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赵艳侠

2022-03-16 作者: 点击次数:

济南大学水利与环境学院教师介绍

姓名

赵艳侠


性别

出生年月

1987.10

学历/学位

研究生/博士

职称(职务)

副教授

研究领域

新型水处理药剂的研发与机理;给水与废水资源化处理及利用;膜法水与废水处理新技术的研究与应用

招生领域

硕士:环境科学与工程(学术型),资源与环境(专业型)

学术与社会兼职

中国青年科技工作者协会会员,国家科技库在库专家;山东省科技人才库专家,山东省膜学会会员;中国化学会会员,担任Water Research, Journal of Hazardous Materials, Advances in Colloid and Interface Science等多个国际学术期刊审稿人

电子邮件

Stu_zhaoyx@ujn.edu.cn

通讯地址

济南市市中区南辛庄西路336号济南大学水利与环境学院9J413

个人简历

赵艳侠,博士,泰山学者青年专家(2021-2025年),香江学者,硕士生导师。

教育和工作经历如下:

2017.4-至今  济南大学水利与环境学院,副教授

2016.2 -2018.8 香港大学,香江学者,土木工程系博士后

2014.11-2015.4   澳大利亚悉尼大学,工程与信息学部访问学者

2014.6-2018.3 山东大学,化学与化工学院博士后,副教授

2012.10 -2013.10 澳大利亚悉尼科技大学,水与废水处理技术中心(CTWW),联培博士

2009.9-2014.6   山东大学,工学博士(硕博连读)

2004.9-2008.6   济南大学,理学学士

教学工作

承担本科生教学《水污染控制工程II》、《 水污染控制工程课程设计》和《清洁生产与循环经济》,新生研讨课《环境保护问题分析与研讨》,指导本科毕业论文(设计)、科技创新等工作。

科研成果

陆续主持泰山学者青年专家计划项目(在研)、国家自然科学基金面上项目(在研)和青年基金项目(已结题)及中国博士后基金特别资助项目(已结题)和面上项目(一等资助,已结题)。以第一或通讯作者身份在Water Res., Environ. Sci. Technol, J. Hazard. Mater.等国际知名杂志上发表SCI论文34篇。授权发明专利6项。

承担科研项目

1. 泰山学者青年专家计划项目No. tsqn202103080),2021.1~2025.12:功能化水处理药剂的可控制备,50万元,主持,在研

2. 国家自然科学基金面上项目51978311),2020.1-2023.12:高效聚合氯化钛絮凝剂的电化学合成及其优势絮凝形态的鉴定分离和作用机制,72万,主持,在研

3. 济南大学高层次人才引进科研启动81707新葡萄京81707新葡萄京费1009419):钛盐混凝水处理技术的研发及富钛污泥回用,80万,主持,在研

4. 国家自然科学基金青年基金51508308),2016.1-2018.12:钛盐混凝除藻过程中藻细胞破损机理、藻类有机物释放规律及含藻污泥回用研究,23.8万,主持,结题

5. 中国博士后基金特别资助No. 2015T80722),2015.1 ~2016.12:水处理用聚合硅酸钛盐高分子絮凝剂的研发及作用机理,15万,主持,结题

6. 中国博士后基金面上一等资助2014M560557),2014.6 ~2016.6:基于钛盐混凝剂的强化混凝-低压滤膜联用工艺研究,8万,主持,结题

发明专利

1. 赵艳侠,赵旭,连会情,许伟颖,田昌,一种聚合氯化钛的制备方法,发明专利,申请号:202111341938. 6,申请日:20211112

2. 赵艳侠,刘潇,田昌,许伟颖,李蒴,一种聚合氯化钛的制备方法,发明专利,申请号:201910892287.6,申请日:2019920

3. 高宝玉,赵艳侠,王燕,李倩,岳钦艳,黄鑫, 聚合硫酸钛无机高分子絮凝剂及其制备方法与应用,授权专利号:ZL201210559594.0,授权公告日:201435日,中国

4. 高宝玉,赵艳侠,王燕,亓秋波,薄晓文, 岳钦艳, 一种接枝改性的复合型生物絮凝剂及其制备方法,授权专利号:ZL201210025819.4,授权公告日:20131023,中国

