主要科研论文:
Ø Wang Z Y, Pan M L, Hu H, Zhou Q Q, Yuan H D, Han Y X, Zhou L X. Wang J D* . Unlocking the one-step recovery of solid S8 products through sulfur electro-oxidation in an acidic media, APPLIED CATALYSIS B: ENVIRONMENT AND ENERGY, 2024,358,124386
Ø Zhou Q Q, Wang Z Y, Yuan H D, Wang J D*, Hu H. Rapid hydrogen adsorption-desorption at sulfur sites via an interstitial carbon strategy for efficient HER on MoS2, APPLIED CATALYSIS B: ENVIRONMENT AND ENERGY, 2024,332,122750
Ø Ye Z P, Wang G J, Giraudon J M, Nikiforov, A, Chen J, Zhao L, Zhang X W, Wang J D*. Investigation of Cu-Mn catalytic ozonation of toluene: Crystal phase, intermediates and mechanism, JOURNAL OF HAZARDOUS MATERIALS, 2022,424,127321
Ø Yang J Q, Ye Z P, Wang G J, Zhao L, Zhang X W, Wang J D*, Jin Y F. Neuro-genetic machine learning framework accelerates the optimization of Ag/MnOx catalyst for total oxidation of toluene, APPLIED CATALYSIS A, GENERAL, 2021,622,118221
Ø Wang J D, Yao J C, Wang L, Xue Q W, H Z T, Pan B J*. Multivariate optimization of the pulse electrochemical oxidation for treating recalcitrant dye wastewater, SEPARATION AND PURIFICATION TECHNOLOGY, 2020,230,115851:1-8
Ø Xia G H, Zhou X L, Hu J, Sun Z Y, Yao J C, Chen D Z, Wang J D*. Simultaneous removal of carbon disulfide and hydrogen sulfide from viscose fibre waste gas with a biotrickling filter in pilot scale, JOURNAL OF CLEANER PRODUCTION, 2019,230:21-28
Ø Yao J C, Pan B J, Shen R X, Yuan T B, Wang J D⁎. Differential control of anode/cathode potentials of paired electrolysis for simultaneous removal of chemical oxygen demand and total nitrogen, SCIENCE OF TOTAL ENVIRONMENT, 2019,687:198-205
Ø Ye Z P, Shen R X, Zhou X L, Yao J C, Wang J D*. The research of steady-state electrochemical kinetics of effective and selective conversion of total nitrogen to N2, ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 2019,26:22971-22978
Ø Mei Y, Young J Q, Lu Y, Hao F L, Xu D M, Pan H, Wang J D*. BP–ANN Model Coupled with Particle Swarm Optimization for the Efficient Prediction of 2-Chlorophenol Removal in an Electro-Oxidation System, INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH,2019,16,2454:1-17
Ø Yu Mei a,b , Yin Lu b , Zhiping Ye a , Dongmei Xu b , Hua Pan b , Jiade Wang a, Impacts of operating parameters on oxidation–reduction potential and COD removal during the electrochemical removal of 2-chlorophenol, DESALINATION AND WATER TREATMENT,2019,140:199-206
Ø Wang J D, Zhang T, Mei Y, Pan B J. Highly efficient treatment of reverse-osmosis concentrated effluent by electro-oxidation process with accurately controlled oxidation-reduction potential (ORP), CHEMOSPHERE, 2018,201:621-626
Ø Huang, G L; Yao, J C; Pan, W L; Wang, J D*. Industrial-scale application of the plunger flow electro-oxidation reactor in wastewater depth treatment, ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 2016, 23(18):18288-18295
