环境过程控制研究组现有教授1人、副教授1人、博士生4人。近5年承担数项地方政府项目和企业科研项目。发表论文30余篇。
主要研究方向:(1) 环境流体控制技术:研究环境工程背景的气液固三相流体系中的传质反应动力学及反应器放大技术。(2) 表面活性剂处理技术:研究表面活性剂废水化学处理中涉及的热力学和计量特征,研究表面活性剂专用聚集剂及其应用性能。(3) 高级氧化技术的机理及应用,油泥回收成套技术,新型曝气设备及控制技术,以及其他专用环境技术。(4) 水污染控制技术与废水资源化。(5) 环境检测与咨询综合服务等。
The laboratory of Environmental Process Control currently has one professor, one associate professor and four doctoral candidates. In the last five years, we carried out several Basic and Applying research projects. Over 20 papers were published in the last five years. Sophisticated experimental equipments were designed and constructed every year.
Main research fields include:
(1) Environmental fluid control: Fluid principles with environmental background of liquid/gas/solid three-phase and their mass-transfer and reaction dynamics, reactor scale-up methods and others. (2) Aqueous surfactants treatment: Thermal and stoichiometry characteristic of surfactants in wastewater chemical treatment process, selection and assessment of professional flocculants for surfactants in waters. (3) Environmental applied techniques: Ozone oxidation and stereo reactors, oil recovery facility of petroleum sludge, novel aeration equipment and its control, and other environmental equipment techniques. (4) Water pollution control technology and wastewater recovery. (5) Environmental planning and environmental management.
代表论文
1.Zhang, Shuo,Quan, Xie , Wang, Dong. Magnetic FeOx-NdFeB@AC catalyst application in degradation of coking wastewater by activated persulfate process. Environ.Sci.Technol., 52(15),2018:8701-8711.
2. Hefei Wang, Dong Wang, Wei Ren. Coagulation treatment of SDS by hydrolyzed Al species: effects of pH and substrate concentration. Desalination and Water Treatment, 152 ,2019: 242–25.
3. Chunwei Yang , Dong Wang , Qian Tang , Yuwei Sun. Decoloration of Azo Dye Methyl Orange by A Novel Electro-Fenton Internal Circulation Batch Reactor. J. Adv. Oxid. Technol. 20(1), 2017.
4. Xue Li, Dong Wang, Shuo Zhang. Evaluation of Fe-Functionalized 4A Zeolite as Ozone Catalyst for an enhancement of Hydroxyl Radical Pathway in a Multiphase Reactor. OZONE: SCIENCE & ENGINEERING.,41(2),2019:156–165.
5. Shuo Zhang, Xie Quan, Dong Wang. Fluorescence microscopy image-analysis (FMI) for the characterization of interphase HO· production originated by heterogeneous catalysis. ChemComm. 53,2017:2575-2577.