副教授

张伟军
发布时间: 2017-05-15 07:13:34   作者:admin   来源:   浏览次数:

 

张伟军,1986年生,中国共产党员,工学博士,中国地质大学(武汉)环境学院特任副教授,硕士生导师。主要从事水处理工程方面的教学和科研工作,先后主持和参与国家自然科学基金面上项目、国家自然科学基金重点项目、国家杰出青年科学基金、湖北省自然科学基金、中国博士后基金一等资助和中国地质大学摇篮计划等项目十余项。总计在国内外核心期刊发表论文近50篇,以第一作者和通讯作者身份发表SCI论文24篇,投稿和准备SCI论文十余篇。
 
联系方式
地址:湖北省武汉市洪山区鲁磨路388号中国地质大学(武汉)环境学院 430074
E-mail:zhwj_1986@126.com
 
学习和工作经历
2004/09-2008/09:西北师范大学,环境科学,理学学士
2008/09-2011/09:华东师范大学,环境科学,理学硕士
2011/09-2015/06:中国科学院生态环境研究中心,环境工程,工学博士
2015/07-今:中国地质大学(武汉)环境学院,师资博士后,特任副教授
 
主要研究方向
(1)基于污泥胞外聚合物(EPS)特性的多元微界面强化脱水技术开发及作用机制
(2)污泥电渗透脱水耦合资源化过程中EPS和微观形貌的变化特征
(3)污泥(水热和热解)定向转化制备复合功能材料及其在污水处理中的应用
(4)污泥处理过程中有害污染物(重金属和有机污染物)的迁移转化机制
(5)高浓度有机废水的处理技术开发及工艺优化控制
(6)新型功能水质净化材料的制备及其微界面反应机制
 
承担和参与科研项目情况
(1)国家自然科学基金面上项目,污泥电渗透压滤脱水过程中EPS溶解的区域化特征及其对有害污染物迁移转化的影响,51678546,62万元,2017年-2020年,主持,在研
(2)中国地质大学“摇篮计划”,污泥高级处理过程中有害污染物的迁移转化机制研究,30万元,2017年-2019年,主持,在研
(3)中国博士后基金一等资助,过氧化钙预氧化和重絮凝强化活性污泥脱水的效能及机制,8万元,2016年-2017年,主持,在研
(4)湖北省自然科学基金青年项目,新型钛盐混凝剂调理强化剩余污泥脱水效能及其作用机制研究,ZRMS2016000811,5万元,2016年-2017年,主持,在研
(5)校级中央高校基本科研业务费专项资金新青年启动基金 ,聚硅氧化铝混凝剂强化剩余污泥脱水性的效能及机制研究 ,6万元,2016年-2017年,主持,在研
(6)国家自然科学基金重点项目,淤泥演化为粘土隔水层过程中的水-岩相互作用,300万元,2017年-2021年,第四参与人,在研
(7)国家自然科学基金面上项目,NSFC : 51338010,新型多功能混凝剂及其微污染有机物强化絮凝原理,2014/01-2018/12,300万元,参与,已结题
(8)横向课题,电渗透压滤技术开发,2015/09-2016/09,34万元,参与,已结题
 
担任以下期刊的审稿专家
Water Research、Bioresource Technology、Journal of Cleaner Production、RSC Advances、Journal of Environmental Sciences、BMC Biotechnology、Environmental Technology、净水技术、环境工程等杂志。
 
获奖情况
(1)第八届奥加诺(水质与水环境)奖学金技术应用类二等奖(2014年)
(2)第一届北京大学唐孝炎环境科学创新奖学金三等奖(2015年)
(3)2013年度教育部博士研究生国家奖学金
(4)2014年中国石油和化学工业联合会科技进步三等奖(主要参与人)
(5)2015年扬州市科学技术三等奖(基础环氧树脂高盐废水处理及资源化)
(6)2014年“环境污染与健康”研究生论坛优秀报告奖
(7)2013和2015 年度中国科学院大学“三好学生”荣誉称号
 
