师资队伍

    环境科学与工程系

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    谈琰个人简介

    发布人:任孔冰时间:2023年02月21日浏览:

    姓名

    谈琰

    单位

    环境与市政工程学院

    职称

    副教授/硕导

    邮箱

    tanyan@qut.edu.cn

    学术兼职

    Aerosol Science and Engineering, Air Quality, Atmosphere   & Health, Science of The Total Environment等期刊审稿人

    个人简介

    *     教育背景

    博士:2017/09-2021/08,香港理工大学,建设及环境学院

    硕士:2015/08-2016/09,香港理工大学,建设及环境学院

    本科:2011/09-2015/06,西安交通大学,能源与动力工程学院

    *     工作经历

    2021/11-至今,青岛理工大学环境与市政工程学院,副教授

    2016/12-2017/07,香港科技大学理学院,助理研究员

    *   研究方向

    大气污染与控制,挥发性有机物表征与源解析,新型碳材料,气态污染物催化氧化(欢迎有志于从事相关研究的同学与我联系)

    课程教学

       科:大气污染控制工程,环境影响评价

    研究生:大气污染控制原理与技术

     修:室内空气污染与防治,大气环境化学

    学术成果

    *   科研项目

    [1] 青岛市典型含氧挥发性有机物(OVOCs)的分布、来源及对臭氧生成的影响,山东省自然科学基金(青年项目)ZR2022QD11115万,2023.01-2025.12(在研),课题负责人

    [2]   青岛理工大学高层次人才引进计划项目2021.11-2024.11,青岛理工大学,20万元,课题负责人

    [3]   Provision of analysis and report service for organic chemicals,香港理工大学,横向课题,课题负责人.

    [4]   Provision of Services on Element Carbon / Organic Carbon Analysis, Ions   Analysis, Carbonyl Analysis,香港理工大学,横向课题,课题负责人.

    [5] 酚醛树脂微球合成技术研究,卡伯泰科(青岛)复合材料有限公司,横向课题,课题负责人.

    [6] Photochemical Air Pollution in Highly Urbanized   Subtropical Regions: from Microenvironments to Urban terrestrial oceanic   InteractionsHK RGC Theme-based Research   SchemeT24/504/17, 3333万,2018.01-2022.12(结题),子课题主要负责人。

    [7] Characterisation and evaluation of the feasibility of   miniaturised gas cleaning devices as control of cooking oil fume from   different styles of restaurants in Hong KongHK EPD Environment and Conservation FundECF 63/2019, 196.1万,2020.07-2023.07(结题),主要参与人。

    [8] 纳米光催化大气污染控制技术研究与示范应用,科技部国家重点研发计划纳米科技重点专项2016YFA02030001934万,2016.07-2021.07(结题),主要参与人。

    *     科研论文

    [1]   谈琰,张玉佳,刘晓,刘亭,马子轸,张华伟,李顺诚*, 2024. 基于烟雾箱模拟的异戊二烯夜间臭氧化反应的研究.中国环境科学.

    [2]   Sun, H. P, Tan, Y.,   Tang, M. X, Meng, Q., Liu, T., Ma, Z. Z, Zhang, H, W.*, 2024.   Phenolic resin-based nanoflower porous carbon synthesized by self-assembly of   MgO hydrolysis for boosting supercapacitor performance. Applied Surface   Science, 673, 160874.

    [3] Tan, Y., Han S.W., Chen Y., Wu Z.B.,   Lee, S.C.*, 2023. Long-term variation and evaluation of air quality across   Hong Kong. Journal of   Environmental Sciences, 127: 284-294.

    [4] Han, S.W., Li, X.W., Tan, Y.*(通讯作者), Huang, Y., Wu, Z.B., Lee,   S.C.*, 2023. In-situ self-sacrificed fabrication of insulator-based SrTiO3/SrCO3   heterojunction interface for gaseous HCHO and NO photocatalytic degradation. Applied Surface Science, 612: 155806.

