-
市政工程/给水排水科学与工程,环境工程 教育背景,主要研究兴趣为:
n 环境/人体健康的定量风险评价(污水厂、室内空间、各职业暴露环境、公共卫生暴露环境,以及生物气溶胶污染物在污水处理厂、水体/土壤修复现场等环境工程施工处的排放特征和定量风险评价(QMRA)研究);
n 生物气溶胶、VOCs等空气污染物的控制技术和治理理论(解析生物气溶胶荧光颗粒的实时在线数据、LIF类仪器WIBS/SIBS、表面拉曼光谱机理);
n 江河湖库等地表水环境的流域污染控制、水环境综合治理;
n 污水处理厂和排水管网系统的外水入侵、雨污分流、提质增效;
n 生态碳资产核算与碳汇潜力分析;
n 生态环境损害赔偿与司法鉴定评估;
n 环境工程伦理。
1. Bioaerosol single particle real time analysis
The biological, physical, chemical and optical properties of fluorescence particles and their applications in environmental science and engineering, especially in LIF (laser induced fluorescence) instrument (e.g. SIBS (Spectral Intensity Bioaerosol Sensor)) to development and the use of elastic light scattering and intrinsic fluorescence based technology to probe biofluorophore particles properties. The SIBS records time-resolved fluorescence lifetime. While, the fluorescence lifetime of most biofluorophores are targets for bioaerosol detection. Researches about WIBS (Wideband Integrated Bioaerosol Sensor) are also included.
Biofluorophore particles related with bioaerosol pollution emission in WWTPs, constructed wetlands, and other biological wastewater treatment process, as well as waste landfill site, soil remediation site, and reclaimed water reuse process.
Biofluorophore particles (bioaerosol) emission detection in small scale scenarios, e.g. WWTPs, by using SIBS (Spectral Intensity Bioaerosol Sensor).
2. QMRA (quantitative microbial risk assessment) for waterborne pathogens, algal toxins, and microbial hazards in bioaerosol pollution emission, and water bodies.
3. Judicial expertise for environment damage
4. Environmental engineering ethics
- 1. 主持2016年国家自然科学基金青年基金:城市污水处理厂恶臭气体和微生物气溶胶污染物的源解析及释放机理研究(51608497)
- 2. 2018年国家科技重大专项项目——水体污染控制与治理:白洋淀与大清河流域(雄安新区)水生态环境整治与水安全保障关键技术研究与示范项目(2018ZX07110),课题四白洋淀生态清淤关键技术研究与资源化工程示范(2018ZX07110004)(2818.85万),主要研发人员
- 3. 作为骨干成员实际参与,英国克兰菲尔德大学(Cranfield University)领衔主持的,受英国自然环境研究理事会(NERC)资助的“城市、农村和工业环境中快速监测生物气溶胶(Rapid Monitoring of Bioaerosols in Urban, Agricultural and Industrial Environments)”项目(£342,684)
- 4. 作为骨干成员实际参与,英国克兰菲尔德大学(Cranfield University)领衔主持的,受英国研究与创新署(UK Research and Innovation)资助的“市内外生物气溶胶界面和相互关系(Indoor/outdoor Bioaerosols Interface and Relationships Network – BioAirNet)”项目(£500,000)
- 5. 主持2020年武汉市水务集团疫情防控与供排水安全运行保障技术研究课题,武汉市城市排水发展有限公司科研项目:污水处理厂中生物气溶胶污染物的定量风险评价研究——以武汉市汤逊湖污水处理厂为例(25万元)
- 6. 主持苏州市项目:“苏州生态涵养发展实验区”东山镇水土环境分布模式解析及生态精准涵养建设的研究(48万元)
- 7. 作为骨干成员参与《武汉市地质环境监测与保护条例》立法调研报告和条例文本起草
- 15. 主持2015年湖北省自然科学基金:基于微藻的同步沼气品位提升和沼液净化的机理研究(2015CFB234)
- 14. 主持2015年博士后科学基金面上项目:同步提升沼气品位和净化沼液污水的协同作用机理研究(2015M572227)
- 13. 作为骨干成员参与,长江流域地质过程及资源环境研究计划核心项目群项目,江汉平原典型湖区复合污染物通量变化和迁移转化特征与修复机理研究(CUGCJ1702)
- 12. 环境模拟与污染控制国家重点联合实验室(中国科学院生态环境研究中心)2018年度开放基金课题(10万元)
- 11. 主持2017年中国地质大学中央高校基本科研业务费青年教师提升“摇篮计划”(CUGL170409)(30万元)
- 10. 主持2014年“盆地水文过程与湿地生态恢复学术创新基地”开放课题
- 9. 主持2015年和2018年湖北省青年科技晨光计划-国际学术交流项目
- 8. 主持2015年博士后国际交流计划学术交流项目
- 1. 颜诚、张伟军、李想、刘曼丽. 一种从源头减少污水中微生物气溶胶污染物的装置. 实用新型专利. 201721059870.1中国专利 已授权 2018年.
- 2. 颜诚、杨亚飞、李想、刘曼丽、宋小晴、陈彦欢、冷雅丽、张蒙蒙、何宇轩. 一种微生物培养基分装装置. 实用新型专利. 201920569779.7中国专利 已授权 2020年.
- 3. 颜诚、杨亚飞、李想、刘曼丽、宋小晴、陈彦欢、冷雅丽、张蒙蒙、何宇轩、骆希、程元辉、郗家瑞、崔海莹. 一种提高撞击式空气微生物采样器采样效率的挡板结构. 实用新型专利. 201921213183.X 中国专利 已授权 2020年.