5. 高宝玉,赵艳侠,王燕,李倩,岳钦艳,黄鑫,一种聚合四氯化钛无机高分子絮凝剂的制备方法,授权专利号:ZL201210559642.6,授权公告日:20130925日,中国

6. 高宝玉,赵艳侠,亓秋波,王燕,李倩,岳钦艳,薄晓文,聚合铝-改性复合型生物絮凝剂无机有机复合絮凝剂及其制备方法,授权专利号:ZL201210123810.7,授权公告日:20130904日,中国

7. 高宝玉,赵艳侠,王燕,岳钦艳,荣红岩, 复合型生物絮凝剂接枝丙烯酰胺絮凝剂及其制备方法,授权专利号:ZL201110227359.9,授权公告日:20130612日,中国

曾获荣誉

2020年度山东省研究生优秀成果奖指导老师。

2019年度“济南大学本科教学贡献奖”。

2019年度山东省研究生优秀成果奖指导老师。

代表性科研论文

详细论文发表情况详见:

Publons: https://publons.com/researcher/3214303/yanxia-zhao/publications/

ORCID ID: http://orcid.org/0000-0003-1999-7157

1. X.M. Liu; Y.X. Zhao*; W.Y. Xu; D.H. Dong; K.M. Shih; T. Yan; W. Song, Enhanced cross-flow filtration with flat-sheet ceramic membranes by titanium-based coagulation for membrane fouling control, Frontiers of Environmental Science & Engineering, 16(8) (2022) 110.

2. H.Q. Lian, Y.X. Zhao*, C. Tian, W.Y. Xu, T. Yan, W. Song, K.M. Shih, Innovative synthesis of polytitanium chloride by electrodialysis: Identification of Ti-based hydroxyl polymers and coagulation performance, Journal of Water Process Engineering, 47 (2022) 102684.

3. C. Tian, Y.X. Zhao*, Dosage and pH dependence of coagulation with polytitanium salts for the treatment of Microcystis aeruginosa-laden and Microcystis wesenbergii-laden surface water: the influence of basicity, Journal of Water Process Engineering, 39 (2021) 101726.  

4. Y.X. Zhao*, H.Q. Lian, C. Tian, H.B. Li, W.Y. Xu, S. Phuntsho, K.M. Shih, Surface water treatment benefit from the presence of algae: influence of algae on coagulation behavior of polytitanium chloride, Frontiers of Environmental Science and Engineering, 15 (4) (2021) 58.

5. X. Liu, C. Tian, W.H. Sun, Y.X. Zhao*, K.M. Shih, Secondary effluent purification towards reclaimed water production through the hybrid post-coagulation and membrane distillation technology: a preliminary test, Journal of Cleaner Production, 271 (2020) 121797.

6. Y.X. Zhao*, X.Y. Li, C. Tian, J.X. Wang, Production of carbon-doped titanium dioxide (C-TiO2) from the sludge of polytitanium-enhanced primary sedimentation as an adsorbent or photocatalyst for pollutant removals, Journal of Cleaner Production, 267 (2020) 121979.

7. Y.X. Zhao*, Y.T. Chi, C. Tian, Y. Liu, H.B. Li, A.Z. Wang, Recycle of the titanium-coagulated algae-rich sludge toward enhanced photocatalytic oxidation of the phenolic contaminants through oxygen vacancy, Water research,177 (2020) 115789.

8. Yanxia Zhao, Pu Li, Ruohong Li, Xiaoyan Li, Characterization and mitigation of the fouling of flat-sheet ceramic membranes for direct filtration of the coagulated domestic wastewater, Journal of Hazardous Materials, 2020, 385, 121557.

9. Yuantong Chi, Chang Tian, Haibo Li, Yanxia Zhao*, Polymerized Titanium Salts for Algae-Laden Surface Water Treatment and the Algae-Rich Sludge Recycle toward Chromium and Phenol Degradation from Aqueous Solution, ACS sustainable Chemistry and Engineering. 7 (2019) 12964-12972.

