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长沙理工大学水利与环境工程学院研究生导师基本信息表

1、个人基本信息:

    名:张

   别:男

出生年月:1989/10

技术职称:讲师

毕业院校:武汉大学

学历(学位):博士

所在学科:市政工程

研究方向:水处理工艺与技术

2、学习和工作经历:

2020/02至今

长沙理工大学

给排水科学与工程系 教师

2016/092019/12

武汉大学

市政工程 博士

2013/092016/06

2009/092013/06

湖南科技大学

土木工程 硕士

给水排水工程 学士

3、目前研究领域:

[1]  水处理功能材料(药剂)开发及应用

[2]  污水生物处理及资源化

[3]  水环境污染与修复

欢迎给排水、环境等相关专业背景的同学加入课题研究!

4、主持在研或已完成主要课题:

[1]  湖南省自然科学基金青年项目,2021JJ406062021/01-2023/12主持

[2]  湖南省教育厅科学研究项目,20C00242020/09-2022/09主持

[3]  湖南省环境保护河湖疏浚污染控制工程技术中心开放基金项目,EPD2020042020/08-2021/12主持

[4]  长沙理工大学引进博士启动基金项目,2020/02-2023/02主持

[5]  长沙理工大学水利工程学院科研助推计划项目,2020/05-2021/12主持

[6]  国家自然科学基金面上项目,518785172019/01-2022/12,参与

[7]  国家自然科学基金面上项目,513784002014/01-2017/12,参与

5、主要科研成果(发表学术论文、出版著作、授权发明专利):

目前在J.  Hazard. Mater., Chem. Eng. J., J. Clean. Prod.等期刊上发表学术论文40余篇  (其中第一/通讯作者10余篇),申请国家发明专利8项(已授权6项)。  

Researchgate: https://www.researchgate.net/profile/Wei-Zhang-59

Google  Scholar: https://scholar.google.com/citations?user=hy7RNscAAAAJ&hl=zh-CN

部分第一/通讯作者论文如下:

[1] Zhang  Wei,  Ou Ji, Tang Meiyi, He Qiulai, Long Anlin, Luo Shuangxue, Sun Shiquan*, Wan  Junli, Gao Yang, Zhou Lean, Wang Bin, Wang Hongyu**, 2021.  Physically-crosslinked activated CaCO3/polyaniline-polypyrrole-modified  GO/alginate hydrogel sorbent with highly efficient removal of copper(II) from  aqueous solution, Chem. Eng. J.,  431, 133375. 中科院一区,IF13.273

[2] Zhang  Wei, Ou Ji, Wang Bin, Wang Hongyu*, He  Qiulai, Song Jianyang, Zhang Huining, Tang Meiyi, Zhou Lean, Gao Yang, Sun  Shiquan**, 2021.  Efficient heavy metal removal from water by alginate-based porous  nanocomposite hydrogels: The enhanced removal mechanism and influencing  factor insight, J. Hazard. Mater.,  418, 126358. 中科院一区,IF10.588

[3] Wang Bin, Hu Xiaoling, Zhou Dao,  Zhang Heng, Chen Rongfan, Guo Wenbin, Wang Hongyu*,  Zhang Wei**, Hong Zhenzhen,  Lyu Wanlin, 2021.  Highly selective and sustainable clean-up of phosphate from aqueous phase by  eco-friendly lanthanum cross-linked polyvinyl alcohol/alginate/palygorskite  composite hydrogel beads. J. Clean. Prod.,  298, 126878. 中科院一区,IF9.297

[4] Zhang  Wei, Long Anlin, Ou Ji, Zeng Xin, Wang Jing,  Wang Bin, Wang Hongyu*, He Qiulai, Tang Meiyi, Zhou Lean, Gao Yang, Sun Shiquan**,  2021.  Enhanced removal of hexavalent chromium from aqueous solution by functional  polymer-wrapped gamma-alumina composite adsorbent, Environ.  Technol. Inno., 24, 101954. 中科院三区,IF5.263