Ø Yao, J C; Zhou, M M; Wen, D N; Xue, Q W; Wang, J D*. Electrochemical conversion of ammonia to nitrogen in non-chlorinated aqueous solution by controlling pH value, JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 2016, 776(9):53-58
Ø Wang, J D; Yan, J J; Xu, W J. Treatment of dyeing wastewater by MIC anaerobic reactor, BIOCHEMICAL ENGINEERING JOURNAL, 2015,101: 179-184
Ø Wang, J D; Li, T T; Zhou, M M. Characterization of hydrodynamics and mass transfer in two types of tubular electrochemical reactors, ELECTROCHIMICA ACTA, 2015,173:698-704
Ø Zhu, R Y; Yang, C Y; Zhou, M M, Wang J D*. Industrial park wastewater deeply treated and reused by a novel electrochemical oxidation reactor, CHEMICAL ENGINEERING JOURNAL,2015,260:427-433
Ø Wang, J D; Xu, W J; Yan, J J, Yu J M. Study on the flow characteristics and the wastewater treatment performance in modified internal circulation reactor.CHEMOSPHERE,2014,117:631-637
Ø Li, T T; Li, X P; Chen, F X, Wang J D*. Three-Dimensional CFD Simulation of the Tubular Electrochemical Reactor with Meshed Plate Electrodes, JOURNAL OF THE ELECTROCHEMICAL SOCIETY,2014,161(5):E81-E86
Ø Yu, Y F; Zheng, L W; Wang, J*.Adsorption Behavior of Toluene on Modified 1X Molecular Sieves, JOURNAL OF THE AIR & WASTE MANAGEMENT ASSOCIATION , 2012,62(10):1227-1232
Ø Liu Q, Yu J M, Xu Y H, Wang J D,* Ying L,Song X X, Zhou G.D. Chen J M. Bioelectrocatalytic dechlorination of trichloroacetic acid at gel-immobilized hemoglobin on multiwalled carbon nanotubes modified graphite electrode: Kinetic modeling and reaction pathways,ELECTROCHIMICA ACTA,2013,92:153–160
Ø Wang,J D, Chen J M. Removal of dichloro methane from waste gases with a bio-contact oxidation reactor,CHEMICAL ENGINEERING JOURNAL,2006,123:103–107
Ø 胡浩,周青青, 王忠远, 王家德*, 陈玉敏, 韩银希.碳掺杂MoS2@Mo电极增强电解水析氢反应,科学通报,2024, 69:4299-4310
Ø 王忠远, 周青青, 胡浩, 王家德*.钼基碳掺杂二硫化钼电极的硫氧化反应性能,科学通报,2023, 68:1-11
Ø 邵碧娟, 李相鹏, 李婷婷, 王家德*. 网板结构柱塞流电化学反应器流场的PIV测试, 浙江大学学报(工学版),2015,49(1):130-135
Ø 王家德, 金顺利, 陈建孟. 一种缓释复合生物填料性能评价,中国科学B辑,2010,40(12):1874-1879
授权发明专利:
Ø 一种稳定的1T相二硫化钼的制备方法,发明专利,ZL202210199071.3
Ø 基于变电位控制的废水电氧化处理方法,发明专利,ZL20161050871.0
Ø 一种膜电耦合的废水深度处理方法,发明专利,ZL201510328468.8,
Ø 利用钛基二氧化铅复合电极去除废水COD和氨氮的方法, 发明专利,ZL201210244491.5
Ø 一种网板柱塞流电解装置及用于处理有机废水的方法, 发明专利,ZL201210043987.6
Ø 一种多级厌氧废水处理方法及应用装置,发明专利,ZL201210239531.7
Ø 一种利用载体流化床处理含盐有机废水的方法,发明专利,ZL200910098848.1
Ø 一种含氯苯类化合物的废水电氧化处理工艺,ZL200710067340.6
Ø 一种含2-氯酚废水的声电联合氧化处理方法,ZL200510061755.3
Ø 一种含苯酚废水的电解氧化处理工艺,ZL03151224.0
Ø 一种板式生物过滤塔及其废气处理工艺,ZL200610050347.2
Ø 一种气态污染物的生物氧化处理方法,ZL200410066802.9
Ø 一种用于生物滤床的复合填料,ZL200610053480.3
Ø 废气生物处理用填料,ZL200610053478.6
主要科研奖励:
Ø 典型行业废水低碳资源化关键技术及应用,中国循环经济协会科学技术(科技进步)奖一等奖,2024
Ø 市政污泥土地利用的安全技术体系构建及应用,中国循环经济协会科学技术(科技进步)奖一等奖,2023
Ø复杂有机废气生物净化过程强化技术及其应用,教育部科学技术进步奖一等奖,2020
Ø 一种板式生物过滤塔及其废气处理工艺,中国专利优秀奖,2018
Ø低浓度VOCs净化新技术及其工程应用,中国石油和化学工业联合会技术发明一等奖,2016
Ø 电氧化技术及其在工业废水处理中的应用,中国石油和化学工业联合会技术发明一等奖,2010
Ø 多组分工业废气高效生物净化新技术及工程应用,浙江省科学技术一等奖,2009
Ø 含硫氮污染物废气生物净化新技术及工业应用,中国石油和化学工业协会技术发明一等奖,2008
Ø 生物法废气净化新技术及工业应用,教育部技术发明二等奖,2008