银燕

 

基本信息

性  别:
出生年月:

1962.02.10

民  族:

汉族

电  话:

025-58731207

办公时间:

08:00-18:00

E - mail:

yinyan@nuist.edu.cn

专  业: 大气物理学
职  务: 院长
   
主页网址:

办公地点:

气象楼

工作单位:

大气物理学院

讲授课程:

大气物理学、大气科学进展、云动力学、Advanced Atmospheric Physics、大气成分与气候变化、大气气溶胶等

招生方向:

云降水物理与大气气溶胶

学  院: 大气物理学院
职  称: 教授/高级
   
教育与工作经历

一、   教育与培训:

20074月:参加美国DMT公司的气溶胶和云雾探测仪器培训

19996月:参加美国NCAR举办的“Ice in the Atmosphere”培训班

19963月至199910: 博士研究生,以色列特拉维夫大学地球物理和行星科学系

        论文题目: On the Development of the Size Spectra of Precipitation Particles in Natural and Seeded Convective Clouds (自然和人工播撒对流云中降水粒子谱发展的研究)

               导师: Zev Levin 教授和Shalva Tzivion 教授

19958月至19967: 以色列特拉维夫大学访问学者

19879月至19905: 硕士研究生, 南京气象学院

        论文题目: 阻塞高压过程中谱能量的串级输送

                导师: 陈久康教授 

19809月至19847: 南京气象学院本科生

  二   工作经历:
  • 20088月至现在:教授,院长,南京信息工程大学大气物理学院。
  • 20059月至20088月:教授,南京信息工程大学应用气象学院。主讲云动力学、大气气溶胶、大气科学概观、云降水物理学进展、高等大气物理学、大气成分与气候变化、气象专业英语等多门研究生和本科生课程,进行有关大气气溶胶与云、降水和气候相互作用方面的研究。
  • 20041月至20058月:讲师(Lecturer), 英国威尔士大学Aberystwyth分院。主讲电磁学、大气物理学、大气动力学、能源与环境等多门课程,进行与云和降水有关的大气动力学,大气物理和化学过程的研究。
  • 199911月至20041月:研究员(Research Fellow), 英国利兹大学环境学院。研究了对流云垂直输送对对流层顶大气成分的影响,气溶胶(包括沙尘粒子) 和云相互作用及其对云宏微观结构的反馈作用
  • 19963月至199910月:研究助理、博士研究生,以色列特拉维夫大学地球物理和行星科学系。主要从事云和降水物理理论和人工增雨理论和数值模式研究。
  • 19958月至19967月:访问学者,以色列特拉维夫大学地球物理和行星科学系。主要从事云和降水物理理论和人工影响天气理论研究。
  • 199512月至199712月:高级工程师,内蒙古气象局。进行天气预报方法研究并建立了内蒙古飞机人工增雨作业指挥系统。
  • 19911月至199511月:工程师、研究室副主任,内蒙古气象局。主要从事人工影响天气外场作业和天气预报新方法的研究。
  • 19879月至19905月:硕士研究生,南京气象学院气象系。主要进行大气动力学和大气环流方面的学习和研究。
  • 19847月至199012月:助理工程师,内蒙古气象局。主要从事天气预报工具开发研究。

学术与社会兼职

 

  • 2008年以来,国际云降水物理委员会(ICCP)委员
  • 2013-2017年,教育部高等学校地球物理学类专业教学指导委员会委员
  • 2011年以来,中国气象学会第二十七届理事会大气物理委员会委员
  • 2011年以来,中国气象学会第二十七届理事会雷电专业委员会副主任委员
  • 2013-2016年,中国气象局云雾物理环境重点实验室学术委员会委员
  • 2013-2016年,中国气象局气溶胶与云降水重点开放实验室主任、学术委员会委员
  • 2014-2017年,气象灾害教育部重点实验室学术委员会委员
  • 2015年以来,民进南京市委参政议政专家委员会(智库)成员
  • 20136月,亚洲青年运动会环境质量保障专家
  • 2003年以来,美国地球物理协会(AGU)会员
  • 2005-2010年,江苏省气象学会第十二届理事会大气化学委员会副主任委员
  • 2007-2011年,中国气象学会第二十六届理事会大气成分委员会、大气物理学委员会、人工影响天气委员会委员
  • 2009年以来,江苏省气象学会第十三届理事会理事、大气物理与人工影响天气委员会主任委员
  • 2007年以来,《Atmospheric Science Letters》副编辑、编委
  • 2009-2013年,《Advances in atmospheric Sciences》编辑、编委
  • 2014年以来,《气象学报》编审委员会委员 
  • 2009年以来,《大气科学学报》常务编委
  • 2011年以来,《气象科学》副主编
  • 专业杂志审稿: Science,Atmospheric Chemistry and Physics,Journal Geophysical Research,Geophysical Research Letters,Journal of Applied Meteorology and climatology,Journal of Atmospheric Chemistry,Advances in Atmospheric Sciences,Atmospheric Research,Atmospheric and Oceanic Science Letters、中国科学,科学通报,大气科学,气象学报,气象科学,大气科学学报,热带气象学报,高原气象,干旱气象,自然科学进展,重庆大学学报,气候变化研究进展,中国环境科学,环境科学学报
  •  美国国家研究基金委NSF、美国能源部MOE和荷兰国家地球和生命科学基金委项目申请书评审专家
  •  合作召集和主持:
    •       EGS-AGU-EGU 2003 Assembly Sessions AS18 WS2
    •       EGU 20042005 Assembly Session AS3.04

 