发表论文(*通讯作者)
SCI收录论文
[1] Weijun Zhang*, Bingdi Cao, Dongsheng Wang*. Influence of wastewater sludge treatment using combined peroxyacetic acid oxidation and inorganic coagulants re-flocculation on characteristics of extracellular polymeric substances (EPS). Water research. 2016, 88: 728-739 (SCI, IF=6.991)
[2] Weijun Zhang*, Zhan Chen, Bingdi Cao, Dongsheng Wang, Teng Ma. Improvement of wastewater sludge dewatering performance using titanium salt coagulants (TSCs) in combination with magnetic nano-particles: significance of titanium speciation, Water Research, 2017, 110, 102-111(SCI, IF=6.991)
[3] Zhan Chen, Weijun Zhang*, Dongsheng Wang. Enhancement of activated sludge dewatering performance by combined composite enzymatic lysis and chemical re-flocculation with inorganic polymer flocculant: Kinetics of enzymatic reaction and re-floculation morphology. Water research. 2015, 83: 367-376 (SCI, IF=6.991)
[4] Zhan Chen, Weijun Zhang*, Dongsheng Wang, et al. Enhancement of waste activated sludge dewaterability using calcium peroxide pre-oxidation and chemical re-flocculation. Water research, 2016, 103: 170-181. (SCI, IF=6.991)
[5] Bingdi Cao, Weijun Zhang*, Dongsheng Wang. Wastewater sludge dewaterability enhancement using hydroxyl aluminum conditioning: Role of aluminum speciation. Water research, 2016, 105: 615-624. (SCI, IF=6.991)
[6] Weijun Zhang, Peng Yang, Xiaoyin Yang, Zhan Chen, Dongsheng Wang. Insights into the respective role of acidification and Fenton oxidation for improving sludge dewaterability. Bioresource Technology. 2015, 181: 247-253 (SCI, IF=5.651)
[7] Juanjuan He, Peng Yang, Weijun Zhang*, Bingdi Cao, Hua Xia, Xi Luo, Dongsheng Wang. Characterization of changes in floc morphology, extracellular polymeric substances and heavy metals speciation of anaerobically digested biosolid under treatment with a novel chelated-Fe2+ catalyzed Fenton process, Bioresource Technology, 2017, 243: 641-651(SCI, IF=5.651)
[8] Weijun Zhang, Ping Xiao, Dongsheng Wang. Central treatment of different emulsion wastewaters with integrated process of physicochemically enhanced ultrafiltration and anaerobic-aerobic biofilm reactor. Bioresource technology. 2014, 159: 150-156. (SCI, IF=5.651)
[9] Meiqing Niu1, Weijun Zhang1,*, Dongsheng Wang* et al., Correlation of physicochemical properties and sludge dewaterability under chemical conditioning using inorganic coagulants, Bioresource Technology, 2013, 144: 337-343. (SCI, IF=5.651)
[10] Hongyu Gao, Weijun Zhang*, Zhenzhen Song, Dongsheng Wang. Transfer behavior of odorous pollutants in wastewater sludge system under typical chemical conditioning processes for dewaterability enhancement, Scientific reports, 7: 3417, (SCI, IF=4.259)
[11] Weijun Zhang, Xiaoyin Yang, Dongsheng Wang, Complete removal of organic contaminants from hypersaline wastewater by the integrated process of powdered activated carbon adsorption and thermal Fenton oxidation, Industrial & Engineering Chemistry Research, 2013, 52: 5765-5771. (SCI, IF=2.843)
