浙江工业大学

童少平

发布日期:2024-04-27 浏览次数:

个人简介 基本信息童少平,男,汉族。浙江工业大学化学工程学院,教授,博士生导师。联系方式:sptong@zjut.edu.cn通信地址:杭州市潮王路18号浙江工业大学化工楼408邮政编码:310014工作经历时间工作经历2002-2004浙江大学环境科学与工程 博士后2004-至今浙江工业大学化学工程学院 教授2016-2017美国宾夕法尼亚大学化工学院 访问学者主要任职电化学杂志编委奖励和荣誉1.入选浙江省高校中青年学科带头人,及省 151人才工程第一层次人选2.电氧化技术及其在工业废水处理中的应用,获中石化技术发明奖一等奖3.3000吨/年丁二酸绿色电化学清洁生产公艺的研究与工业化,获中石化科技进步奖一等奖4.典型工业污水处理专用药剂的研制、集成应用技术及其产业化,获浙江省科学技术奖二等奖 教学与课程 讲授课程环境电化学(本科生专业课)材料电化学(本科生选修课)电化学工程(硕士研究生选修课) 科研项目 纵向项目1. 原子层沉积技术制备负载型复合铁氧化物及其在中性条件下的类Fenton反应性能 2. 钛及含钛Lewis acids促臭氧/过氧化氢体系氧化性能的广普性、高效性及其机制3. 电化学-臭氧耦合氧化体系的研究横向项目1. 电化学臭氧耦合技术处理膜浓水技术研究及处理装置的构建2. 电力系统多种金属的腐蚀行为与协同缓蚀技术研究3. 难降解污染物新处理技术的研究4. TFT-LCD生产过程中的电化学加工技术 科研成果 Tong shaoping et al. Synergetic mechanism for basic and acid sites of MgMxOy (M = Fe, Mn) double oxides in catalytic ozonation of p-hydroxybenzoic acid and acetic acid. Applied Catalysis B: Environmental.2020Tong shaoping et al. Activation of persulfate by graphite supported CeO2 for isoniazid degradation.Separation and Purification Technology.2020Tong shaoping et al. Solid base Mg-doped ZnO for heterogeneous catalytic ozonation of isoniazid: Performance and mechanism. Science of the total environment. 2020Tong shaoping et al. Coordination polymer-derived cobalt-embedded and N/S-doped carbon nanosheet with a hexagonal core-shell nanostructure as an effificient catalyst for activation of oxone in water. Journal of Colloid and Interface Science. 2020Tong shaoping et al. Electrospun Co3O4 nanofiber as an efficient heterogeneous catalyst for activating peroxymonosulfate in water. Journal of the Taiwan Institute of chemical engineers. 2020Tong shaoping et al. N-Graphene-CeO2 nanocomposite enriched with Ce (III) sites to improve the efficiency of peroxone reaction under acidic conditions,Separation and Purification Technology,2019Tong shaoping et al. Persulfate activation for efficient degradation of norfloxacin by a rGO-Fe3O4 composite. Journal of the taiwang institute of chemical engineers. 2019Tong shaoping et al. Quantitative Investigation of the Synergistic Effect of Electrolysis Combined with Ozonation for Degradation of Nitrobenzene. Ozone-Science&Engineering. 2019Tong shaoping et al. A novel carbon-coated Fe-C/N composite as a highly active heterogeneous catalyst for the degradation of Acid Red 73 by persulfate. Separation and Purification Technology. 2019Tong shaoping et al. Enhanced degradation of toxic azo dye, amaranth, in water using Oxone catalyzed by MIL-101-NH2 under visible light irradiation. Separation and Purification Technology,2019Tong shaoping et al. Graphite Felt Supported MgO Catalytic Ozonation of Bisphenol A. Ozone-Science&Engineering. 2019Tong shaoping et al. Enhanced Photoelectrochemical Oxidation of Water over Ti-Doped alpha-Fe2O3 Electrodes by Surface Electrodeposition InOOH. Journal of Physical chemistry C. 2019Tong shaoping et al. A novel composite Fe-N/O catalyst for the effective enhancement of oxidative capacity of persulfate at ambient temperature. Catalysis Communications, 2018Tong shaoping et al. One-step prepared cobalt-based nanosheet as an efficient heterogeneous catalyst for activating peroxymonosulfate to degrade caffeine in water. Journal of Colloid and interface Science,2018Tong shaoping et al. Oxygen vacancy of CeO2 improved efficiency of H2O2/O3 for the degradation of acetic acid in acidic solutions. Separation&Purification Technology,2018Tong shaoping et al. Solid Base MgO/Ceramic Honeycomb Catalytic Ozonation of Acetic Acid in Water. Industrial & Engineering Chemistry Research, 2017Tong shaoping et al. Fe-Ag/GAC catalytic persulfate to degrade Acid Red 73. Separation and Purification Technology, 2017Tong shaoping et al. Mn2+/H2O2/O3, a high efficient advanced oxidation process in acidic solution. Journal of Environmental Chemical Engineering, 2017Tong shaoping et al. An Effective Heterogeneous Ozone-Based Advanced Oxidation Process in Acidic Solution-Ti-MCM-41/H2O2/O3. Ozone: Science & Engineering, 2016Tong shaoping et al. The Effect of Iron Oxide Promoted Sulfated Zirconia on the Oxidative Efficiency of H2O2/O3 for Acetic Acid Degradation in Strong Acidic Water. Industrial& Engineering Chemistry Research,2016Tong shaoping et al. A promising ozone-based advanced oxidation process for effective generation of hydroxyl radicals in acidic solution. Separation and Purification Technology,2015Tong shaoping et al. Preparation of a high-performance composite PbO2 electrode from a new bath for p-chlorophenol oxidation. Separation and Purification Technology, 2014Tong shaoping et al. Effect of inorganic ions on the oxidative efficiency of Ti(IV)-catalyzed H2O2/O3 process in the pH range of 1.0 to 6.0. Ozone Science & Engineering, 2013

上一篇:朱廷恒     下一篇:吴骏