研究领域与方向

  1. 云降水物理与人工影响天气
  2. 大气气溶胶及其环境气候效应
  3. 中小尺度对流天气系统

主要项目、论文、专著和专利
一、   科研项目:
  1. 南京信息工程大学科研基金项目:“对流云对大气气溶胶变化的响应”,(2006-2008),10万元,负责人。
  2. 江苏省自然科学基金项目:“南京地区灰霾形成机制及理化特性的观测研究”(2006-2008),7.5万元,负责人
  3. 教育部留学回国人员启动基金项目,(2007-2009),3万元,负责人。
  4. 江苏省“六大人才高峰” 行动计划资助的对象,(2006-2008),B级,8万元
  5. 江苏省气象灾害重点实验室(南京信息工程大学)科研基金项目:“大气气溶胶对我国云降水和区域气候的影响”,(2006-2009),10万元,负责人。
  6. 国家自然科学基金项目深对流云对热带对流层上层气溶胶和大气化学成分的影响”(40675005,(2007-2009),37万元,负责人。
  7. 国家重点基础研究发展计划(973)项目:“中国大气气溶胶及其气候效应的研究”(2006-2011)之“气溶胶-云相互作用与间接辐射效应”专题,80万元,专题负责人。
  8. 江苏省高校优秀创新团队资助项目,(2007.8-2010.7),10万元,团队带头人。
  9. 江苏省“333高层次人才培养工程” 首批中青年科技领军人才,2007.4-2010.12),10万元。
  10. 国家财政部公益性行业科研专项京津经济区及华北区域气溶胶对云的改变导致的降水变化及其在天气预报中的应用GYHY(QX)2007- 6-36),(2008.1-2010.12),219万元,课题负责人。
  11. 国家自然科学基金重点项目我国南方地形云和气溶胶相互作用的观测和理论研究”(41030962,(2011-2014),260万元,负责人。
  12. 高等学校博士学科点专项科研基金“中国典型地区大气冰核观测与理论研究”(20113228110002),(2012.1.1-2014.12.31),12万元,负责人。
  13. 中国气象局局校共建项目“静力真空水汽扩散云室”,(2011.1.1-2012.12.31),78万元,负责人。
  14. 南信大影像技术工程(苏州)有限公司(南信大苏州数字城市研究院)“关于气象PM2.5数据应用及应用平台建设的前瞻性研究”(2012.4.1-2013.3.31),6万元,负责人。
  15. 国家财政部公益性行业科研专项三维云信息的融合方法研究与软件研制”之“三维水汽场融合方法研究》”专题 (GYHY201106044),(2011.1.1-2013.12.31),30万元,专题负责人。
  16. 国家财政部公益性行业科研专项山区人工防雹关键技术及业务应用的研究”之“天山两侧冰雹云微物理结构和成雹机理研究”(GYHY201306047, 2013.01-2015.12),20万元,专题负责人。
  17. 国家自然科学基金重大研究计划培育项目青藏高原地区对流云系及其对能量和水循环的影响研究”(91337101),(2014-2016),80万元,负责人。
  18. 国家973计划项目“雷电重大灾害天气系统的动力-微物理-电过程和成灾机理”第三课题“雷电重大灾害天气系统的云微物理过程及其对电过程的影响(2014CB441403)”,(2014.1-2018.12),376万,课题负责人。 

二、   学术论文:


期刊论文:

气溶胶与云相互作用(Aerosol-cloud interactions)
  1. Yin, Y., Z. Levin, T.G. Reisin, and S. Tzivion, 2000: The effects of giant cloud condensation nuclei on the development of precipitation in convective clouds --- A numerical study. Atmos. Research, 53, 91-116.
  2. Yin, Y., S. D. Wurzler, Z. Levin, and T. G. Reisin, 2002: Interactions of mineral dust particles           and clouds: Effects on precipitation and cloud optical properties. J. Geophys. Res., 107(D23), 4724, doi:10.1029/2001JD001544.
  3. Yin, Y., K. S. Carslaw, and G. Feingold, 2005: Vertical transport and processing of aerosols in a mixed-phase convective cloud and the feedback on cloud development. Q. J. R. Meteorol. Soc., 131, 221-246.
  4. Levin, Z., A. Teller, E. Ganor and Y. Yin, 2005: On the interactions of mineral dust, sea salt particles and clouds: A case study from the MEIDEX campaign, J. Geophys. Res., 110(D20202), doi:10.1029/2005JD005810.
  5. Cui, Z., K. S. Carslaw, and Y. Yin, 2006: A numerical study of aerosol effects on the dynamics and microphysics of a deep convective cloud in a continental environment, J. Geophys. Res.,111, D05201, doi:10.1029/2005JD005981.
  6. Yin, Y. and L. Chen, 2007: The effects of heating by transported dust layers on cloud and precipitation: a numerical studyAtmos. Chem. Phys.7, 3497-3505.
  7. Altaratz, O., I. Koren, T. Reisin, A. Kostinski, G. Feingold, Z. Levin, and Y. Yin, 2008: Aerosols' influence on the interplay between condensation, evaporation and rain in warm cumulus cloud, Atmos. Chem. Phys, 8, 15–24.
  8. Hill, A., S. Dobbie, and Y. Yin, 2008: The impact of aerosols on non-precipitating marine stratocumulus: Part 1: Model Description and prediction of the indirect effect, Q. J. R. Meteorol. Soc., 134(634), Part A, 1143-1154.
  9. Chen, Q., Y. Yin, L. Jin, H. Xiao, S. Zhu, 2011: The effect of aerosol layers on convective cloud microphysics and precipitation, Atmos. Research, 101, 327-340.
  10. Chen, B., and Y. Yin, 2011: Modeling the impact of aerosols on tropical overshooting thunderstorms and stratospheric water vapor, J. Geophys. Res., 116, D19203, doi:10.1029/2011JD015591.
  11. Zhao, Pengguo, Yan Yin, Hui Xiao, 2014: The effects of aerosol on development of thunderstorm electrification: A numerical study, Atmos. Res., 153(2015), 376-391.
  12. Xiao, H., Y. Yin, L. Jin, Q. Chen, J. Chen, 2014: Simulations of aerosol effects on orographic clouds and precipitation using WRF model with a detailed bin microphysics scheme, Atmos. Sci. Lett., 15: 134–139, DOI: 10.1002/asl2.480.
  13. Zhang, Damao, Dong Liu, Tao Luo, Zhien Wang, Yan Yin, 2015: Aerosol impacts on cloud thermodynamic phase change over East Asia observed with CALIPSO and CloudSat measurements, J. Geophys. Res., 120(4), 1490-1501, DOI: 10.1002/2014JD022630.
  14. 李军霞、银燕、李培仁、徐芬2014:气溶胶影响云和降水的机理和观测研究进展,气象科学,34(5):581-590
  15. 陈倩、银燕、金莲姬,等.2013气溶胶影响混合相对流云降水的数值模拟研究,大气科学学报,365):513-526
  16. 秦彦硕、银燕、杨素英、陈魁2012: 黄山地区春夏季气溶胶离子组分及其对云微物理特征的影响.气象学报,70(6):1334-1346.
  17. 肖辉,银燕2011:污染气溶胶对山西一次降水过程影响的数值模拟,大气科学,35(2):235-246
  18. 金莲姬、银燕、王盘兴、陈宝君,2007热带对流云云砧数值模拟及云凝结核数浓度对其影响的初步试验,大气科学,315),793-804
  19. 陈丽、银燕、杨军、牛生杰,2007:沙尘气溶胶对云和降水影响的模拟研究,南京气象学院学报,305),590-600
  20. 陈丽、银燕2008:矿物气溶胶远程传输过程中的吸收增温效应对云和降水的影响,高原气象,273),628-636
  21. 陈丽、银燕2009:沙尘气溶胶对大气冰相过程发展的敏感性试验,气象科学,292),208-213
  22. 康凤琴、银燕、张逸轩,2009:中国北方沙尘气溶胶对云和降水影响的数值模拟研究,气象,356),36-45
  23. 段英、银燕、吴志会等,2010:河北地区低云、毛毛雨变化趋势及其气溶胶云物理效应的研究,中国粉体技术,161),47-50
  24. 荣艳敏、银燕、陈倩,2010:大气气溶胶对混合相对流云影响的模拟研究,中国粉体技术,161),80-84
  25. 杨正卿、银燕、刘聪、周毓荃,2012 云滴数浓度影响混合型层状云降水的数值模拟,大气科学学报,35( 3) : 350-363
  26. 荣艳敏、银燕2010对流云对大气气溶胶和相对湿度变化响应的数值模拟,大气科学,34 (4) : 815-826.