[12] Weijun Zhang*, Bingdi Cao, Dongsheng Wang* et al. Variations in distribution and composition of extracellular polymeric substances (EPS) of biological sludge under potassium ferrate conditioning: Effects of pH and ferrate dosage. Biochemical Engineering Journal, 2016, 106: 37-47 (SCI, IF=2.892)
[13] Weijun Zhang*, Hongyu Gao, Juanjuan He, Peng Yang, Dongsheng Wang*, et al. Removal of norfloxacin using coupled synthesized nanoscale zero-valent iron (nZVI) with H2O2 system: Optimization of operating conditions and degradation pathway. Separation and purification technology, 2017, 172: 158-167. (SCI, IF=3.359)
[14] Weijun Zhang, Peng Yang, Ping Xiao et al. Dynamic variation in physicochemical properties of activated sludge floc from different WWTPs and its influence on sludge dewaterability and settleability. Colloids and Surfaces A: Physicochemical engineering aspects. 2015, 467, 124-134 (SCI, IF=2.714)
[15] Weijun Zhang, Siwei Peng, Ping Xiao et al. Understanding the evolution of stratified extracellular polymeric substances in full-scale activated sludges in relation to dewaterability. RSC Advances. 2015, 5, 1282-1294 (SCI, IF=3.708)
[16] Weijun Zhang, Ping Xiao, Wang Dongsheng et al., Understanding the impact of chemical conditioning with inorganic polymer flocculants on soluble extracellular polymeric substances in relation to the sludge dewaterability, Separation and Purification Technololy. 2014, 132: 430-437 (SCI, IF=3.359)
[17] Weijun Zhang, Ming Zhang, Feng Xiao et al, Pretreatment of high strength waste emulsions by combined vibratory shear enhanced process with Fenton oxidation, International Journal of Environmental Science and Technology, 2014, 11: 731-738. (SCI, IF=1.915)
[18] Hongyu Gao, Zhenzhen Song, Weijun Zhang*, Xiaofang Yang, Xuan Wang, Dongsheng Wang. Synthesis of highly effective absorbents with waste quenching blast furnace slag to remove Methyl Orange from aqueous solution, Journal of Environmental Sciences, 2017, 53, 68-77 (SCI, IF=2.865)
[19] Hongyu Gao, Weijun Zhang*, Zhenzhen Song. H2S emission in sludge conditioning with different inorganic salt coagulants and its relationships with sludge properties, RSC advances, 2016, 6, 83060-83068 (SCI, IF=3.708)
[20] Jing Ai†, Weijun Zhang†(共同一作), Guiying Liao, Hua Xia*, Dongsheng Wang*. Immobilization of horseradish peroxidase enzymes on hydrous-titanium and its application for phenol removal, RSC advances, 2016, 6, 38117-38123 (SCI, IF=3.708)
[21] Youjing Du, Bingdi Cao, Weijun Zhang*, Dongsheng Wang, Xiang Shen. Improvement of wastewater sludge compression dewatering properties using polymeric aluminum-silicon complex flocculants conditioning: Importance of aluminum/silicon ratio, Colloids and Surfaces A: Physicochemical engineering aspects. 2017, 530, 5: 134-145. (SCI, IF=2.714)
