张常勇

个人信息Personal Information

特任教授

博士生导师

硕士生导师

电子邮箱:

办公地点:第一实验楼417

学位:博士

学科:环境科学与工程

研究论文

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已在环境工程领域发表SCI论文近70篇,包括环境类权威期刊论文ES&T (Lett.) 16篇,Water Research 20,总引用5595,H指数41

1.  Changyong Zhang, Lei Wu, Jinxing Ma, An Ninh Pham, Min Wang, and T. David Waite*. Integrated flow-electrode capacitive deionization and  microfiltration system for continuous and energy-efficient brackish water desalination. Environmental Science & Technology. 2019, 53(22), 13364-13373.

2. Changyong Zhang, Jinxing Ma, Lei Wu, Jingyi Sun, Li Wang, Tianyu Li, T. David Waite*. Flow electrode capacitive deionization (FCDI): recent developments, environmental applications and future perspectives. Enviromental Science & Technology. 2021, 55, 5243-4267.

3. Changyong Zhang, Jinxing Ma, Jingke Song, Calvin He, and T. David Waite*. Continuous ammonia recovery from wastewaters using an integrated capacitive flow electrode membrane stripping system. Environmental Science & Technology. 2018, 52(24), 14275-14285.

4. Changyong Zhang, Jinxing Ma, Di He, T. David Waite*. Capacitive membrane stripping for ammonia recovery (CapAmm) from dilute wastewaters. Environmental Science & Technology Letters. 2017, 5(1), 43-49.  

5. Jingyi Sun†, Changyong Zhang†, Zhao Song, and T. David Waite*, Boron Removal from Reverse Osmosis Permeate Using an Electrosorption Process: Feasibility, Kinetics, and Mechanism. Environmental Science & Technology. 2022 (共同一作)

6. Junjun Ma, Changyong Zhang, Fan Yang, Xudong Zhang, Matthew E Suss, Xia Huang, Peng Liang*. Carbon black flow electrode enhanced electrochemical desalination using single-cycle operation. Environmental science & technology. 2019, 54(2),1177-1185.(共同一作)

7. Yangyang Wu, Yingze Li, Ze Jiang, Ziyang Xu, Mingbao Yang, Jiahui Ding, and Changyong Zhang*. Machine learning prediction of phosphate adsorption on six different metal-containing adsorbents. ACS ES&T Engineering. 2023, XXX, XXX−XXX

8. Changyong Zhang, Xiang Cheng, Min Wang, Jinxing Ma, Richard Collins, Andrew Kinsela, Ying Zhang, T. David Waite*. Phosphate recovery as vivianite using a flow-electrode capacitive desalination (FCDI) and fluidized bed crystallization (FBC) coupled system. Water Research. 2021, 194, 116939.

9.      Changyong Zhang, Min Wang, Wei Xiao, Jinxing Ma, Jingyi Sun, Hengliang Mo, T. David Waite*. Phosphate selective recovery by magnetic iron oxide impregnated carbon flow-electrode capacitive deionization. Water Research. 2020, 189, 116653.

10.  Changyong Zhang, Lei Wu, Jinxing Ma, Min Wang, T. David Waite*. Evaluation of long-term performance of a continuously operated flow-electrode CDI system for salt removal from brackish waters. Water Research. 2020, 173, 115580.

11.  Changyong Zhang, Di He, Jinxing Ma, T. David Waite*. Active chlorine mediated ammonia oxidation revisited: reaction mechanism, kinetic modelling and implications. Water Research. 2018, 145, 220-230.

12.  Changyong Zhang, Di He, Jinxing Ma, Wangwang Tang, T. David Waite*. Faradaic reactions in capacitive deionization (CDI) - problems and possibilities: a review. Water Research. 2018, 128, 314-330. 

13.  Lei Wu,  Changyong Zhang*, T. David Waite*. Lithium recovery by Electrochemical-based technology: A review. Water Research. 2022. (共同通讯)

14.  Changyong Zhang, Di He, Jinxing Ma, Wangwang Tang, T. David Waite*. Comparison of Faradaic reactions in flow-through and flow-by Capacitive Deionization (CDI) system. Electrochimica Acta. 2019, 299, 727-735.

15.  Changyong Zhang, Jinxing Ma, T. David Waite*. The impact of absorbents on ammonia recovery in a capacitive membrane stripping system. Chemical Engineering Journal. 2019. 382, 122851.

16.  Changyong ZhangJinxing Ma, & T. David Waite*. Ammonia-rich solution production from wastewaters using chemical-free flow-electrode capacitive deionization. ACS Sustainable Chemistry & Engineering. 2019,7(7), 6480-6485.

17.  Changyong Zhang, Peng Liang*, Yong Jiang, Xiaoyuan Zhang, Xia Huang. Binder-free graphene and manganese oxide coated carbon felt anode for high-performance Microbial fuel cell. Biosensors and Bioelectronics. 2016, 81, 32-38.

