团队名称:水处理技术团队
团队负责人:张立国 教授
团队成员:
l 教授:肖羽堂、张立国
l 副教授/副研究员:张刚、吕向红、孙建良、李钰
团队简介:
水处理技术团队依托环境理论化学教育部重点实验室、广东省化学品污染与环境安全重点实验室、广东省水环境生态治理与修复工程技术研究中心、广东省饮用水安全保障工程技术研究中心,独立建有广东省城市水系统管理与治理技术国际联合研究中心、广东省排水管理与污水处理工程技术研究中心等交叉研究与成果转化平台。研究领域主要包括城市污水污泥减量及资源化、铁硫循环在污染控制中的应用技术、新型污水/饮用水安全消毒技术、水污染控制与新型有机污染物控制新技术、环境生态修复技术、水处理技术研究及工程开发等。
团队成员致力于开发新型污水/饮用水处理技术及产业化。目前,与广州市水务集团、佛山水业、广州鹏凯等企业开展了广泛的产学研合作,已为各企业解决技术难题100余项,产业化成果被国际水协会、央视CCTV移动网、博罗县电视台等多家媒体报道。近五年主持和参加了包括国家自然科学基金项目、广东省重点领域研发计划项目、广东省自然科学基金项目、广东省基础与应用基础研究区域联合基金项目、教育部重点项目及横向合作项目等20余项。
在Environmental Science and Technology、Water Research、Environment International、Journal of Hazardous Materials、Chemical Engineering Journal、Journal of Cleaner Production等重要国际期刊上发表SCI论文80余篇,申请或授权国家发明专利60余项,出版教材、参编专著7部,曾获得省(部)级、市级科技进步奖等奖项。
研究方向:
城市污水污泥减量及资源化
铁硫循环在污染控制中的应用技术
工矿废水中重金属污染物的控制技术
新型污水/饮用水安全消毒技术
水处理技术工程应用化
代表性成果:
(1)重要科研项目
l 国家级
[1] 国家自然科学基金联合基金重点项目子课题,粤北多金属硫化矿区尾矿资源化与污染控制原理,U23A2049,2024.-2027,64.75万,李钰,在研
[2] 国家自然科学基金面上项目,铁硫循环介导的电子转移影响感潮水体沉积物卤代有机污染物降解脱毒的机制,42177358,2022-2025,56万,孙建良,在研
[3] 国家自然科学基金青年项目,粤港澳大湾区城市水体中生物硫代谢过程对甲基汞污染的作用机制与控制原理,42307304,2024-2026,30万,李钰,在研
[4] 国家自然科学基金面上项目,內源生化合成FNA/两相厌氧消化耦合工艺强化剩余污泥厌氧消化性能机理研究,51978290,2020-2023,60万,张立国,结题
[5] 国家自然科学基金青年项目,基于Fe@FeOOH颗粒的铁硫循环工艺对沉积物中硫化氢和持久性有机污染物的协同控制,51808231,2019-2021,25万,孙建良,结题
l 省市级
[1] 广东省重点领域研发计划课题,市政污泥减量及资源化利用关键技术研究及示范,20191B110209002,2019-2023,160万,张立国,在研
[2] 广东省科技创新战略专项资金,广东省城市水系统管理与治理技术国际联合研究中心(广东省国际科技合作基地),2021A0505020010,2021-2023,25万,张立国,在研
[3] 华南师范大学-广州鹏凯环境公司校级产学研结合示范基地,119万,肖羽堂,在研
[4] 广州市科技菁英“领航”项目,基于铁硫循环的强化还原与生物法协同控制难降解新兴有机污染物的机制与技术研究,SL2024A04J00080,2024-2027,30万,孙建良,在研
[5] 广东省自然科学基金项目面上项目,基于单质硫的光化学反应体系去除废水重金属的机制和工艺研究,2023A1515011232,2023-2025,10万,孙建良,在研
[6] 广东省自然科学基金项目面上项目,受纳水体中芳香族消毒副产物的光化学降解机制及其生态风险评估,2023A1515010903,2023-2025,10万,李钰,在研
[7] 广州市重点研发计划子课题,城市下埋管道安全风险在线监控及管理关键技术研究与应用,2023B03J0007,2023-2026,10万,孙建良,在研
[8] 深圳市技术攻关重点项目,难降解垃圾渗滤液非均相催化臭氧处理关键技术研发,重20170491,2018-2021,120万,肖羽堂,结题
[9] 广东省区域联合基金项目青年项目,输水管网中无机离子与管道腐蚀金属氧化物对消毒副产物的联合作用影响,2020-2022,10万,李钰,结题
l 企业合作/横向项目:十余项
(2)代表性高水平论文
[1] Long-term stable and efficient degradation of ornidazole with minimized by-product formation by a biological sulfidogenic process based on elemental sulfur. 2024. Water Research
[2] Elimination of methylmercury in residual activated sludge in domestic wastewater treatment plants. 2024. Science of The Total Environment
[3] Impact of non-aged and UV-aged microplastics on the formation of halogenated disinfection byproducts during chlorination of drinking water and its mechanism. 2024. Environmental Pollution
[4] Recycling of waste aluminum scraps to fabricate sulfidated zero-valent iron-aluminum particles for enhanced chromate removal. 2024. Journal of Environmental Sciences
[5] Treatment and remediation of metal-contaminated water and groundwater in mining areas by biological sulfidogenic processes: A review. 2023. Journal of Hazardous Materials
[6] Improving sludge dewaterability by free nitrous and lysozyme pretreatment: Performances and mechanisms. 2023. Science of The Total Environment