10. Yanxia Zhao, Pu Li, Ruohong Li, Xiaoyan Li, Direct filtration for the treatment of the coagulated domestic sewage using flat-sheet ceramic membranes, Chemosphere, 223 (2019) 383-390.

11. Yanxia Zhao*, Xiaoyan Li, Polymerized titanium salts for municipal wastewater preliminary treatment followed by further purification via crossflow filtration for water reuse, Separation and Purification Technology, 211 (2019) 207-217.

12. Jie Xu, Yanxia Zhao*, Baoyu Gao*, Songlin Han, Qian Zhao, Xiaoli Liu, The influence of algal organic matter produced by Microcystis aeruginosa on coagulation-ultrafiltration treatment of natural organic matter, Chemosphere, 196 (2018) 418-428.

13. Jie Xu, Yanxia Zhao*, Baoyu Gao*, Qian Zhao, Yanzhao Yang, Enhanced algae removal by Ti-based coagulant: comparison with conventional Al- and Fe- based coagulants, Environmental Science and Pollution Research, 25(13) (2018) 13147-13158.

14. Y.X. Zhao, Y.Y. Sun, C. Tian, B.Y. Gao, Y.W. Wang, H.K. Shon, Y.Z. Yang, Inhibition of disinfection by-product formation in silver nanoparticle-humic acid water treatment, Separation and Purification Technology, 184 (2017)158-167.

15. Y.X. Zhao, Y.Y. Sun, C. Tian, B.Y. Gao, Y.W. Wang, H.K. Shon, Y.Z. Yang, Titanium tetrachloride for silver nanoparticle-humic acid composite contaminant removal in coagulation-ultrafiltration hybrid process: Floc property and membrane fouling, Environmental Science and Pollution Research, 24 (2) (2017) 1757-1768.  

16. Y.X. Zhao, S. Phuntsho, B.Y. Gao, Q.Y. Yue, Y. Wang, J.-H. Kim, H.K. Shon, Polytitanium sulfate (PTS): coagulation application and Ti species detection, Journal of Environmental Sciences, 52 (2017) 250-258.

17. Y.X. Zhao, S. Phuntsho, B.Y. Gao, Y.Z. Yang, J.-H. Kim, H.K. Shon, Comparison of a novel polytitanium chloride coagulant with polyaluminium chloride: Coagulation performance and floc characteristics, Journal of Environmental Management, 147 (2015), 194-202.

18. Y.X. Zhao, B.Y. Gao, H.K. Shon, S. Phuntsho, Y.Z. Yang, Enhanced coagulation of titanium tetrachloride aided by the modified compound bioflocculant, Journal of Environmental Engineering, 141 (9) (2015) 04015016-9.

19. Y.X. Zhao, B.Y. Gao, G.Z. Zhang, Q.B. Qi, Y. Wang, S. Phuntsho, H.K. Shon, J.-H. Kim, Q.Y. Yue, Q. Li, Coagulation and sludge recovery using titanium tetrachloride as coagulant for real water treatment: A comparison against traditional aluminum and iron salts, Separation and Purification Technology, 130 (2014), 19-27.

20. Y.X. Zhao, H.K. Shon, S. Phuntsho, B.Y. Gao, Removal of natural organic matter by titanium tetrachloride: the effect of total hardness and ionic strength, Journal of Environmental Management, 134 (2014), 20-29.

21. Y.X. Zhao, B.Y. Gao, G.Z. Zhang, Q.B. Qi, Y. Wang, S. Phuntsho, Q.Y. Yue, Q. Li, H.K. Shon, Coagulation by titanium tetrachloride for fulvic acid removal: Factors influencing coagulation efficiency and floc characteristics, Desalination, 335 (2014) 70-77.

22. Y.X. Zhao, S. Phuntsho, B.Y. Gao, X. Huang, Q.B. Qi, Q.Y. Yue, Y. Wang, J.-H. Kim, H.K. Shon, Preparation and characterization of novel polytitanium tetrachloride coagulant for water purification, Environmental Science and Technology, 47(22) (2013), 12966-12975.