18.  Changyong Zhang, Peng Liang*, Yong Jiang, Xia Huang. Enhanced power generation of microbial fuel cell using manganese dioxide-coated anode in flow-through mode. Journal of Power Sources. 2015, 273, 580-583.

19.  Hongyan RongChangyong Zhang, Yuyang Sun, Lei Wu, Boyue Lian, Yuan Wang, Yong Chen, Yong Tu, T T. David Waite*. Electrochemical degradation of Ni-EDTA complexes in electroless plating wastewater using PbO2-Bi electrodes. Chemical Engineering Journal. 2021, 133230. (共同一作)

20.  Li Wang, Changyong Zhang, Calvin He, T. David Waite and Shihong Lin*. Equivalent Film-Electrode Model for Flow-Electrode Capacitive Deionization: Experimental Validation and Performance Analysis. Water Research. 2020, 181, 115917.

21.  Tianyu Wang, Changyong Zhang, Langming Bai, Binghan Xie, Zhendong Gan, Jiajian Xing, Guibai Li, Heng Liang*. Scaling behavior of iron in capacitive deionization (CDI) system. Water Research. 2020, 171, 115370.

22.  Calvin He, Jinxing MaChangyong Zhang, Jingke Song, and T. David Waite*. Short-circuited closed-cycle operation of flow-electrode cdi for brackish water softening. Environmental Science & Technology. 2018, 16, 9350-9360.

23.  Junjun Ma, Jinxing MaChangyong Zhang, Jingke Song, Richard N Collins, T David Waite*. Water recovery rate in short-circuited closed-cycle operation of flow-electrode capacitive deionization (FCDI). Environmental Science & Technology. 2019, 53, 13859-13867.

24.  Jiangzhou Xie, Jinxing Ma, Changyong Zhang, Xiangtong Kong, Zhiwei Wang, T David Waite*. Effect of the Presence of Carbon in Ti4O7 Electrodes on Anodic Oxidation of Contaminants. Environmental Science & Technology. 2020, 54(8), 5227-5236.

25.  Wangwang Tang, Di He, Changyong Zhang, Peter Kovalsky, and T. David Waite*. Comparison of Faradaic reactions in capacitive deionization (CDI) and membrane capacitive deionization (MCDI) water treatment processes. Water Research. 2017, 120, 229-237.

26.  Wangwang Tang, Di He, Changyong Zhang, and T. David Waite*. Optimization of sulfate removal from brackish water by membrane capacitive deionization (MCDI). Water Research. 2017, 121, 302-310.

27.  Jinxing Ma, Calvin He, Di He, Changyong Zhang, and T. David Waite*. Analysis of capacitive and electrodialytic contributions to water desalination by flow-electrode CDI. Water Research. 2018, 144, 296-303.

28.  Jinxing Ma, Di He, Wangwang Tang, Peter Kovalsky, Calvin He, Changyong Zhang, and T. David Waite*. Development of redox-Active flow electrodes for high-Performance  Capacitive Deionization. Environmental Science & Technology. 2016, 24, 13495-13501.

29.  Yichen Liu, Jack Yang, Yang Liu, Jian Zheng, Wen Lee, Junjie Shi, Jonathan Horlyck, Jiangzhou Xie, Yee Yan Tay, Thiam Teck Tan, Dehong Yu, Richard Mole, Garry McIntyre, Changyong Zhang, Cui Ying Toe, T David Waite, Jason Scott, Yu Wang, Tom Wu, Shenghao Han, Sean Li*. Manipulation of planar oxygen defect arrangements in multifunctional magnèli titanium oxide hybrid systems: from energy conversion to water treatment. Energy & Environmental Science. 2020, 13(12), 5080-5096.

30.  Kuichang Zuo, Jiaxiang Cai, Shuai Liang, Shijia Wu, Changyong Zhang, Peng Liang, Xia Huang*. A Ten liter stacked microbial desalination cell packed with mixed ion-exchange resins for secondary effluent desalination. Environmental Science & Technology. 2014, 48, 9917-9924.

31.  Peng Liang*, Changyong Zhang, Yong Jiang, Yanhong Bian, Helan Zhang, Xueliang Sun, Xufei Yang, Xiaoyuan Zhang, and Xia Huang. Performance  enhancement of microbial fuel cell by applying transient-state regulation. Applied Energy. 2017, 185, 582-588.

32.  Yong Jiang, Peng Liang*, Changyong Zhang, Yanhong Bian, Xufei Yang, Xia Huang, Peter Girguis. Enhancing the response of microbial fuel cell based toxicity sensors to Cu (II) with the applying of flow-through electrodes and controlled anode potentials. Bioresource Technology. 2015, 190, 367-372.

33.  Shijia Wu, Peng Liang, Changyong Zhang, Hui Li, Kuichang Zuo, Xia Huang*. Enhanced performance of microbial fuel cell at low substrate concentrations by adsorptive anode. Electrochimica Acta. 2015, 151, 245-251.

34.  Yanhong Bian, Peng Liang*, Xufei Yang, Yong Jiang, Changyong Zhang. Xia Huang. Enhanced desalination performance of membrane capacitive    deionization cells by packing the flow chamber with granular activated  carbon. Water Research. 2015, 85, 371-376.  

