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陈强,男,1969年9月出生于甘肃榆中,理学博士,教授,博士导师。研究方向:大气化学、环境化学、污染治理技术和环境评价。获得13届全省高校青年教师成才奖。项目《分子筛负载掺杂改性纳米二氧化钛光催化剂的制备与应用》获甘肃科学技术进步奖二等奖。《灵敏便捷多响应分子传感器的研发及应用》获得2022年中国有色金属工业科学技术奖二等奖。
 
联系方式:
邮箱(E-mail):chenqqh@Lzu.edu.cn
地址:甘肃省兰州市天水南路222号
邮编:730000
 
工作简历:
1996.7- ,全讯600cc大白菜,从事大气化学、环境化学、污染治理技术和环境评价教学科研与环境评价工作。
2007.10-2008.10 英国伯明翰大学访问学者,参加 “characterization of particulate matter in the united kingdom” 项目的研究。
 
主要承担项目: 
1.庆阳市西峰区大气颗粒物源解析源解析研究,2015-2017,项目主持人,庆阳市环境保护局。
2.兰州市大气气溶胶中污染物分布特征及其源解析研究,2009年全讯600cc大白菜中央高校基本科研费自由探索项目(面上项目) 全讯600cc大白菜,2010.1-2010.12,项目主持人。
3.乌海市环境空气中臭氧来源解析,2018-2019年,项目主持人,乌海市生态环境局。
4.“固定化纳米TiO2光催化降解水中污染物的研究”,(批准号:20307005),2001年,项目主持人,国家自然科学基金青年基金项目。
5.“新型功能材料固定化二氧化钛纳米管的之辈及其光催化技术处理工业废水的研究”,(批准号:2GS2GS057-A52-001-02),项目主持人,甘肃省科技攻关项目。 
 
发表的代表性论文:
1.Ambient PM2.5 and Related Health Impacts of Spontaneous Combustion of Coal and Coal Gangue. Environmental Science & Technology, 2021. 55(9): 5763-5771.
2.Chemical reactivity of volatile organic compounds and their effects on ozone formation in a petrochemical industrial area of Lanzhou, Western Chin. Science of the Total Environment [J].2022,839: 1-12.
3.Synergistic effects of air pollutants on meteorological fields at the junction of the Loess Plateau, Mongolian Plateau and Tibetan Plateau over Northwest China during summer,Atmospheric Research [J]. 2022,267: 1-12.
4.Determining the impacts of the incineration of sacrificial offerings on PM2.5pollution in Lanzhou, Northwest China. Atmospheric Environment [J]. 2022, 282: 12.
5.Investigating the mechanism of morning ozone concentration peaks in a petrochemical industrial city. Atmospheric Environment [J]. 2022, 270: 12.
6.Effects of chemical boundary conditions on simulated O3 concentrations in China and their chemical mechanisms.Science of the Total Environment[J]. 2023, 857: https://doi.org/10.1016/j.scitotenv.2022.159500.
7.Source and health risk apportionment of PM10 based on heavy metals in a city on the edge of the Tengger Desert. Air Quality, Atmosphere & Health[J].2022, https://doi.org/10.1007/s11869-022-01279-9.
8.基于正交试验的臭氧及其前体物的非线性响应及控制方案. 环境科学, 2021. 42(2): 616-623.
9.Method Established for Source Apportionment of Human Health Risk in Regional Atmospheric Environment. Earth Sciences, 2018. 7(6): 268-274.
10.PM10可替代源成分谱的建立方法及其应用[J],环境科学,2014,35(11):4078-4084.
11.兰州市高分辨率人为源排放清单建立及在WRF-Chem中应用评估. 环境科学, 2021. 42(2): 634-642.
12.The kinetics of photocatalytic degradation of aliphatic carboxylic acids in UV/TiO2 suspension system Environmental Technology 2009, 30, (11):1103 -1109.
13.A Molecular Fragments Variable Connectivity Index for Studying the Toxicity (Vibrio fischeri pT50) of Substituted-Benzenes. Journal of Environmental Science and Health, Part A Toxic/Hazardous Substance & Environmental Engineering 2009, 44, (3):288-294.
14.A new kinetic model of photocatalytic degradation of formic acid in UV/TiO2 suspension system with in-situ monitoring. Reaction Kinetics and Catalysis Letters 2008, 93(1): 157-164.
15.Application of Molecular Fragments Variable Connectivity Index to Predicting Boiling Points of Alcohols. Journal of Iranian Chemical Society (JICS), 2010, 7(4):1012-1020.
16.Source apportionment of fine particles at urban background and rural sites in the UK atmosphere. Atmospheric Environment 2010, 44:841-851.
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