    [5]   Han S.W., Tan, Y.*(通讯作者), Gao Y, Li, X.W., Ho S.S.H, Wang M, Lee, S.C.*, 2023. Volatile organic   compounds at a roadside site in Hong Kong: Characteristics, chemical   reactivity, and health risk assessment. Science of The Total   Environment, 161370.

    [6] Tan,   Y., Han, S.W., Chen, Y., Zhang Z.Z., Li, H.W.,   Li, W.Q., Yuan, Q., Li, X.W., Wang, T., Lee, S.C.*, 2021. Characteristics and   source apportionment of volatile organic compounds (VOCs) at a coastal site   in Hong Kong. Science of The Total Environment, 777, 146241.

    [7] Tan, Y., Liu, C., Ho,   K.F., Ma, Q.X., Lee, S.C.*, 2021. Characterization of an indoor environmental   chamber and identification of C1–C4 OVOCs during   isoprene ozonolysis. Indoor and Built Environment, 30, 554-564.

    [8] Chen Y.1, Tan Y.1   (共同一作),   Zheng P.G., Wang Z.*, Zou   Z.X., Ho, K.F., Lee, S.C.*, Wang, T., 2022. Effect of NO2 on nocturnal chemistry of isoprene:   Gaseous oxygenated products and secondary organic aerosol formation. Science   of The Total Environment, 842: 156908.

    [9] Liu, T., Xiong, Z., Ni, P., Ma   Z.Z., Tan, Y., Li, Z.S., Deng, S.N., Li, Y.C., Yang, Q.R., Zhang, H.W.*, 2023. Review on adsorbents in elemental   mercury removal in coal combustion flue gas, smelting flue gas and natural   gas Chemical Engineering Journal, 454, 140095.

    [10]   Meng, Q., Sun, H. P, Rong, Y. Y, Tang, M. X, Tan, Y., Liu, T., Ma, Z. Z, Zhang, H, W.*, 2025. Turning coal   hydrogenation liquefaction residue into high conductivity carbon black with   magnesium citrate-assisted steam activation followed by high temperature treatment.   Fuel, 379, 133098.

    [11] Han, Z.Y., Zhang, Y.S. *, Zhang, H.Y., Ge, X., Gu, D.S., Liu,   X.H., Bai J.H., Ma Z.Z., Tan, Y., Zhu, F., Xia, S.Y., Du, J.H., Tan   Y.R., Shu, X., Tang J.C., Sun, Y.J., 2023. Impacts of Drought and Rehydration   Cycles on Isoprene Emissions in Populus nigra Seedlings. International   Journal of Environmental Research and Public Health, 19, 14528.

    [12] Wang, X.Y., Zhang, Y.S.*, Tan, Y.R., Tan, Y., Bai, J.H.,   Gu, D.S., Ma Z.Z., Du, J.H., Han, Z.Y., 2022. Effects of light on the   emissions of biogenic isoprene and monoterpenes: A review. Atmospheric   Pollution Research, 13, 101397.

    [13] Chen, Y., Zheng, P.G., Wang, Z.*, Pu, W., Tan, Y., Yu, C., Xia,   M., Wang, W.H., Guo, J., Huang, D.D., Yan, C., Nie, W., Ling, Z.H., Chen, Q.,   Lee, S.C., Wang, T., 2021.   Secondary Formation and Impacts of Gaseous Nitro-Phenolic Compounds in the   Continental Outflow Observed at a Background Site in South China. Environmental   Science & Technology, 56, 6933–6943.

    [14] Lau,   Y.S., Chan, M.N., Poon, H.Y., Tan, Y., Lee, S.C., Li, J.J., Ho, K.F.*,   2021. Chemical composition of gas and particle phase products of toluene   photooxidation reaction under high OH exposure condition. Atmosphere,   12, 915.

