan, L., Zhang, X.*, Yang, M.*, Han, J.,Jiang, J., Li, W., Yang, B., Li, X., 2019. Effects of dechlorination conditions on the developmental toxicity of a chlorinated saline primary sewage effluent: Excessive dechlorination is better than not enough. [J] Sci. Total Environ. 692, 117–126 (SCI二区TOP期刊收录,IF: 10.753/Q1) [14] Li, W., Li, Y., Zhang, X.*, Han, J., Zhu, X., Choi, K.C.,Jiang, J.,2019. Conversion of haloacid disinfection byproducts to amino acids via ammonolysis. [J] Chemosphere 224, 351–359 (SCI二区TOP期刊收录,IF:8.943/Q1) [15] Li, Y., Yang, M., Zhang, X.*,Jiang, J., Liu, J., Yau, C.F., Graham, N.J.D., Li, X., 2017. Two-step chlorination: A new approach to disinfection of a primary sewage effluent. [J] Water Res. 108, 339–347 (SCI一区TOP期刊收录,IF:13.400/Q1) |
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6、所获学术荣誉及学术影响: |
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[1] “Outstanding Contribution in Reviewing” for the Elsevier journal of “Chemosphere”, Chemosphere杂志优秀审稿人奖,2019. [2] Hong Kong PhD Fellowship 2013/2014 Scheme,香港政府博士奖学金(每年度资助香港公立大学就读的文/理/工科博士约120人),香港研资局, 2013–2016. |
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7、联系电话:15574336823联系邮箱:amiejiang@csust.edu.cn |