[7] Experimental and modeling investigations on the unexpected hydrogen sulfide rebound in a sewer receiving nitrate addition: Mechanism and solution. 2023. Journal of Environmental Sciences
[8] Recycling of waste aluminum scraps to fabricate sulfidated zero-valent iron-aluminum particles for enhanced chromate removal. 2023. Journal of Environmental Sciences
[9] Effect of foliage applied chitosan-based silicon nanoparticles on arsenic uptake and translocation in rice (Oryza sativa L.) 2022. Journal of Hazardous Materials
[10] Enhanced two-phase anaerobic digestion of waste activated sludge by combined free nitrous acid and manganese dioxide. 2022. Journal of Cleaner Production
[11] Formation of halogenated disinfection byproducts in chlorinated real water during making hot beverage: Effect of sugar addition. 2022. Chemosphere
[12] Effects of ultrasonication on the DBP formation and toxicity during chlorination of saline sewage effluents. 2022. Journal of Environmental Sciences
[13] Simultaneous removal of hydrogen sulfide, phosphate and emerging organic contaminants, and improvement of sludge dewaterability by oxidant dosing in sulfide-iron-laden sludge. 2021. Water Research
[14] A pilot-scale sulfur-based sulfidogenic system for the treatment of Cu-laden electroplating wastewater using real domestic sewage as electron donor. 2021. Water Research
[15] The exacerbation of mercury methylation by Geobacter sulfurreducens PCA in a freshwater algae-bacteria symbiotic system throughout the lifetime of algae. 2021. Journal of Hazardous Materials
[16] Simultaneous removal of hydrogen sulfide, phosphate and emerging organic contaminants, and improvement of sludge dewaterability by oxidant dosing in sulfide-iron-laden sludge. 2021. Water Research
[17] Integration of SO4-based AOP mediated by reusable iron particles and a sulfidogenic process to degrade and detoxify Orange II. 2020. Water Research
[18] Microbial iron reduction enhances in-situ control of biogenic hydrogen sulfide by FeOOH granules in sediments of polluted urban waters. 2020. Water Research.
[19] Removal of heavy metals using a novel sulfidogenic AMD treatment system with sulfur reduction: Configuration, performance, critical parameters and economic analysis. 2020. Environment International
[20] Improving heavy metals removal, dewaterability and pathogen removal of waste activated sludge using enhanced chemical leaching. 2020. Journal of Cleaner Production
[21] Volatile DBPs contributed marginally to the developmental toxicity of drinking water DBP mixtures against Platynereis dumerilii. 2020 Chemosphere
[22] Combined physical and chemical activation of sludge-based adsorbent enhances Cr (Ⅵ) removal from wastewater. 2019. Journal of Cleaner Production
[23] The influence of the UV/chlorine advanced oxidation of natural organic matter for micropollutant degradation on the formation of DBPs and toxicity during post-chlorination. 2019. Chemical Engineering Journal
[24] Experimental and modelling evaluations of sulfide formation in a mega-sized deep tunnel sewer system and implications for sewer management. 2019. Environment International