[22] Yuanyuan Liu1, Weijun Zhang1,*, Xiaoyin Yang, et al, Advanced treatment of effluent from municipal WWTP with different metal salt coagulants: Contaminants treatability and floc properties, Separation and Purification Technology, 2013, 120: 123-128. (SCI, IF=3.359)
[23] Jing Ai1, Weijun Zhang1(共同一作), Hua Xia, Dongsheng Wang, NH2-Fe3O4@SiO2 supported peroxidase catalyzed H2O2 for degradation of endocrine disrupter from aqueous solution: Roles of active radicals and NOMs, Chemosphere, 2017,186:733-742  (SCI, IF=4.208)
[24] Siwei Peng, Weijun Zhang, Dongsheng Wang. Enhancement of Fenton oxidation for removing organic matter from hypersaline solution by accelerating ferric system with hydroxylamine hydrochloride and benzoquinone. Journal of Environmental Sciences-China. 2016, 41: 16-23. (SCI, IF=2.865)
[25] Ping Xiao, Weijun Zhang, Feng Xiao et al., A novel approach using a fouling index to evaluate NOM fouling behavior in a low pressure ultrafiltration process, Water Science and Technology: Water Supply, 2014, 14(2): 196-204
[26] Ping Xiao, Feng Xiao, Weijun Zhang et al., Insight into the combined colloidal-humic acid fouling on the hybrid coagulation microfiltration membrane process: The importance of aluminum, Colloids and Surfaces A: Physicochem. Eng. Aspects, 2014, 461: 98-104. (SCI, IF=2.354)
[27] Feng Xiao, Ping Xiao, Weijun Zhang et al., Identification of key factors affecting the organic fouling on low-pressure ultrafiltration membranes, Journal of Membrane Science, 2013, 447: 144-152. (SCI, IF=4.908)
已投稿论文
[1] Bingdi Cao, Weijun Zhang*, Youjing Du, Dongsheng Wang. Compartmentalization of extracellular polymeric substances (EPS) solubilization and cake microstructure in relation to wastewater sludge electro-dewatering behavior assisted by horizontal electric field: Effect of operating conditions. Water Research, In Revision
[2] Qiongying Xu, Peng Yang, Weijun Zhang*, Highly effective enhancement of waste activated sludge dewaterability by altering proteins conformation using methanol solution coupled with inorganic coagulants. Water Research, Under review
[3] Haijian Ou1, Weijun Zhang1(共同一作), Guiying Liao et al., The g-C3N4-doped rich-amine porous organic polymer composites: an efficient and recyclable adsorbent to remove chlorophenol from aqueous solution. Environmental science: nano, Under review
[4] Ying Yan1, Weijun Zhang1(共同一作), Hua Xia et al., Mesoporous silica immobilized macrocyclic nickel complexes (IM-MNC) as a robust heterogeneous Fenton-like catalyst for dye removal from aqueous solution, Chemosphere, Under review
[5] Hanjun Wu, Qinxue Yang, Weijun Zhang* et al., Removal of typical organic contaminants with a recyclable calcined chitosan supported layered double hydroxide absorbent: Kinetics and Equilibrium Isotherms. Journal of chemical engineering and data, Under review
[6] Zhaoyi Yang, Qiandi Wang, Weijun Zhang*. AD sludge dewatering performance improvement using in-situ struvite crystallization in combination with cationic organic polymers, In preparation