云降水物理过程研究(Microphysical Processes in Clouds and Precipitation):
  1. Reisin, T., Y. Yin, Z. Levin, and S. Tzivion, 1998: Development of giant drops and high reflectivity cores in Hawaiian clouds: Numerical simulations using a kinematic model with detailed microphysics. Atmos. Research, 45, 275-297.
  2. Li, J., Y. Yin, L., Jin, and C. Zhang, 2010: A Numerical study of tropical deep convection using WRF model, Journal of Tropical Meteorology, 16(3), 247-254.
  3. Tahir, K.M., Y. Yin, Y. Wang, Z. A. Babar, D. Yan, 2015: Impact Assessment of Orography on the Extreme Precipitation Event of July 2010 over Pakistan: A Numerical Study, Advances in Meteorology, DOI: 10.1155/2015/510417.
  4. 单云鹏、银燕、肖辉,2014:双参微物理方案对一次强降水过程的数值试验,气象科学,2014,34(1):1-9
  5. 王思慜、银燕2011:一次热带海洋对流云微物理过程的数值模拟,热带气象学报,274),519-528
  6. 吴建成、银燕2008:“7.18”山东暴雨过程的数值模拟和诊断分析,内蒙古气象,第4期,6-8
  7. 徐萌柳、银燕、钱凌,2008:南京冬季一次持续性浓雾过程的特征分析,浙江气象,293),14-19
  8. 周梅、银燕、王巍巍,200820061224-27日大范围大雾过程数值模拟,应用气象学报,195),602-610
  9. 李嘉鹏、银燕、金莲姬、张成竹,2009WRF 模式对澳洲一次热带深对流系统的模拟研究,热带气象学报,253),287-294
  10. 苏爱芳、银燕、吕晓娜、郑永光,2013:黄淮西部地貌过渡区深对流云的时空特征及其天气意义,气象学报,713):383-396
  11. 孙玉稳、韩洋、孙霞、银燕,等,2012:降雹类型及相关因子的分布特征,高原气象,31(1):269-276
  12. 朱士超、银燕、金莲姬、陈倩, 2011:青藏高原一次强对流过程对水汽垂直输送的数值模拟,大气科学,35 (6) : 1057-1068
  13. 苏爱芳、银燕、蔡淼,2012:夏末华北低槽尾部雹云的生成环境和结构特征,高原气象,315):1376-1385
  14. 童尧青、银燕、许遐祯等,2009:南京地区雾的气候特征,南京气象学院学报,321),115-120
  15. 马国忠、银燕、王秋京,2010东北地区春季冷锋云系降水个例数值模拟及机理研究,黑龙江气象,274),4-8

人工影响云雾降水(Weather Modification):
  1. Yin, Y., Z. Levin, T.G. Reisin, and S. Tzivion, 2000: Seeding convective clouds with hygroscopic flares: Numerical simulations using a cloud model with detailed microphysics. J. Appl. Meteor., 39, 1460-1472.
  2. Yin, Y., Z. Levin, T. G. Reisin and S. Tzivion, 2001: The response of radar-derived properties to hygroscopic flare seeding. J. Appl. Meteor., 40, 1654-1661.
  3. Wang, L., Y. Yin, Z. Yao, et al., 2013: Microphysical responses of once autumn-time stratocumulus aircraft seeding experiment over Sanjiangyuan region. Acta Meteor. Sinica, 27(6), 849-867, doi: 2 10.1007/s13351-013-0609-6.
  4. Chen B., Y. Yin, 2014: Can we modify stratospheric water vapor by cloud seeding? J. Geophys. Res., 119, 1406–1418, doi:10.1002/2013JD020707.
  5. 孔燕燕、银燕、佟小林、单久涛,1995:飞机人工增雨决策系统简介,内蒙古气象,第3期,24-27
  6. 申亿铭、周林、银燕, 1996: 层状云中的湍流扩散系数, 北京气象学院学报,第2期,22-26页。
  7. 银燕、达布、申亿铭, 1996: 风速切变对垂直线源播撒物扩散的影响, 北京气象学院学报, 2期,1-6页。
  8. 银燕1996内蒙古中西部层状云中飞机播撒催化剂扩散过程的数值模拟,内蒙古气象,第4期,28-32
  9. 王黎俊、银燕,姚展予、孙安平,2013:三江源地区秋季一次层积云飞机人工增雨催化试验的微物理响应,气象学报,715),925-939
  10. 杨宗甄、陈宝君、银燕2012 三江源地区对流云吸湿性催化的数值模拟,气象科学,321):9-17
  11. 王黎俊银燕郭三刚林春英龚静2012:基于气候变化背景下的人工防雹效果统计检验:以青海省东部农业区为例,大气科学学报35(5) : 524-532

