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杨婷

【来源: | 发布日期:2020-04-14 】

杨婷

教育经历

2008.08-2012.07 清华大学环境学院给排水科学与工程专业 学士

2012.09-2015.07 清华大学环境学院环境科学与工程专业 硕士

2015.09-2019.01约克大学(University of York,英国)环境与地理系环境科学专业 博士

工作经历

2020.01-至今金年会体育在线登录生命与环境科学学院讲师

通信地址:北京市海淀区中关村南大街27号金年会体育在线登录生命与环境科学学院环境科学系

邮编:129871

邮箱:ty672@muc.edu.cn

个人主页:https://www.researchgate.net/profile/Ting_Yang36

研究领域

土壤修复,固体废物管理,新型材料开发

科研项目

废物基生物炭用于城市棕地重金属污染土壤修复研究,自然资源部退化及未利用土地整治工程重点实验室开放基金,2019-2020,在研,参加

古代青铜冶铸活动对土壤环境的影响研究—以老牛坡遗址为例,文化遗产研究与保护技术教育部重点实验室开放基金,2019-2021,在研,参加

生活垃圾填埋场污染控制措施适用性评估与全过程监管方法研究,环保公益性行业科研专项,2015-2017,已结题,参加

国家自然科学基金委员会青年基金,氧化铁对填埋场渗滤液有机质非生物腐殖化的强化效应与作用机制,2013-2015,已结题,参加

填埋场温室气体排放控制及固碳潜力研究与案例分析,国家发展改革委中国清洁发展机制基金赠款项目,2012-2014,已结题,参加

期刊论文(*通讯作者,#共同一作)

[1] Li Y,Yang T, Qiu S, Lin W, Yan J, Fan S, Zhou Q*. Uniform N-coordinated single-atomic iron sites dispersed in porous carbon framework to activate PMS for efficient BPA degradation via high-valent iron-oxo species. Chemical Engineering Journal2020; 389: 124382.

[2] Yang T*, Hodson ME. Investigating the use of synthetic humic-like acid as a soil washing treatment for metal contaminated soil. Science of The Total Environment2019; 647: 290-300.

[3] Zhuang L,Yang T, Zhang J*, Li X. The configuration, purification effect and mechanism of intensified constructed wetland for wastewater treatment from the aspect of nitrogen removal: A review. Bioresource Technology2019; 293: 122086.

[4] Zhuang L,Yang T, Zhang B, Wu Y, Hu H*. The growth model and its application for microalgae cultured in a suspended-solid phase photobioreactor (ssPBR) for economical biomass and bioenergy production. Algal Research2019; 39: 101463.

[5] Shen Y, Zhuang L*, Zhang J, Fan J,Yang T, Sun S. A study of ferric-carbon micro-electrolysis process to enhance nitrogen and phosphorus removal efficiency in subsurface flow constructed wetlands. Chemical Engineering Journal2019; 359: 706-712.

[6] Li Y, Chen D*, Fan S,Yang T. Enhanced visible light assisted Fenton-like degradation of dye via metal-doped zinc ferrite nanosphere prepared from metal-rich industrial wastewater. Journal of the Taiwan Institute of Chemical Engineers2019; 96: 185-192.

[7] Yang T*, Hodson ME. Investigating the potential of synthetic humic-like acid to remove metal ions from contaminated water. Science of The Total Environment2018; 635: 1036-1046.

[8] Yang T*, Hodson ME. The impact of varying abiotic humification conditions and the resultant structural characteristics on the copper complexation ability of synthetic humic-like acids in aquatic environments. Ecotoxicology and Environmental Safety2018; 165: 603-610.

[9] Yang T*, Hodson ME. The copper complexation ability of a synthetic humic-like acid formed by an abiotic humification process and the effect of experimental factors on its copper complexation ability. Environmental Science and Pollution Research2018; 25: 15873-15884.

[10]Yang T, Sun W, Yue D*. Characterizing the Effects of Biologically Active Covers on Landfill Methane Emission Flux and Bio-Oxidation. Journal of Environmental Engineering2017; 143: 04017059.

[11]Sun Y, Yue D*, Li R,Yang T, Liu S. Assessing the performance of gas collection systems in select Chinese landfills according to the LandGEM model: drawbacks and potential direction. Environmental Technology2015; 36: 2912-2918.

[12]Wang X, Yue D*, Zhao K, Han B,Yang T. Mitigation of non-methane organic compounds through landfill soil cover and its environmental implications. Journal of Material Cycles and Waste Management2015; 17: 616-625.

[13]Yue D*, Han B, Sun Y,Yang T. Sulfide emissions from different areas of a municipal solid waste landfill in China. Waste Management2014; 34: 1041-1044.

学术会议

[1] PICO presentation of “Removal of Cu2+from aqueous solution by an optimal synthetic humic-like acid formed by the abiotic humification process” on the “European Geosciences Union General Assembly 2018”, April 2018, Vienna, Austria

[2] Oral presentation of “A study on the copper complexation ability of a synthetic humic-like acid formed by an abiotic humification process” on the “Early Careers Researcher Conference 2017”, April 2017, Lancaster University, United Kingdom

[3] Oral presentation of “Determination of Field Methane Oxidation Efficiency at Municipal Solid Waste Landfills in the north of China” on the 1st Symposium of IWWG Asian Regional Branch (IWWG-ARB), March 2013, Hokkaido University, Sapporo, Japan;

[4] Poster of “Field Methane Oxidation Efficiency at Municipal Solid Waste Landfills Located In the North of China” on the 8th International Conference on Waste Management and Technology (ICWMT), October 2013, Shanghai, China

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