    [15] Lyu, X.P., Guo, H.*, Yao, D.W.,   Lu, H.X., Huo, Y.X., Xu, W., Kreisberg, N., Goldstein, A.H., Jayne, J.,   Worsnop, D., Tan, Y., Lee, S.C., Wang, T., 2020. In Situ Measurements   of Molecular Markers Facilitate Understanding of Dynamic Sources of   Atmospheric Organic Aerosols. Environmental Science & Technology,   54, 11058-11069.

    [16] Zhang, Z.Z., Gao, Y., Yuan, Q., Tan,   Y., Li, H.W., Cui, L., Huang, Y., Cheng, Y., Xiu, G.L., Lai, S.C., Chow,   J.C., Watson, J.G., Lee, S.C.*, 2020. Effects of indoor activities and   outdoor penetration on PM2.5 and associated organic/elemental   carbon at residential homes in four Chinese cities during winter. Science   of The Total Environment, 739, 139684.

    [17] Gong, H., Chu, W.*, Xu, K.H.,   Xia, X.J., Gong, H., Tan, Y., Pu, S.Y.*, 2020. Efficient degradation,   mineralization and toxicity reduction of sulfamethoxazole under   photo-activation of peroxymonosulfate by ferrate (VI). Chemical   Engineering Journal, 389, 124084.

    [18] Li, H.W., Wang, D.F., Cui, L.,   Gao, Y., Huo, J., Wang, X., Zhang, Z.Z., Tan, Y., Huang, Y., Cao,   J.J., Chow, J.C., Lee, S.C.*, Fu, Q.Y.*, 2020. Characteristics of atmospheric   PM2.5 composition during the implementation of stringent pollution   control measures in shanghai for the 2016 G20 summit. Science of the   total environment, 648, 1121-1129.

    *   发明专利

    [1] 谈琰*;刘晓;张华伟;刘亭;马子轸;陈颖,利用双金属负载改性分子筛脱除氯苯的催化剂及制备方法,中国发明专利, CN 116422364 B.

    [2] 谈琰*;刘晓;刘亭;马子轸;张华伟,一种复合型污染成因模拟装置, 香港发明专利授权, HK30090543.

    [3] 谈琰*邓胜男张华伟刘亭赵晨曦刘伟勋梁鹏张亚青孙英杰,同时脱除天然气中CS2Hg的掺氮金属离子负载型吸附剂及其制备方法,中国发明专利, CN 114653338 B.

    [4] Tan, Y., Han, S.W., Lee, S.C.* Walk-in   Type Air Pollution Simulation Reaction Chamber, 香港发明专利授权, HK30040962.

    [5] 李顺诚*;李欣蔚;李海玮;谈琰;张卓智,一种复合光催化材料在光催化降解甲醛中的应用,中国发明专利, CN 113441001 B.

    [6] 马子轸;王艳慧;白晓灿;黄钰涵;张华伟;谈琰;刘亭;孙英杰;李依静;张海腾,一种电解过程PM2.5及组分排放因子测量装置及方法,中国发明专利, CN 202310142722.X

    [7] 马子轸;白晓灿;王艳慧;黄钰涵;张华伟;刘亭;谈琰;孙英杰;王舜立;叶美吟,一种电解过程颗粒物减排协同增产降耗工艺参数优化方法中国发明专利, CN 202310142940.3

    [8] 张华伟;武雪莹;谭伟强;刘亭;谈琰;马子轸,用于垃圾热解气化中有机氯脱除的催化剂的制备方法,中国发明专利, CN 202310394057.3

    奖励与荣誉:

    [1] 2024优秀报告,第二届《中国环境科学》青年论坛

    [2] 2023优秀青年报告,第十二届中国颗粒大会

    [3] 2022青岛理工大学环境与市政工程学院第五届讲课大赛二等奖

    [4] 2018 Outstanding   Poster Presentation Award, AGU JING (Joint International Network in   Geoscience) Meeting

    [5] 2017优秀报告,第二十三届中国大气环境科学与技术大会

    [6] 2017-2020香港大学教育资助委员会博士研究奖学金(全额)

    [7] 2013西安交通大学思源奖学金