对流云对大气成分垂直分布的影响(The effects of deep convection on pollutants):

  1. Yin, Y., D. Parker, and K. Carslaw, 2001: Simulation of trace gas redistribution by convective clouds -- Liquid phase processes. Atmos. Chem. Phys., 1, 19-36.
  2. Yin, Y., K. S. Carslaw, and D. J. Parker, 2002: Redistribution of trace gases by convective clouds -- mixed-phase processes. Atmos. Chem. Phys., 2, 293-306.
  3. Yin, Y., Q. Chen, L. Jin, B. Chen, S. Zhu, and X. Zhang (2012), The effects of deep convection on the concentration and size distribution of aerosol particles within the upper troposphere: A case study, J. Geophys. Res., 117, D22202, doi:10.1029/2012JD017827.
  4. 银燕、曲平、金莲姬、陈宝君,2010热带深对流云对CONONOxO3的垂直输送作用,大气科学,345),925-936

气溶胶理化和光学特性研究(Aerosol Properties)
  1. Tan, H., Y. Yin, X. Gu, F. Li, P.W. Chan, H. Xu, X. Deng, Q. Wan, 2013: An observational study of the hygroscopic properties of aerosols over the Pearl River Delta region, Atmos. Env., doi:10.1016/j.atmosenv.2013.05.049, 77(2013), 817-826.
  2. Chen, K., Y. Yin, S. Kong, H. Xiao, Y. Wu, J. Chen, A. Li, 2014: Size-resolved chemical composition of atmospheric particles during a straw burning period at Mt. Huang (the Yellow Mountain) of China. Atmos. Env., 84 (2014), 380-389, doi: 10.1016/j.atmosenv.2013.11.040.
  3. Sun, X., Yin, Y., Sun, Y., Sun, Y., Liu, W., Han, Y., 2013Seasonal and vertical variations in aerosol distribution over Shijiazhuang, China, Atmospheric Environment, 812013),245-252doi:10.1016/j.atmosenv.2013.08.009.
  4. Zhang, X. Y., Y. Q. Wang, X. C. Zhang, W. Guo, T. Niu, S. L. Gong, Y. Yin, P. Zhao, J. L. Jin and M. Yu, 2008: Aerosol monitoring at multiple locations in China: contributions of EC and dust to aerosol light absorption, Tellus, 60B, 647-656.
  5. Tan, H., H. Xu, Q. Wan, F. Li, X. Deng, P. Chan, D. Xia, and Y. Yin, 2013: Design and application of an unattended multifunctional H-TDMA system. J. Atmos. Oceanic Technol. doi:10.1175/JTECH-D-12-00129.1, vol.30, 1136-1148.
  6. Yu, X., B. Zhu, S. Fan, Y. Yin, and X. Bu, 2009: Ground-based observation of aerosol optical properties in Lanzhou, China, Journal of Environmental Sciences, 21(11), 1519–1524.
  7. Yu, Xingna, Bin Zhu, Yan Yin, Jun Yang, Yanwei Li, Xiaoli Bo, 2011: A comparative analysis of aerosol properties in dust and haze-fog days in a Chinese urban region, Atmos. Research, 99, 241-247.
  8. Yu, X. N., B. Zhu, Y. Yin, S. X. Fan, and A. J. Chen, 2011: Seasonal variation of columnar aerosol optical properties in Yangtze River Delta in China. Adv. Atmos. Sci., 28(6), 1326-1335, doi:10.1007/s00376-011-0158-9.
  9. Sun, Yele, Qi Jiang, Zifa Wang, Pingqing Fu, Jie Li, Ting Yang, Yan Yin, 2014: Investigation of the sources and evolution processes of severe haze pollution in Beijing in January 2013, J. Geophys. Res., 119, doi:10.1002/2014JD021641.
  10. Kong, Shaofei, Bin Wen, Kui Chen,Yan Yin, Li Li, Qi Li, Liang Yuan, Xuxu Li, Xia Sun, 2014:Ion chemistry for atmospheric sizesegregated aerosol and depositions at an offshore site of Yangtze River Delta (YRD) region, China, Atmos. Res., Vol. 147–148, 1–15 October 2014, 205-226.
  11. Kumar, K. R., V. Sivakumar, Y. Yin, R. R. Reddy, N. Kang, Y. Diao, A. J. Adesina, X. Yu, 2014: Long-term (2003-2013) climatological trends and variations in aerosol optical parameters retrieved from MODIS over three stations in South Africa, Atmos. Env., 95 (2014) 400-408.
  12. Wang, Honglei, Zhu, Bin, Shen, Lijuan, An, Junlin, Yin, Yan, Kang, Hanqing, 2014: Number size distribution of aerosols at Mt. Huang and Nanjing in the Yangtze River Delta, China: effects of air masses and characteristics of new particle formation, Atmospheric Research, 150 (2014), 42-56, doi: 10.1016/j.atmosres.2014.07.020.
  13. Jiang, Q., Sun, Y. L., Wang, Z., and Yin, Y.: Aerosol composition and sources during the Chinese Spring Festival: fireworks, secondary aerosol, and holiday effects, Atmos. Chem. Phys., 15, 6023-6034, doi: 10.5194/acp-15-6023-2015,2015.
  14. Li Li, Yan Yin, Shaofei Kong, Bin Wen, Kui Chen, Liang Yuan, Qi Li 2014Altitudinal effect to the size distribution of water soluble inorganic ions in PM at Huangshan, China, Atmos. Env., 98 (2014) 242-252. DOI: 10.1016/j.atmosenv.2014.08.077.
  15. Tan, Haobo, Yan Yin, Fei Li, Xiantong Liu, P.W Chan, Tao Deng, Xuejiao Deng, Qilin Wan, Dui Wu, 2014: Particle number size distribution and new particle formation events in the PRD region, China, Journal of Tropical Meteorology, accepted.