[7] Youjing Du, Bingdi Cao, Weijun Zhang*. Biological activated carbon (BAC) preparation with wastewater sludge conditioned with aluminum salt coagulants: The relationships between aluminum speciations and structural properties of BAC, In preparation
[8] Peng Yang, Weijun Zhang*. Variations in EPS and morphological properties of wastewater sludge under a novel advanced sludge treatment – Ferrous ions catalyzed NaClO2 for enhancing dewatering process. In preparation
[9] Peng Yang, Dandan Li, Weijun Zhang*. Effects of soluble EPS and solid concentration on EPS and morphological properties of waste activated sludge under chemical conditioning with inorganic coagulants. In preparation
[10] Ning Wang, Weijun Zhang*, Bingdi Cao, AD sludge dewatering performance improvement using sludge based carbon (SBC) in combination with cationic organic polymers: changes in EPS and microstructure. In preparation
[11] Hongyu Gao, Weijun Zhang*. Simultaneous adsorption and photodegradation of tetracycline with Mg-Al-Ti LDH composite materials prepared by high Ti-bearing blast furnace slag, In preparation
CSCD 收录
[1] 王彩霞,张伟军*,王东升,王庆飞等. 钛盐混凝剂调理改善活性污泥脱水性的作用机制研究,环境科学,2016, 37(6): 2244-2251(EI)
[2] 白润英, 陈湛, 张伟军, 等. 过氧化钙预处理对活性污泥脱水性能的影响机制[. 环境科学, 2017, 38(3): 1151-1158 (EI)
[3] 曹秉帝,张伟军*,王东升*等. 高铁酸钾处理对污泥胞外聚合物分布和组成及污泥脱水性的影响,环境科学学报,2015, 35 (12): 3805-3814
[4] 白润英,陈湛,张伟军*,王东升. 复合酶处理对活性污泥溶解的动力学机制研究,环境工程学报,2016, 10: 5841-5845
[5] 王彩霞,张伟军*,王东升,王庆飞. 过氧乙酸和亚铁联用调质强化活性污泥过滤脱水性能,环境工程学报,2015, 9: 3976-3984
[6] 杨鹏,张伟军*,王东升等. 活性炭吸附和两级Fenton氧化处理高盐对氨基苯酚废水, 环境工程学报, 2015, 9(5): 2232-2236
[7] 洪云,张伟军*,王东升等. 不同有机体系的混凝特征研究:以硫酸铝为例, 环境化学, 2015,34(2):352-357
[8] 崔凤国,杨鹏,张伟军* 等. 混凝和活性炭吸附深度处理制药废水中有机物去除特征, 环境工程学报, 2015,(9):4359-4364
[9] 杨晓胤,刘园园,张伟军* 等,北京市第九水厂自来水厂污泥脱水试验研究,环境工程,2014,32(1):20-24
[10] 杨晓胤,张伟军*,刘园园, 污泥深度脱水集成工艺研究, 工业水处理,2014,34(3): 29-32
[11] 许世伟,张伟军*,付强等. 气浮技术在膜生物反应器剩余污泥浓缩过程中的应用,环境工程学报, 2014, 8(12): 5161-5166
[12] 宋数宾,张伟军*,杨晓胤等,膜处理乳化液废水过程中强化过滤的物理化学技术, 工业水处理,2013, 33(8): 6-10
[13] 许世伟, 张伟军*,李魁晓等. 城市污水再生处理过程中臭氧氧化脱色及稳定性研究,环境科学学报, 2014,32(12):2973-2978
[14] 张伟军,高雅,马士龙等,不同来源高浓度有机废水的集中处理,环境工程学报, 2013,7(4): 1213-1218.
[15] 张伟军,张明.震动膜处理乳化液废水研究, 环境工程学报,2012,6(1):222-225
[16] 张伟军,张明,谢炜, 等. 乳化液废水震动膜法处理及出水的可生化性分析. 水处理技术, 2011, 37(5):92-94.
[17] 何洁,杨晓芳,张伟军等,纳米Fe3O4-H2O2 非均相 Fenton反应催化氧化邻苯二酚, 环境科学, 2012,34(5): 135-143(EI)
[18] 洪云,肖萍,张伟军等. 浸没式超滤膜处理再生水过程中膜污染的形成与化学清洗研究, 环境工程学报,2016 (5):2495-2500
[19] 宋数斌,高雅,张伟军等,不同工艺对含高浓度腐植酸地下水处理的可行性,环境工程学报,2013,10(2): 3190-3194
[20] 牛美青, 张伟军, 王东升等, 不同混凝剂对污泥脱水性能的影响研究, 环境科学学报, 2012, 32(9): 2l26-2133
 
授权专利
[1] 王玉川,张伟军,党俐等. 一种高浓度乳化液废水的处理方法. 授权号: CN 102557341 B. 授权公告日: 2014.5.12
[2] 马士龙,张伟军,王玉川等.一种含铬高浓度有机废水的处理方法.授权公告号: CN 102616980 B. 授权公告日: 2013.6.12
[3] 高雷,党俐,张伟军等,一种金属加工表面处理液的处理方法.授权公告号: CN 102616979 B. 授权公告日: 2013.6.12
[4] 李国富,王东升,张伟军等 . 一种生化废气除臭净化装置及生物除臭方法 . 2015, CN102895867 B
 
承担教学任务
(1)环境监测B(48学时)
(2)固废处理与处置B(32学时)
(3)水污染控制工程(48学时)
(4)周口店野外地质实习(6周)
(5)北戴河地质认识实习(4周)
 
指导研究生情况
目前在读硕士研究生五名,合作指导博士研究生两名。
 
欢迎环境工程、微生物学和化学工程等专业的学生报考!

 

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