孙鸿燕硕士生导师简介

发布时间：2023-05-16

研究方向：环境污染控制工程

联系方式：HySun@fosu.edu.cn

办公地址：佛山市禅城区江湾一路18号基础实验楼

基本信息

       特聘青年研究员，硕士生导师。主要从事水处理过程中的微界面作用过程研究工作，参与多项国家自然科学基金课题。

教育经历

2012.9–2016.6 北京科技大学，环境工程专业，学士学位

2016.9–2021.6 中国科学院生态环境研究中心，环境工程专业，博士学位

工作经历

      2021.09–今 佛山科学技术大学 环境与化学工程学院，特聘青年研究员，硕士生导师

发表论文

   [1] Aggregation and settling characteristics of particulate matter and DOM in a southern China reservoir: Influence of hydraulic conditions and dosing methods  Process Safety and Environmental Protection，166: 500-511 2022

  [2] Aggregation, settling characteristics and destabilization mechanisms of nano-particles under different conditions  Science of the Total Environment，827: 154228 2022

 [3] Variations in NOM during floc aging: Effect of typical Al-based coagulants and different particle sizes  Water Research，218: 118486 2022

 [4] Removal of microorganic pollutants in aquatic environment: The utilization of Fe(VI)  Journal of Environmental Management，316: 115328 2022

  [5] Floc formation and growth during coagulation removing humic acid: Effect of stirring condition  Separation and Purification Technology，302: 122084 2022

  [6] The difference of aggregation mechanism between microplastics and nanoplastics: Role of Brownian motion and structural layer force  Environmental Pollution，268: 115942 2021

  [7] Influence of particle size on the aggregation behavior of nanoparticles: Role of structural hydration layer  Journal of Environmental Sciences，103: 33-42 2021

  [8] Removal of phenolic contaminants from water by in situ coated surfactant on Keggin-aluminum nanocluster and biodegradation  Chemosphere，269: 128692 2021

  [9] The influence of particle size and concentration combined with pH on coagulation mechanisms  Journal of Environmental Sciences，82: 39-46 2019

     [10]Floc structure and membrane fouling affected by sodium alginate interaction with Al species as model organic pollutants  Journal of Environmental Sciences，82: 1-13 2019

科研项目

     [1] 纳米颗粒物结构层的形成机制、斥力特征及其对混凝微絮体形成影响作用，国家自然科学基金资助项目（52170013），58万元，202201-202512，参与

      [2]纳米颗粒物的混凝过程、微界面作用机理及动力学模型，国家自然科学基金资助项目（51808530）， 25万元，201901-202112，参与