柴晓利 - 同济大学 - 环境科学与工程学院

个人简介

教育经历 1987.9-1991.7 东北师范大学，化学专业，理学学士 1997.9-2000.3 南京理工大学，环境工程，工学硕士 2003.-2003.7 同济大学，环境工程，工学博士工作经历 2003.7 -2007.7 同济大学环境科学与工程学院，讲师 2005.6-2006.6 日本九州大学工学院访问学者 2007.7-2012.12 同济大学环境科学与工程学院，副教授 2013.1-至今同济大学环境科学与工程学院，教授主要学术奖励超大城市高密度既有城区有机更新关键技术及其应用，上海市2019科技进步一等奖污泥减量的高效驱水关键技术研究及其成套技术的应用，上海市2019科技进步二等奖生活垃圾能源化与资源化利用技术及应用，国家2013年科技进步二等奖生活垃圾能源化与资源化利用技术及应用，教育部2012年科技进步一等奖大宗碱溶性金属废物碱介质提取技术与产业化应用，上海市2010年技术发明二等奖生活垃圾填埋场垃圾与土地利用技术，住房与城乡建设部2008年科技进步奖（华夏奖)三等奖垃圾资源化循环利用关键技术与应用，上海市2007年技术发明三等奖垃圾生物反应床处理生活垃圾渗滤液工艺及工程应用，2007年高等学校技术发明二等奖大型滩涂型生活垃圾填埋场填埋与运营关键技术研究，上海市2004年科技进步二等奖

研究领域

水体污染控制与生态修复技术固体废物处理处置与资源化技术

近期论文

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Simulative analysis of vegetation on CH4 emission from landfill cover soils: Combined effects of root-water uptake, root radial oxygen loss, and plant-mediated CH4 transport. Journal of Cleaner Production,2019,234:18-26. Methane emissions from landfill: influence of vegetation and weather conditions. Environmental Technology, 2019,40(16):2173-2181. Effect of soil types and ammonia concentrations on the contribution of ammonia-oxidizing bacteria to CH4 oxidation. Waste Management & Research,2019,37 (7):698-705. Biological denitrification using PHBV polymer as solid carbon source and biofilm carrier. Biochemical Engineering Journal,2019,146,186-193. Mechanism insights into bio-floc bound water transformation based on synchrotron X-ray computed microtomography and viscoelastic acoustic response analysis. Water Research,2018,142:480-489. Free-conditioning dewatering of sewage sludge through in situ propane hydrate formation. Water Research,2018,145:464-472. Development of sludge-derived mesoporous material with loaded nano CaO2 and doped Fe for re-utilization of dewatered waste-activated sludge as dewatering aids. Chemical Engineering Journal,2018,335:161-168. Designing an in-situ remediation strategy for polluted surface water bodies through the specific regulation of microbial community. Frontiers of Environmental Science & Engineering,2019,13(1).4. Enhanced phosphate removal using nanostructured hydrated ferric-zirconium binary oxide confined in a polymeric anion exchanger. Chemical Engineering Journal,2018,345:640-647. Development of polymeric iron/zirconium-pillared clinoptilolite for simultaneous removal of multiple inorganic contaminants from wastewater. Chemical Engineering Journal,2018,347:819-827. A Simulation model for estimating methane oxidation and emission from landfill cover soils. Waste management,2018,77:426-434. A simulation model for methane emissions from landfills with interaction of vegetation and cover soil. Waste management,2018,71:267-276. Methane emissions from landfill: influence of vegetation and weather conditions. Environmental technology, 2018:1-9. Methylmercury levels in cover soils from two landfills in Xi’an and Shanghai, China: Implications for mercury methylation potentials. Waste Management,2018, 78:331-336. Temporal variation of vegetation at two operating landfills and its implications for landfill phytoremediation[J]. Environmental technology,2018:1-9. Effect of carbon sources on denitrification performance, microbial community structure and denitrification genes. Science of the Total Environment,2018, 634:195-204. PHBV polymer supported denitrification system efficiently treated high nitrate concentration wastewater: denitrification performance, microbial community structure evolution and key denitrifying bacteria. Chemosphere,2018,197: 961-104. Effect of influent pH on biological denitrification using PHBV/PLA blends as electron donor. Biochemical Engineering Journal,2018,131:24-30. Removal of water nutrients by different aquatic plant species: An alternative way to remediate polluted rural rivers. Ecological Engineering,2018,110:18-26. Preferential removal of phosphorus using modified steel slag and cement combination for its implications in engineering applications[J]. Environmental Technology & Innovation,2018,10. Characterization of coal gasification slag-based activated carbon and its potential application in lead removal[J]. Environmental technology,2018,39(3):382-391. Exploring the potential of iTRAQ proteomics for tracking the transformation of extracellular proteins from enzyme-disintegrated waste activated sludge. Bioresource Technology,2017.2,225:75-83. Occurrence State and Molecular Structure Analysis of Extracellular Proteins with Implications on the Dewaterability of Waste-Activated Sludge. Environmental Science & Technology,2017.8.15,51(16):9235-9243. Simultaneous enhancement of sludge dewaterability and removal of sludge-borne heavy metals through a novel oxidative leaching induced by nano-CaO2. Environmental Science And Pollution Research,2017.7,24(19):16263-16275. Ecosystem activation system (EAS) technology for remediation of eutrophic freshwater. Scientific Reports,2017.7(6):4818. Characterization of chlorine and heavy metals for the potential recycling of bottom ash from municipal solid waste incinerators as cement additives. Frontiers of Environmental Science & Engineering,2016,10(4):1-9.IF,1.799. Development of montmorillonite-supported nano CaO2 for enhanced dewatering of waste-activated sludge by synergistic effects of filtration aid and peroxidation. Chemical Engineering Journal,2016.IF,5.310. Enhanced nutrient removal from lake water via biodegradation of poly (L-lactide)/poly (3-hydroxybutyrate-co-4-hydroxybutyrate) blends. RSC Advances, 2016,6(8):6528-6539.IF,3.289. Enhanced dewatering of waste-activated sludge by composite hydrolysis enzymes. Bioprocess and Biosystems Engineering,2016,39(4):627-639.IF,1.901. Field study of nitrous oxide production with in situ aeration in a closed landfill site. Journal of the Air & Waste Management Association,2016,66(3):280-287.IF,1.613. Hybrid cement-assisted dewatering, solidification and stabilization of sewage sludge with high organic content. Journal of Material Cycles and Waste Management,2016,18(2):356-365.IF,1.422. Methane emissions as energy reservoir: Context, scope, causes and mitigation strategies. Progress in Energy and Combustion Science,2016,56:33-70.IF,16.784.