[5] Zhang  Wei, Song Jianyang, He Qiulai, Wang  Hongyu*, Lyu Wanlin, Feng Huijuan, Xiong Wenqi, Guo Wenbin, Wu Jing, Chen  Ling**, 2020.  Novel pectin based composite hydrogel derived from grapefruit peel for enhanced  Cu(II) removal. J. Hazard. Mater.,  384, 121445. 中科院一区,IF10.588ESI Highly Cited Paper

[6]  Zhang Wei,  Wang Hongyu*, Hu Xiaoling, Feng Huijuan, Xiong Wenqi, Guo Wenbin, Zhou Jinping,  Mosa Ahmed, Peng Yazhou, 2019.  Multicavity triethylenetetramine-chitosan/alginate composite beads for enhanced  Cr(VI) removal. J. Clean. Prod.,  231, 733-745. 中科院一区,IF9.297

[7] Zhang  Wei, Deng Qian, He Qiulai, Song Jianyang,  Zhang Shilu, Wang Hongyu*, Zhou Jinping, Zhang Huining, 2018.  A facile synthesis of core-shell/bead-like poly(vinyl alcohol)/alginate@PAM  with good adsorption capacity, high adaptability and stability towards Cu(II)  removal. Chem. Eng. J.,  351, 462-472. 中科院一区,IF13.273

[8] Zhang  Wei,  Zhang Shilu, Wang Jing, Wang Meng, He  Qiulai, Song Jianyang, Wang Hongyu*, Zhou Jinping, 2018.  Hybrid functionalized chitosan-Al2O3@SiO2  composite for enhanced Cr(VI) adsorption. Chemosphere,  203, 188-198. 中科院二区TOPIF7.086

[9] Wang Hongyu*, Zhang  Wei, Ye Yaping, He Qiulai, Zhang Shilu,  2018. Isolation and characterization of Pseudoxanthomonas  sp. strain YP1 capable of denitrifying phosphorus removal (DPR). Geomicrobiol.  J., 35, 537-543. 中科院四区,IF2.308

[10] 张鹏*,  张伟,  廖为雄,  2018.  絮凝剂CTS-GSH的合成及其除铬性能.  过程工程学报,  18(2), 312-317. CSCD,封面亮点

[11] 张鹏*,  张伟,  廖为雄,  朱国成,  丁文杰,  2017.  响应面优化制备CTS-GSH及其对铬(VI)的去除研究.  环境工程, 35(3), 57-61. CSCD

[12] Zhang Peng*, Zhang  Wei, Zhang Xue, Ren Bozhi, Ma Hongpu,  Wang Zhenghua, 2014.  Degradation of rhodamine B by ultrasound/fenton-like reagent. Asian  J. Chem., 26(15), 4845-4848. 中科院四区,IF0.355

[13]  Zhang Peng*, Zhang  Wei, 2014.  Preparation of polymeric phosphate aluminum-ferric chloride (PPAFC) and  response surface methodology approach to optimize coagulation-flocculation  process. Journal of Chemical  and Pharmaceutical Research, 6(6),  906-911. EI收录

[14]  Zhang Peng*, Zhang  Wei, Zhu Guocheng, Ren Bozhi, Li Xuemei,  Ma Hongpu, 2014.  Preparation of polymeric phosphate aluminum-ferric chloride (PPAFC) and its  application in humic acid removal. Journal  of Chemical and Pharmaceutical Research,  6(5), 801-807. EI收录

其它主要合作论文如下:

[1] Sun Shiquan*, Zeng Xin, Gao Yang, Zhang  Wei, Zhou Lean, Zeng Xiaokang, Liu Wang,  Jiang Qian, Jiang Changbo, Wang Sixin, 2021.  Iron oxide loaded biochar/attapulgite composites derived camellia oleifera  shells as a novel bio-adsorbent for highly efficient removal of Cr(VI). J.  Clean. Prod., 317, 128412. 中科院一区,IF9.297

[2] Shu Yaorong, Ji Bin*, Li Yuexin, Zhang  Wei, Zhang Huining, Zhang Jun, 2021.  Natural pyrite improved steel slag towards environmentally sustainable  chromium reclamation from hexavalent chromium-containing wastewater. Chemosphere,  282, 130974. 中科院二区TOPIF7.086