[25] Magnetically-mediated regeneration and reuse of core-shell Fe0@ FeIII granules for in-situ hydrogen sulfide control in the river sediments. 2019. Water Research
[26] Arsenite removal without thioarsenite formation in a sulfidogenic system driven by sulfur reducing bacteria under acidic conditions. 2019. Water Research
[27] Increasing capacity of an anaerobic sludge digester through FNA pre-treatment of thickened waste activated sludge. 2019. Water Research
[28] Oxidative debromination of 2,2-bis (bromomethyl)-1, 3-propanediol by UV/persulfate process and corresponding formation of brominated by-products. 2019. Chemosphere
[29] Conversion of haloacid disinfection byproducts to amino acids via ammonolysis. 2019. Chemosphere
[30] Biological sulfur reduction to generate H2S as a reducing agent to achieve simultaneous catalytic removal of SO2 and NO and sulfur recovery from flue gas. 2018. Environmental Science & Technology
[31] Oxidation of iron sulfide and surface-bound iron to regenerate granular ferric hydroxide for in-situ hydrogen sulfide control by persulfate, chlorine and peroxide. 2018. Chemical Engineering Journal
[32] Recycling and reuse of rusted iron particles containing core-shell Fe-FeOOH for ibuprofen removal: Adsorption and persulfate-based advanced oxidation. 2018. Journal of Cleaner Production
(3)授权发明专利或成果转化、成果应用
l 部分申请、授权发明专利
[1] 一种有毒有害气体的远程在线监测预警装置、电路,2023206356762
[2] 一种气体浓度监测系统,202320634646X
[3] 一种硫化改性的零价铁铝复合材料及其制备方法和应用,202210640404.1
[4] 一种氮磷资源回收装置,ZL202123042099.6
[5] 一种过硫酸盐高级氧化耦合生物硫酸盐还原处理废水方法,ZL201910509500.0
[6] 基于改进型遗传算法对SWMM参数进行自动率定软件V1.0,2021SR1666680
[7] 城市雨水管网设计的虚拟仿真软件V1.0,2020SR0959834
[8] 一种内源FNA预处理污泥减量化及资源化工艺,ZL 201710147204.1
[9] 一种颗粒电极及其制备方法和应用,ZL201810238257.9
[10] 一种利于消除黑臭水体的污水处理工艺和装置,CN 201610196416.4
[11] 一种污泥基吸附剂的制备方法,ZL 201310169985.6
[12] 强化去除厌氧消化污泥上清液中磷的方法,CN 200810050392.7
[13] 微污染原水富氧生物预处理除污染工艺,ZL 200710057625.1
[14] 1-氨基-8-萘酚-3,6-二磺酸生产废水的治理及其回收利用方法,ZL 200710057626.6
[15] 一种H-酸生产废水的处理方法,ZL 200710057544.1
[16] 一种高含盐富营养化景观水体的藻类控制方法,ZL200710057543.7
[17] 分区进泥循环折流式污水污泥厌氧处理装置,ZL 200620028387.2
[18] 一种宾馆污水气浮-富氧生物处理与回用方法,ZL 200610129855.X
[19] 一种酒店污水处理回用的无臭节能微氧生物处理组合工艺系统,ZL 200610129853.0
[20] 一种甲醇废水处理回用于循环冷却水的方法,ZL 200610129854.5
[21] 一种印染废水无臭生化处理方法,ZL 200610129852.6
l 专利技术产业化转化、成果应用
[1] 开发出弹性填料富氧曝气生物技术异位修复低浊度污染原水大型示范工程(10万吨/日、5万吨/日)
[2] 开发曝气催化-低温解吸除氧新工艺水处理与回注示范装置5000吨等3套(授权发明专利3项)
[3] 开发出绿色酒店生活污水微氧生物节能减排技术及其优化集成回用新工艺(沈阳等7家单位推广使用)
[4] 开发出新兴甲醇工业废水回用于循环冷却水技术及零排放工程示范与成套装备,在长庆油田公司等多处推广应用(15万吨/年)
[5] 开发出新兴二甲醚工业废水回用于循环冷却水技术及零排放工程示范及成套装备(江苏张家港久泰能源公司等处推广应用,100万吨/年)
[6] 成功开发出工业园区印染废水厂深度处理脱色技术示范工程(3000吨/日)
[7] 黑臭河涌富氧曝气生物技术原位修复技术及示范工程(15km)
(4)科技奖项与其它重要成果
[1] 教育部科技进步三等奖,“弹性填料富氧曝气生物技术异位修复低浊度污染原水大型示范工程”,肖羽堂
[2] 天津市专利优秀奖,“曝气催化-低温解吸除氧新工艺水处理与回注示范装置”,肖羽堂
[3] 天津市科技进步二等奖,“黑臭河涌富氧曝气生物技术原位修复技术及示范工程”,肖羽堂
[4] 2020年,中国科学科技协会“中国制水大工匠”,肖羽堂
[5] 2019年3月,肖羽堂教授课题组攻克园洲镇污水厂提标改造工程技术难题,工程项目验收后,获央视报道
[6] 湖南长沙国家高新技术开发区创新领军人才称号,肖羽堂
[7] 2019-2020年,“一博环保杯”《工业水处理》“优秀论文二等奖”,肖羽堂
[8] 2019年,第三届全国水处理与回用学术会“优秀会议论文奖”,孙建良
团队联系人:李钰,13570302113,yuili113@m.scnu.edu.cn
诚招污水处理、污泥资源化、饮用水安全消毒等方向青年英才、博士后及研究生。