35.  Yanhong Bian, Peng Liang*, Xufei Yang, Yong Jing, Changyong Zhang, and Xia Huang. Using activated carbon fiber separators to enhance the desalination rate of membrane capacitive deionization. Desalination. 2016, 381, 95-99.

36.  Calvin He, Boyue Lian, Jinxing Ma, Changyong Zhang, Yuan Wang, Hengliang Mo, T David Waite*. Scale-up and Modelling of Flow-electrode CDI Using Tubular Electrodes. Water research. 2021, 203, 117498.

37.  Qing Wu, Xiaoxu Yan, Xue Xia, Changyong Zhang, Tao Xue, Kaichang Yu, Peng Liang, Xia Huang*, Analysis of the mixing characteristics of a full-scale membrane bioreactor for municipal wastewater treatment. Bioresource Technology. 2018, 250, 932-935.

38.  Panpan Liu, Changyong Zhang, Peng Liang*, Yong Jiang, Helan Zhang, Xia Huang, Enhancing extracellular electron transfer efficiency and bioelectricity production by vapor polymerization Poly (3, 4-ethylenedioxythiophene)/MnO2 hybrid anode. Bioelectrochemistry. 2019, 126, 72-78.

39.  Jingke Song, Jinxing MaChangyong Zhang, Calvin He, and T. David Waite*. Implication of non-electrostatic contribution to deionization in flow-electrode CDI: case study of nitrate removal from contaminated source waters. Frontiers in Chemistry. 2019, 7, 146. 

40.  Jinxing Ma, Junjun Ma, Changyong Zhang, Jingke Song, Wenjia Dong, T David Waite*. Flow-electrode capacitive deionization (FCDI) scale-up using a membrane stack configuration. Water research. 2020,168: 115186

41.  Jiangzhou XieChangyong Zhang, T. David Waite*. Hydroxyl radicals in anodic oxidation systems: generation, identification and quantification. Water Research. 2022, 118425.

42.  Jiangzhou Xie, Jinxing Ma, Changyong Zhang, T David Waite*. Direct electron transfer (DET) processes in a flow anode system–Energy-efficient electrochemical oxidation of phenol. Water Research. 2021, 203, 117547.

43.  Cong Chen, Minyuan Han, Jingmei Yao, Yue Zhi, Yuanyuan Liu, Changyong Zhang, Le Han*. Donnan dialysis-osmotic distillation (DD-OD) hybrid process for selective ammonium recovery driven by waste alkali. Environmental Science & Technology. 2021, 55(10), 7015-7024.

44.  Longqian Xu, Chao Yu, Shiyu Tian, Yunfeng Mao, Yang Zong, Xiaomeng Zhang, Bing Zhang, Changyong Zhang, Deli Wu*. Selective recovery of phosphorus from synthetic urine using flow-electrode capacitive deionization (FCDI)-based technology. ACS ES&T Water. 2020, 1(1), 175-184.

45.  Xian Li, Chun Xiao, Xian Ruan, Yongyou Hu*Changyong Zhang, Jianhua Cheng. Yuancai Chen. Enrofloxacin degradation in a heterogeneous electro-Fenton system using a tri-metal-carbon nanofibers composite cathode. Chemical Engineering Journal. 2022, 427: 130927.

46.  Panpan Liu, Changyong Zhang, Peng Liang*, Yong Jiang, Xiaoyuan Zhang, Xia Huang. Enhancing extracellular electron transfer efficiency and bioelectricity production by vapor polymerization Poly (3, 4-ethylenedioxythiophene)/MnO2 hybrid anode. Bioelectrochemistry. 2019, 126: 72-78.

47.  Guoshuai Liu*, Changyong Zhang, Yanan Zhou*, Qun Yan. Insight into the overpotential and thermodynamic mechanism of hydroxyl radical formation on diamond anode. Applied Surface Science. 2021, 565, 150559.

48.  Yong Jiang, Peng Liang*Changyong Zhang, Yanhong Bian, Xueliang Sun, Helan Zhang, Xufei Yang, Feng Zhao, Xia Huang. Periodic polarity reversal for   stabilizing the pH in two-chamber microbial electrolysis cells. Applied Energy. 2016, 165, 670-675.

49.  Helan Zhang, Peng Liang*, Yanhong Bian, Yong Jiang, Xueliang Sun, Changyong Zhang, Xia Huang, Fei Wei. Moderately oxidized graphene–carbon nanotubes hybrid for high performance capacitive deionization. RSC advances. 2016, 6(64), 58907-58915.

50.  Yuyang Sun, Changyong Zhang, Hongyan Rong, Lei Wu, Boyue Lian, Yuan Wang, Yong Chen, Yong Tu, T David Waite*. Electrochemical Ni-EDTA degradation and Ni removal from electroless plating wastewaters using an innovative Ni-doped PbO2 anode: Optimization and mechanism. Journal of Hazardous Materials. 2022, 424, 127655.