  16. Kang, N., K. R. Kumar, Y. Yin, Y. Diao, X. Yu, 2014: Correlation analysis between AOD and cloud parameters to study their relationship over China using MODIS data (2003–2013): Impact on cloud formation and climate change, Aerosol and Air Quality Research, x: 1–16, xxxx, doi: 10.4209/aaqr.2014.08.0168.
  17. Li, Junxia, Yan Yin, Peiren Li, Zhanqing Li, Runjun Li, Maureen Cribb, ZipengDong, Fang Zhang, Jin Li, Gang Ren, Lijun Jin, Yiyu Li,2014: Aircraft measurements of the vertical distribution and activation property of aerosol particles over the Loess Plateau in China, Atmos. Res., 155(2015), 73-86.
  18. Kong, S. F., Li, L., Li, X. X., Yin, Y., Chen, K., Liu, D. T., Yuan, L., Zhang, Y. J., Shan, Y. P., and Ji, Y. Q.: The impacts of firework burning at the Chinese Spring Festival on air quality: insights of tracers, source evolution and aging processes, Atmos. Chem. Phys., 15, 2167-2184, doi:10.5194/acp-15-2167-2015, 2015.
  19. Kong, S.F., Xuxu  Li, Li Li, Yan  Yin, Kui  Chen, Liang  Yuan, Yingjie  Zhang, Yunpeng  Shan, Yaqin  Ji: Variation of polycyclic aromatic hydrocarbons in atmospheric PM2.5 during winter haze period around 2014 Chinese Spring Festival at Nanjing: insights of source changes, air mass direction and firework particle injection, Science of the Total Environment, 520,  59-72,  2015.
  20. 郝囝、银燕、肖辉、袁亮、高晋徽、陈魁,2015:黄山大气气溶胶新粒子生长特性观测分析,中国环境科学,35(1)13~22
  21. 李琦、银燕、袁亮、孔少飞、江琪、陈魁、李力,2015:南京夏季气溶胶吸湿增长因子和云凝结核的观测研究,中国环境科学,35(2)337~346
  22. 马梁臣、银燕20142009年石家庄地区大气气溶胶的飞机探测研究,气象科学,2014,34(1):47-53
  23. 李力、银燕、顾雪松、 陈魁、谭稳、杨磊、袁亮,2014:黄山地区不同高度云凝结核的观测分析,大气科学, 38 (3): 410420.
  24. 王爱平, 朱彬, 银燕, 金莲姬, 张磊,2014:黄山顶夏季气溶胶数浓度特征及其输送潜在源区,中国环境科学, 34(4): 852-861
  25. 文彬, 孔少飞, 银燕, 陈魁, 袁亮, 李力, 李琦,2014:秋季南通近海大气气溶胶水溶性离子粒径分布特征,中国环境科学, 34(1): 49-57
  26. 张勇、银燕、刘藴芳、赵凤生、任静,2014:北京秋季大气气溶胶光学厚度与Angström指数观测研究,中国环境科学, 2014,V34(6): 1380-1389
  27. 吴奕霄、银燕、顾雪松、谭浩波、汪亚2014:南京北郊大气气溶胶的吸湿性观测研究,中国环境科学, V34(8): 1938-1949
  28. 袁亮、银燕、李琦、肖辉、李力,2014:亚青会期间南京地区气溶胶浓度变化及其与能见度的关系,环境科学,35(11), 22-30
  29. 李军霞, 银燕, 李培仁, 李润君, 晋立军, 李劲.山西夏季气溶胶空间分布飞机观测研究,中国环境科学, 2014,V34(8): 1950-1959
  30. 文彬、银燕、秦彦硕、陈魁,2013:夏季黄山不同高度大气气溶胶水溶性离子化学组分分析,环境科学,345):1973-1981
  31. 江琪、银燕、秦彦硕、陈魁、杨素英,2013:黄山地区气溶胶吸湿增长特性数值模拟研究,气象科学,333):237-245
  32. 顾雪松、银燕、谭浩波、李菲、许汉冰、万齐林,2013:珠江三角洲地区气溶胶分档活化特性与闭合实验,中国环境科学,339):1553-1562
  33. 江琪、孙业乐、王自发、银燕2013:应用颗粒物化学组分监测仪(ACSM)实时在线测定致霾细粒子无机和有机组分,科学通报,58doi: 10.1360/972013-501
  34. 张磊、金莲姬、朱彬、银燕20132011 6~8 月平流输送对黄山顶污染物浓度的影响,中国环境科学,33(6)969~978
  35. 马良臣、银燕2013:2009年石家庄地区不同天气条件下大气气溶胶分布特征,气象与环境学报,293):21-28.
  36. 孙玉稳、孙霞、银燕、韩洋,2013:华北平原中西部地区秋季(10月)气溶胶观测研究,高原气象,32(5):1308-1320
  37. 袁亮、银燕、于兴娜、肖 辉、文 彬,2013:黄山夏季气溶胶光学特性观测分析,中国环境科学,2013,33(12)2131-2139
  38. 张勇、银燕、肖辉、匡顺四、吴志会,2012:石家庄春季大气气溶胶的散射特征,中国环境科学,325),769-779
  39. 孙霞、银燕、韩洋、肖辉、孙玉稳、李宝东,2012:石家庄地区雾霾天气下云滴和云凝结核的分布特征,中国环境科学,32(7)1165-1170
  40. 孙玉稳、孙霞、银燕、韩洋、董晓波等,2012:华北地区气溶胶数浓度和尺度分布的航测研究—以石家庄为例,中国环境科学,32((10)1736-1743
  41. 张瑜、银燕、石立新等,2012:华北地区典型污染天大气气溶胶飞机探测个例分析,高原气象,315):1432-1438
  42. 文彬、银燕、秦彦硕、陈魁,2012:黄山顶夏季云雾雾水化学及来源分析,中国环境科学,32(12)2113-2122
  43. 孙霞,银燕,孙玉稳,段英,吴志会,2011石家庄地区春季晴、霾天气溶胶观测研究,中国环境科学,315),705-713
  44. 彦硕,阳,磊,2011南京雾水化学特征污染来源分析,环境化学,304),816-824
  45. 孙霞、银燕、孙玉稳、石立新、段英、吴志会,2011衡水湖地区气溶胶分布特征的航测研究,中国粉体技术,174),14-19
  46. 陈景华、银燕、林振毅、等,2011黄山顶大气气溶胶吸收和散射特性观测分析,气候与环境研究,气候与环境研究,165),641-648
  47. 谭稳银燕陈魁肖辉朱士超吴志会、石立新,2011石家庄地区大气细粒子增长特征初步研究,中国环境科学,31(9)1431-1437
  48. 张瑜、银燕石立新、段英、吴志会,2011:河北地区秋季气溶胶飞机探测资料分析,气象科学,316),755-762
  49. 杨卫芬, 银燕, 魏玉香等,2010: 霾天气下南京PM2.5金属元素污染特征及来源分析,中国环境科学,301),12-17
  50. 银燕,陈晨,陈魁,等,2010:黄山大气气溶胶微观特性的观测研究大气科学学报, 33 (2) : 129-136
  51. 陈魁、银燕、魏玉香、杨卫芬,2010南京大气PM2.5中碳组分观测分析,中国环境科学,308),1015-1020
  52. 谭稳、银燕等,2010南京市夏季清洁地区与污染地区气溶胶微物理特征观测分析,环境科学与技术,336E),280-286
  53. 苏航、王自发、朱彬、银燕2010:北京奥运会前后静稳天气条件下和干沉降模拟,气候与环境研究,155),636-642
  54. 孙霞、银燕、孙玉稳、石立新、段英、吴志会,2010:一次霾过程的气溶胶特征分析,兰州大学学报(自然科学版),46(专辑),102-106
  55. 孙玉稳、孙霞、银燕、齐作辉、赵志军、李云川,2010:华北平原湿地上空气溶胶的分布特征研究,兰州大学学报(自然科学版),46(专辑),96-101
  56. 马国忠银燕张礼春王秋京,2009:哈尔滨一次可吸入颗粒物重污染事件过程分析,南通大学学报,81),52-57
  57. 魏玉香童尧青、银燕陈魁2009南京SO2NO2PM10变化特征及其与气象条件的关系,大气科学学报,323),451-457
  58. 魏玉香银燕杨卫芬芮冬梅杭维琦,2009南京地区PM2.5 污染特征及其影响因素分析,环境科学与管理,349),29-34
  59. 银燕、童尧青、魏玉香,等2009南京市大气细颗粒物化学成分分析,大气科学学报,326),723-733
  60. 魏玉香、杨卫芬、银燕等,2009:霾天气南京市大气PM2.5 中水溶性离子污染特征,环境科学与技术,3211),66-71
  61. 陈宇,银燕,钱凌等,2009:南京北郊200710-12月大气气溶胶吸收和散射特性的观测,气候与环境研究,146),613-620
  62. 钱 凌、银燕、童尧青等,2008南京北郊大气细颗粒物的粒径分布特征,中国环境科学,281),18-22
  63. 张瑜、银燕、段英等,2007:石家庄地区夏季气溶胶飞机探测资料分析,内蒙古气象,第5期,6-8
  64. 童尧青、银燕、钱凌等,2007:南京地区霾天气特征分析,中国环境科学,275),584-588