- 4. 颜诚、杨亚飞、陈彦欢、冷雅丽、张蒙蒙、李想、刘曼丽、宋小晴. 一种撞击式采样器采样灭菌装置. 实用新型专利. CN201921614996.X 中国专利 已授权 2020年.
- 5. 杨亚飞、颜诚、冷雅丽、张蒙蒙、陈彦欢、王睿凝、归梓成. 一种可定深采集水样的装置. 实用新型专利. 202021346133.1 中国专利 已授权 2020年.
- 6. 郑正、颜诚、李博、聂耳、王东. 一种提高人工湿地冬季运行效果的方法. 发明专利. 201110287165.8 中国专利 已授权 2013年.
- 15. 刘曼丽,熊红松,马民,李想,邱文心,宋小晴,张蒙蒙,冷雅丽,陈彦欢,杨亚飞,何宇轩,Do Quangduy,归梓成,王睿凝,骆希,颜诚*.市政污水处理厂中生物气溶胶污染物的排放和微生物定量风险评价[J].给水排水,2020,56(S1):567-575.
- 14. J.-h. Tian, C. Yan, Z.A. Nasir, et al., Real time detection and characterisation of bioaerosol emissions from wastewater treatment plants, Science of the Total Environment, Volume 721, 2020, 137629
- 13. Sonia Garcia-Alcega, Zaheer Ahmad Nasir, Sabrina Cipullo, Robert Ferguson, Cheng Yan, Corinne Whitby, Alex J. Dumbrell, Gillian Drew, Ian Colbeck, Sean Tyrrel, Frederic Coulon. Fingerprinting ambient air to understand bioaerosol profiles in three different environments in the south east of England. Science of The Total Environment, Volume 719, 2020, 137542.
- 12. Yan, C.*, Zhang, MM. & Cui, BB. Using reverse quantitative microbial risk assessment for estimating acceptable exposure time of bioaerosols in wastewater treatment plants. Int. J. Environ. Sci. Technol. (2021). https://doi.org/10.1007/s13762-021-03758-5
- 11. Yan, C.*, Leng, Yl., Wu, Jt. Quantitative microbial risk assessment for occupational health of temporary entrants and staffs equipped with various grade PPE and exposed to microbial bioaerosols in two WWTPs. Int Arch Occup Environ Health (2021). 94(6), 1327-1343
- 10. Cheng Yan*, Rui-ning Wang, Xiao-yan Zhao. Emission characteristics of bioaerosol and quantitative microbiological risk assessment for equipping individuals with various personal protective equipment in a WWTP. Chemosphere, 2020, 129117.
- 9. Yan, C. *, Gui, Z., Wu, J. Quantitative microbial risk assessment of bioaerosols in a wastewater treatment plant by using two aeration modes. Environ Sci Pollut Res (2020). 28(7), 8140-8150.
- 8. Yan-huan Chen, Cheng Yan*, Ya-fei Yang, Jia-xin Ma. Quantitative microbial risk assessment and sensitivity analysis for workers exposed to pathogenic bacterial bioaerosols under various aeration modes in two wastewater treatment plants. Science of The Total Environment. Volume 755, Part 2, 10 February 2021, 142615.
- 10.1007%2Fs11356-021-15462-5
- 7. Wang, R., Li, X. & Yan, C*. Seasonal fluctuation of aerosolization ratio of bioaerosols and quantitative microbial risk assessment in a wastewater treatment plant. Environ Sci Pollut Res (2021). https://doi.org/10.1007/s11356-021-15462-5
- 6. Jun-ting Wu, Xiao-qing Song, Lan-wei Liang & Cheng Yan*. Estimating acceptable exposure time for bioaerosols emission in a wastewater treatment plant by reverse quantitative microbial risk assessment based on various risk benchmarks. Environ Sci Pollut Res (2021). https://doi.org/10.1007/s11356-021-16699-w
- 5. Jiaxin Ma, Dongzi An, Beibei Cui, Manli Liu, Hao Zhu, Ming Li, Xiaojun Ai, Wajid Ali, Cheng Yan*. What are the disease burden and its sensitivity analysis of workers exposing to Staphylococcus aureus bioaerosol during warm and cold periods in a wastewater treatment plant?. Environ Sci Pollut Res (2022). https://doi.org/10.1007/s11356-022-21447-9
- 4. Zi-cheng Gui, Xiang Li, Man-li Liu, Zhang-di Peng, Cheng Yan*, Zaheer Ahmad Nasir, Sonia Garcia Alcega, Frederic Coulon. Seasonal variation of quantitative microbial risk assessment for three airborne enteric bacteria from wastewater treatment plant emissions, Ecotoxicology and Environmental Safety, Volume 240, 2022, 113689, ISSN 0147-6513, https://doi.org/10.1016/j.ecoenv.2022.113689.
- 3. Xiao-yan Zhao, Dong-zi An, Man-li Liu, Jia-xin Ma, Wajid Ali, Hao Zhu, Ming Li, Xiao-jun Ai, Zaheer Ahmad Nasir, Sonia Garcia Alcega, Frederic Coulon, Cheng Yan*. Bioaerosols emission characteristics from wastewater treatment aeration tanks and associated health risk exposure assessment during autumn and winter. Science of The Total Environment, Volume 851, Part 1, 2022, 158106, https://doi.org/10.1016/j.scitotenv.2022.158106.
- https://doi.org/10.1016/j.buildenv.2021.108463.