刘琼

发布时间:2020-09-21

刘琼讲师硕导

环境科学系

联系方式:021-67792547

电子邮箱:liuqiong@dhu.edu.cn

办公地址:上海市松江区人民北路2999号,东华大学,松江校区四号学院楼5165室。

教育经历

2014/09-2017/06,东华大学,欧宝平台官网,博士

2009/09-2012/03,东华大学,欧宝平台官网,硕士

2005/09-2009/06,淮海工学院,化学工程系,学士

主讲课程

1、新能源与绿色环境;

2、化工原理实验

研究方向

大气环境,遥感应用

承担科研项目

主持:

1、 考虑气溶胶三维空间分布的新疆地区晴空精确化地表太阳辐射时空分布特征研究——国家自然科学基金青年科学基金项目(41905131)

2、 新疆CERES卫星晴空地表短波辐射产品精度的改进研究——65批中国博士后科学基金面上资助(2019M651322)

3、 基于多源卫星资料的新疆地区强降水数值模拟结果的诊断分析——中国沙漠气象科学研究基金(Sqi2018001)

4、 台风云冰水含量卫星与WRF模拟结果对比研究——灾害天气国家重点实验室开放课题(2018LASW-B11)

5、 上海地区夏季大气细颗粒物对光化学污染关键反应及产物影响机制的研究——中央高校基本科研业务费专项资金自由探索项目(2232019D3-27)

参加:

1、 气象探测数据的对比分析与影响评估——国家重点研发计划(2018YFC1506305)

2、 融合多源卫星和拉曼雷达精细化观测的长三角霾的温湿和气溶胶三维分布研究——国家自然科学基金面上项目(41975029)

3、 中国大气污染物对云和辐射的影响及其气候效应研究——国家自然科学基金重大研究计划(91644211)

4、 滨海区域臭氧与细颗粒物污染形成机制及协同控制技术与应用示范——上海市科技创新行动计划”(19DZ1205000)

代表性论著

1、 Liu Qiong, Liu Xin, Liu Tongqiang, Kang Yanming, Chen Yonghang*, Li Jiming, Zhang Hua. Seasonal variation in particle contribution and aerosol types in Shanghai based on satellite data from MODIS and CALIOP. Particuology, 2020, 50, 18–25.

2、 Liu Tongqiang, Liu Qiong*, Chen Yonghang*, Wang Wencai, Zhang Hua, Li Dui, Sheng Jun. Effect of aerosols on the macro- and micro-physical properties of warm clouds in the Beijing-Tianjin-Hebei region. Science of the Total Environment, 2020, 720, 137618.

3、 Liu Qiong, Liu Tongqiang, Chen Yonghang*, Xu Jianming, Gao Wei, Zhang Hua, Yao Yifeng. Effects of aerosols on the surface ozone generation via a study of the interaction of ozone and its precursors during the summer in Shanghai, China. Science of the Total Environment, 2019, 675, 235–246.

4、 Liu Qiong, He Qianshan*, Fang Sihua, Guang Ying, Ma Chengyu, Chen Yonghang*, Kang Yanming, Pan Hu, Zhang Hua, YaoYifeng. Vertical distribution of ambient aerosol extinctive properties during haze and haze-free periods based on the Micro-Pulse Lidar observation in Shanghai. Science of the Total Environment, 2017, 574, 1502–1511.

5、 Liu Qiong, Ma Xiaojun, Yu Yanrong, Qin Yan, Chen Yonghang*, Kang Yanming, Zhang Hua, Cheng Tiantao, Ling Yan, Tang Yujie. Comparison of aerosol characteristics during haze periods over two urban agglomerations in China using CALIPSO observations. Particuology, 2017, 33, 63–72.

6、 Liu Qiong, Wang Yuan, Kuang Zhongyu, Fang Sihua, Chen Yonghang*, Kang Yanming, Zhang Hua, Wang Daoyuan, Fu Yingying. Vertical distributions of aerosol optical properties during haze and floating dust weather in Shanghai. J. Meteor. Res., 2016, 30(4), 598–613.

7、 Chen Yonghang, Liu Qiong*, Geng Fuhai, Zhang Hua, Cai Changjie, Xu Tingting, Ma Xiaojun, Li Hao. Vertical Distribution of Optical and Micro-Physical Properties of Ambient Aerosols during Dry Haze Periods in Shanghai. Atmospheric Environment, 2012, 50, 50–59.

8、 Liu Qiong, Xiaojun Ma, Hongchun Jin, Yonghang Chen*, Yang Yu, Hua Zhang, Changjie Cai, Yuhui Wang, Hao Li. Seasonal Variation of Aerosol Vertical Distributions in Middle and Lower Troposphere in Beijing and Surrounding Area during Haze Periods Based on CALIPSO Observation, Proceedings of SPIE, 2014, Volume 9262, 92620J.

9、 赵楠曹梵诗田晴陈勇航刘琼*, 黄艺伟长三角地区吸收性气溶胶时空分布特征环境科学, 2019, 40(9), 3898–3907.

10、 刘琼耿福海*, 陈勇航郑巧利高伟毛晓琴上海城区典型臭氧浓度偏低年的成因分析长江流域资源与环境, 2013, 22(7), 900–907.

11、 刘琼耿福海陈勇航*, 徐婷婷张华潘鹄毛晓琴上海不同强度干霾期间气溶胶垂直分布特征中国环境科学, 2012, 32(2), 207–213.

学术报告

1、 2019年,The 6th International Symposium on Atmospheric Light Scattering and Remote Sensing杭州分会场口头报告The change in warm cloud microphysical properties by aerosols and water vapor in Shanghai based on MODIS observations

2、 2019年,The 16th Asia Oceania Geosciences Society,新加坡,墙报报告,Effects of aerosols on ozone considering its precursors in the summertime in Shanghai, China

3、 2017 年,第十二届全国研究生环境论坛,上海,分会场口头报告上海地区气溶胶类型的时空分布特征

4、 2015年,第十届全国研究生环境论坛,上海,分会场口头报告Comparison of optical and micro-physical properties of ambient aerosols in the middle and lower troposphere during haze periods between two urban agglomerations in China

5、 2014年,SPIE Asia Pacific Remote Sensing (AE14),北京,分会场口头报告,Seasonal variation of aerosol vertical distributions in middle and lower troposphere in Beijing and surrounding area during haze periods based on CALIPSO observation