气溶胶气候效应研究(The Effects of Aerosol on Climate)
  1. Li, Z., C. Li, H. Chen, S. C. Tsay, B. Holben, J. Huang, B. Li, H. Maring, Y. Qian, G. Shi, X. Xia, Y. Yin, Y. Zheng, and G. Zhuang, 2011: East Asian Studies of Tropospheric Aerosols and their Impact on Regional Climate (EASTAIRC): An overview, J. Geophys. Res., 116, D00K34, doi:10.1029/2010JD015257.
  2. Han, Y., T. Zhao, L. Song, X. Fang , Y. Yin, Z. Deng, S. Wang, S. Fan, 2011: A linkage between Asian dust, dissolved iron and marine export production in the deep ocean, Atmos. Environ. doi:10.1016/j.atmosenv.2011.04.078Volume 45, Issue 25, August 2011, Pages 4291-4298
  3. Chen, J., Y. Yin, Q. Chen, H. Ding, H. Xiao, 2014: The impact of convection scheme on the monsoon climate simulation: a sensitivity study of RegCM4, Climate Research, Vol. 60: 147–162, doi: 10.3354/cr01229.
  4. Chen, J., Y. Yin, H. Xiao, Q. Chen, 2014: A numerical investigation of the impacts of anthropogenic sulfate aerosol on regional climate in East Asia, Asia-pacific J. Atmos. Sci., May 2014, 50(3), 391-403.
  5. Guo, Jun, Yan Yin, Jian Wu, Deming Zhao, Numerical study of natural sea salt aerosol and its radiative effects on climate and sea surface temperature over East Asia, Atmospheric Environment, 106, pp 110-119, 2015/4. doi: 10.1016/j.atmosenv.2015.01.074.
  6. Guo, J., and Y. Yin, 2015: Potential of Mineral Dust in Changing the Sea Surface Temperature and Precipitation over East Asia, Procedia Engineering, 102 ( 2015 ) 1160 – 1166, 10.1016/j.proeng.2015.01.241
  7. Zhang, Y., H. Liao, K.-F. Zhu, and Y. Yin, 2009: Role of black carbon-induced changes in snow albedo in predictions of temperature and precipitation during a snow storm Atmos. Oceanic Sci. Lett. , 2, 230-236.
  8. 江琪,银燕,单云鹏,李爱华,陈魁.人为气溶胶对地形云降水的影响:以黄山地区为例.大气科学学报,2014,37(4):405~413.
  9. 张靖、银燕2008:黑碳气溶胶对我国区域气候影响的数值模拟,南京气象学院学报,316),852-859
  10. 银燕、崔振雷、张华、辛金元王莉莉,2006年中国地区大气气溶胶浓度分布特征的模拟研究大气科学学报,325),595-603
  11. 徐萌柳、银燕2012RegCM3引入气溶胶间接气候效应模拟效果对比,气象与环境学报,281):1-10
  12. 崔振雷、张华、银燕2009MATCH对中国地区2006 年气溶胶光学厚度分布特征的模拟研究,遥感技术与应用,242),197-204