[3] Wang  Bin, Zhang Wei,  Li Lu, Guo Wenbin, Xing Jie, Wang Hongyu*, Hu Xiaoling, Lyu Wanlin, Chen  Rongfan, Song Jianyang, Chen Ling**, Hong Zhenzhen, 2020.   Novel talc encapsulated lanthanum alginate hydrogel for efficient  phosphate adsorption and fixation. Chemosphere,  2020, 256: 127124. 中科院二区TOPIF7.086

[4] He Qiulai*, Song Jianyang,  Zhang Wei, Gao Shuxian, Wang  Hongyu**, Yu Jian, 2020.  Enhanced simultaneous nitrification, denitrification and phosphorus removal  through mixed carbon source by aerobic granular sludge. J.  Hazard. Mater., 382: 121043. 中科院一区,IF10.588ESI Highly Cited Paper

[5] Song Jianyang, Zhang  Wei, Gao Junfeng, Hu Xiaoling, Zhang  Chenlu, He Qiulai, Yang Fei, Wang Hongyu*, Wang Xueyu, Zhan Xiang,  2020. A pilot-scale study on the treatment  of landfill leachate by a composite biological system under low dissolved  oxygen conditions: Performance and microbial community. Bioresource  Technol., 296: 122344. 中科院一区,IF9.642

[6] Wang  Hongyu*, Wang Jing, Zhang Wei,  Hu Xiaoling, Lv Wanling, 2020.  Comparison of performance in a bioelectrochemical system for simultaneous  denitrification and vanadate(V) removal using hydrogen as the sole electron  donor. Geomicrobiol. J.,  37(4): 301-307. 中科院四区,IF2.308

[7] He Qiulai, Song Qun, Zhang Shilu, Zhang  Wei, Wang Hongyu*. 2018.  Simultaneous nitrification, denitrification and phosphorus removal in an  aerobic granular sequencing batch reactor with mixed carbon sources: reactor  performance, extracellular polymeric substances and microbial successions. Chem.  Eng. J., 331, 841-849.  中科院一区,IF13.273ESI Highly Cited Paper

[8] He Qiulai, Zhang  Wei, Zhang Shilu, Wang Hongyu*, 2017.  Enhanced nitrogen removal in an aerobic granular sequencing batch reactor  performing simultaneous nitrification, endogenous denitrification and  phosphorus removal with low superficial gas velocity. Chem.  Eng. J., 326: 1223-1231. 中科院一区,IF13.273

[9] He Qiulai, Zhang  Wei, Zhang Shilu, Zou Zhuocheng, Wang  Hongyu*, 2017.  Performance and microbial population dynamics during stable operation and  reactivation after extended idle conditions in an aerobic granular sequencing  batch reactor. Bioresource Technol.,  238: 116-121. 中科院一区,IF9.642

已授权发明专利:

[1]  王弘宇,  邓茜,  张伟,  何威良,  杨澈.  生物电催化耦合接触氧化反硝化过滤一体化生物反应器,  中国,  ZL201810392276.7.

[2] 王弘宇,  张伟,  周金平.  一种海藻酸钠/聚乙烯醇@聚丙烯酰胺核壳结构凝胶球的制备方法及其应用,  中国,  ZL201711436540.4.

[3] 王弘宇,张惠宁,  陈丹,  张伟.  巯基化氧化石墨烯/聚乙烯醇大孔复合球吸附剂及其制备方法和应用,中国,  ZL201610772031.8.

[4] 王弘宇,  张惠宁,  陈丹,  张伟.  一种聚乙烯醇/氨基硅烷化氧化石墨烯大孔复合球及其制备方法和应用,  中国,  ZL201610772033.7.

[5] 张鹏,  任伯帜,  张艳君,  朱国成,  张伟,  丁文杰.  紫外引发制备阳离子聚丙烯酰胺的方法及应用,  中国,  ZL201410763382.3.

[6] 张鹏,  廖为雄,  任伯帜,  朱国成,  张艳君,  张伟,  丁文杰.  一种阳离子聚丙烯酰胺的制备方法及应用,  中国,  ZL201410767113.4.

6、所获学术荣誉及学术影响:

 

7、联系电话:15273291061               联系邮箱:qzwl11@163.com  

 

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