23. Y.X. Zhao, B.Y. Gao, H.K. Shon, Q.B. Qi, S. Phuntsho, Y. Wang, Q.Y. Yue, Q. Li, J.-H. Kim, Characterization of coagulation behavior with titanium tetrachloride for high and low molecule weight natural organic matter removal: the effect of second dosing, Chemical Engineering Journal, 228 (2013) 516-525.

24. Y.X. Zhao, B.Y. Gao, Y. Wang, S. Phuntsho, J.-H. Kim, H.K. Shon, Q.Y. Yue, Q. Li, Cationic polyacrylamide as coagulant aid with titanium tetrachloride for low molecule organic matter removal, Journal of Hazardous Materials, 258-259 (2013), 84-92.

25. Y.X. Zhao, B.Y. Gao, G.Z. Zhang, H.K. Shon, S. Phuntsho, Y. Wang, Q.Y. Yue, Q. Li, Comparative study of floc characteristics with titanium tetrachloride against conventional coagulants: Effect of coagulant dose, solution pH, shear force and break-up period, Chemical Engineering Journal, 233 (2013) 70-79.

26. Y.X. Zhao, B.Y. Gao, Y. Wang, H.K. Shon, X.W. Bo, Q.Y. Yue. Coagulation performance and floc characteristics with polyaluminum chloride using sodium alginate as coagulant aid: A preliminary assessment, Chemical Engineering Journal, 183 (15) (2012), 387-394.

27. Y.X. Zhao, B.Y. Gao, H.K. Shon, Y. Wang, J.-H. Kim, Q.Y. Yue, X.W. Bo Anionic polymer compound bioflocculant as a coagulant aid with aluminum sulfate and titanium tetrachloride. Bioresource Technology, 108 (2012), 4554.

28. Y.X. Zhao, Y. Wang, B.Y. Gao, H.K. Shon, J.-H. Kim, Q.Y. Yue, Coagulation performance evaluation of sodium alginate used as coagulant aid with aluminum sulfate, iron chloride and titanium tetrachloride, Desalination, 299 (2012), 79-88.

29. Y.X. Zhao, B.Y. Gao, H.Y. Rong, H.K. Shon, J.-H. Kim, Q.Y. Yue, Y. WangThe impacts of coagulant aid-polydimethyldiallylammonium chloride on coagulation performances and floc characteristics in humic acid-kaolin synthetic water treatment with Titanium tetrachlorideChemical Engineering Journal, 173 (2) (2011), 376-684.

30. Y.X. Zhao, B.Y. Gao, B.C. Cao, Z.L. Yang, Q.Y. Yue, H.K. Shon, J.-H. Kim, Comparison of coagulation behavior and floc characteristics of titanium tetrachloride (TiCl4) and polyaluminum chloride (PACl) with surface water treatment, Chemical Engineering Journal, 166 (2011), 544-550.

31. Y.X. Zhao, B.Y. Gao, H.K. Shon, B.C. Cao, J.-H. Kim, Coagulation characteristics of titanium (Ti) salt coagulant compared with aluminum (Al) and iron (Fe) salts, Journal of Hazardous Materials, 185 (2011), 1536-1542.

32. Y.X. Zhao, B.Y. Gao, H.K. Shon, J.-H. Kim, Q.Y. YueEffect of shear force, solution pH and breakage period on characteristics of flocs formed by Titanium tetrachloride (TiCl4) and Polyaluminum chloride (PACl) with surface water treatmentJournal of Hazardous Materials 187 (2011), 495-501.

33. Y.X. Zhao, B.Y. Gao, H.K. Shon, Y. Wang, J.-H. Kim, Q.Y. Yue, The effect of second coagulant dose on the regrowth of flocs formed by charge neutralization and sweep coagulation using Titanium Tetrachloride (TiCl4), Journal of Hazardous Materials 198 (2011), 70-77.

34. Y.X. Zhao, B.Y. Gao, H.K. Shon, J.-H. Kim, Q.Y. Yue, Y. Wang, Floc characteristics of Titanium tetrachloride (TiCl4) compared with Aluminum and Iron Salts in humic acid-kaolin synthetic water treatment, Separation and Purification Technology, 81(3) (2011), 332-338.

教学著作



 
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