大气冰核研究(Atmospheric Ice Nuclei)
  1. Jiang, H., Y. Yin, L. Yang, S. Yang, H. Su, and K. Chen, 2014: The characteristics of atmospheric ice nuclei measured at different altitudes of Mts. Huangshan in southeast China, Adv. Atmos. Sci., 31 (2): 396-406, doi: 10.1007/s00376-013-3048-5.
  2. Hui Jiang, Yan Yin, Hang Su, Yunpeng Shan, Renjie Gao, 2014: The Characteristics of Atmospheric Ice Nuclei Measured at the Top of Huangshan (the Yellow Mountains) in Southeast China Using a Newly Built Static Vacuum Water Vapor Diffusion Chamber, Atmospheric Research, 153 (2015), 200208, doi: 10.1016/j.atmosres.2014.08.015.
  3. 苏航、银燕、陆春松、蒋惠、杨磊,2014:新型扩散云室搭建及其对黄山地区大气冰核的观测研究.大气科学,38(2):386-398,doi:10.3878/j.issn.1006-9895.2013.12211.
  4. 杨磊、银燕、杨绍忠、蒋惠、肖辉、陈倩、苏航、陈聪,2013:南京地区大气冰核浓度的测量及分析,大气科学,37 (3): 579594
  5. 杨磊、银燕、杨绍忠、苏航、蒋惠2013:南京地区秋季大气冰核特征及其与气溶胶关系的研究,大气科学,375):983-993
  1. Zong, R., L. P. Liu, and Y. Yin, 2013: Relationship between cloud characteristics and radar reflectivity based on aircraft and cloud radar co-observation. Adv. Atmos. Sci., 30(5), 12751286, doi:10.1007/s00376-013-2090-7.
  2. Chu, Z., Y. Yin, and S. Gu, 2014: Characteristics of velocity ambiguity for CINRAD-SA Doppler weather radars, Asia-pacific J. Atmos. Sci., 50(2), 221-227, DOI:10.1007/s13143-014-0010-0.
  3. 楚志刚、银燕、顾松山, 2013:一种抗噪声的多普勒天气雷达速度退模糊新算法,气象学报,71 (4)743-753doi: 10.11676/qxxb2013.058
  4. 宗蓉,刘黎平,银燕.基于飞机观测资料的降水粒子反射率因子阈值分析.大气科学学报,2014,37(4):469~475
  5. 王黎俊、银燕、李仑格、汪晓滨、李富刚,2013:三江源地区秋季典型多层层状云系的飞机观测分析,大气科学,375):1038-1058
  6. 楚志刚、银燕、顾松山,2013:新一代天气雷达基数据文件格式自动识别方法研究,计算机与现代化,2013年第5期,180-184.
  7. 武艳、银燕、师春香,等,2012:基于动态阈值法的NOAA系列卫星云检测结果检验,高原气象,313),745-751
  8. 张瑜、银燕、石立新、段英、吴志会,20122007年秋季河北地区云微物理结构的飞机探测分析,高原气象,312),530-537
  9. 邓玮银燕石立新段英吴志会2009河北省气溶胶与云微物理结构的飞机探测个例分析,安徽农业科学,37 (35) : 17578 - 17583
  1. 张天航、银燕、高晋徽、陈魁、肖辉、安俊琳、严家德、李爱华、陈建春,2013:中国华东高海拔地区春夏季臭氧质量浓度变化特征及来源分析,大气科学学报, 36(6): 683-698
  2. 苏航、银燕、朱彬、王自发等,2012中国环渤海地区SO2NO2干沉降数值模拟及影响因子分析,中国环境科学32((11)1921-1932
  3. 金祺、银燕、谭稳,2012:黄山地区复杂地形下污染气体输送过程的数值模拟,大气科学学报, 35(6):680~688
  4. 安俊琳、王跃思、李昕、漏嗣佳、银 燕、申双和,2007:北京大气中SO2NOxCO O3 体积分数变化分析,生态环境,166),1585-1589

其他(others):

 

  1. 银燕、陈久康, 1992: 一个阻塞高压形成, 维持和崩溃机制的诊断研究,南京气象学院学报, 151, 73-80.
  2. 陈久康、银燕, 1993: 阻塞高压期间大气不同尺度分量的演变, 南京气象学院学报,162, 180-185.
  3. 李金义、银燕、陈万隆,2009南京气象学院简单空气质量数值预报模式系统研究,安徽农业科学,37 (33) : 16465 – 16469
  4. 张小培、银燕2013:复杂地形地区WRF模式四种边界层参数化方案的评估,大气科学学报,361):68-76
  5. 杨正卿、刘聪、银燕2010:苏通大桥桥位江面风速的数值试验,气象科学,302),193-201
  6. 杨保东银燕段英等,2007河北地区大气水汽含量分布特征及其变化趋势的初步分析,内蒙古气象,第2期,10-13
  7. 王静、 朱彬;、华兴夏;、银燕、 杨军;、陈爱军,2014:基于“做中学”理念的云降水物理学实践教学改革研究,实验技术与管理,317),145-148
国际会议文集:
  1. Reisin, T., Y. Yin, Z. Levin, and S. Tzivion, 1996: Numerical simulations of the microphysical structure of Hawaiian clouds: Results for an idealized parcel model and a kinematic model with detailed microphysics. `4th International Cloud Modeling Workshop', Clermont  Ferrand, France 12-16 August 1996, WMP report series 29, 13-18.
  2. Yin, Y., Z. Levin, T.G. Reisin, and S. Tzivion, 1998: The South African seeding experiment: Numerical simulations on the sensitivity to particles spectra. Proceeding of 14th Conf. On Planned and Inadvertent Weather Modification, Everett, Washington, USA, 604-607.
  3. Yin, Y., Z. Levin, T.G. Reisin, and S. Tzivion, 1998: Model simulation of the effect of cloud seeding on the evolution of radar-measured properties. Proceeding of 14th Conf. on Planned and Inadvertent Weather Modification, Everett, Washington, USA, 630-631.
  4. Yin, Y., Z. Levin, T.G. Reisin, and S. Tzivion, 1998: On the influence of the size distribution of cloud condensation nuclei on the development of cloud and precipitation. Proceeding of American Meteorological Society Conference on Cloud Physics, Everett, Washington, USA, 530-533.
  5. Reisin, T.G., Z. Levin, S. Tzivion, and Y. Yin, 1998: Numerical simulations of the formation of giant drops in Hawaiian clouds using a kinematic model with detailed microphysics. Proceeding of American Meteorological Society Conference on Cloud Physics, EverettWashington, USA, 502-503.
  6. Yin, Y., Z. Levin, T.G. Reisin, and S. Tzivion, 1999: A numerical evaluation of seeding with hygroscopic flares: sensitivity to seeding time, seeding height, seeding amounts, size of particles and environmental shear. Proceeding of 7th WMO Scientific Conference on Weather Modification, Chiang Mai, Thailand, 69-72.
  7. Levin, Z., Y. Yin, T.G. Reisin, and S. Tzivion, 1999: Comparison of the effects of hygroscopic and glaciogenic seeding on the evolution of spectra of cloud and precipitation particles in convective clouds: A numerical study. Proceeding of 7th WMO Scientific Conference on Weather Modification, Chiang Mai, Thailand, 73-74
  8. Yin, Y., T. G. Reisin, S. D. Wurzler, and Z. Levin, 2000: Modification of the size and composition of CCN by cloud processing of mineral dust particles and the effects on cloud microphysics. Proceeding of 12th International Conference on Clouds and Precipitation, Reno, Nevada, USA, 21-25 August 2000. 936-939.
  9. Chen, K. Y. Yin, Z. Hu, et al., 2008 : Analysis on the Causes of the Heaviest Pollution Episode of Nanjing in 2007, Proceeding of 2008 International Workshop on Education Technology and Training & 2008 International Workshop on Geoscience and Remote Sensing, DOI 10.1109/ETTandGRS.2008.256ISTP/EI
  10. Xu, M. and Y. Yin, 2008: Numerical simulations of the effect of organic carbon on regional climate in East Asia, Proceeding of 2008 International Workshop on Education Technology and Training & 2008 International Workshop on Geoscience and Remote Sensing, DOI 10.1109/ETTandGRS.2008.246ISTP/EI
  11. Qu, P. and Y. Yin, 2008: Impacts of summer biomass burning in Australia on carbon monoxide, ozone and aerosols in the troposphere of Darwin, Proceeding of 2008 International Workshop on Education Technology and Training & 2008 International Workshop on Geoscience and Remote Sensing, DOI 10.1109/ETTandGRS.2008.259. (ISTP/EI)
  12. Chen, Q., Y. Yin, and A. Su, 2008: Review of cloud modeling, Proceeding of 2008 International Workshop on Education Technology and Training & 2008 International Workshop on Geoscience and Remote Sensing, DOI 10.1109/ETTandGRS.2008.255. (ISTP/EI)
  13. Chen, C. and Y. Yin, 2008: Observational studies of concentration distributions of atmospheric fine particles during winter in the north suburban area of Nanjing, Proceeding of 2008 International Workshop on Education Technology and Training & 2008 International Workshop on Geoscience and Remote Sensing, DOI 10.1109/ETTandGRS.2008.247. (ISTP/EI)
  14. Yang, Z. and Y. Yin, 2008: Numerical Simulation of the Wind Velocity at Sutong Highway Bridge and Sensitivity Experiment, Proceeding of 2008 International Workshop on Education Technology and Training & 2008 International Workshop on Geoscience and Remote Sensing, DOI 10.1109/ETTandGRS.2008.244. (ISTP/EI)
  15. Yin, Y., Chen, Y., Wang, W. et al, 2008: Measurements of the absorption and scattering coefficients of aerosol particles in suburb of Nanjing (China), Proceeding of SPIE Vol. 7090, 70900O.EI
  16. Jin, L., Yin, Y., Vaughan, G., et al., 2008: Microphysical properties of tropical anvil cirrus observed during ACTIVE: A statistical analysis, Proceeding of SPIE, Vol. 7090, 70900P. EI
  17. Zhang, Hua, Zhen-lei Cui, and Yan Yin2008: A simulation study of the aerosol optical depth over China in 2006 and its validation with observations, Proc. SPIE, Vol. 7148, 71480E (2008), DOI:10.1117/12.804073. EI
  18. Li, J., and Y. Yin, 2008: A numerical study of tropical deep convection and sensitivity to PBL parameterizations, Proceeding of International Conference on Cloud and precipitation, Cancun, Mexico, 7-11 July 2008.
  19. Zhang, J., and Y. Yin, 2008: Numerical simulations of the effect of black carbon aerosol on regional climate in China, Proceeding of 2nd International Conference on Bioinformatics and Biomedical Engineering (iCBBE)Shanghai, China, 16-18 May 2008. EI
  20. Chen, K., Y. Yin, C. Chen, et al., 2009 : Observations of cloud condensation nuclei in Mt. Huang: Instrumentation and early observations, Proc. of SPIE, Vol. 7490, 74900W, doi: 10.1117/12.836700. (EI)
  21. Yin, Y. Y. Duan, Y. Zhang, et al., 2009: Airborne measurements of the spatial and spectral distributions of aerosol particles over Hebei area, northern China, Proc. of SPIE, Vol. 7490, 74900X, doi: 10.1117/12.836797. (EI)
  22. Deng, W., Y. Yin, L.-X. Shi, and Y. Duan, 2009: An observational study of the aerosol distribution over Hebei area through aircraft detection, Proceedings - 2009 International Conference on Environmental Science and Information Application Technology, ESIAT 2009, DOI:10.1109/ESIAT.2009.259. (EI)
  23. Yang, W., Y. Yin, K. Chen, and Y.-X. Wei, 2009: The characteristics and source of elemental composition in fine particles during haze days in autumn in Nanjing, Proceedings - 2009 International Conference on Environmental Science and Information Application Technology, ESIAT 2009, DOI:10.1109/ESIAT.2009.260. (EI)
  24. Wen Tan, Yan Yin, Kui Chen, Jinghua Chen, 2010: An experimental study of aerosol particles using PCASP-X2 and WPS, Geoscience and Remote Sensing (IITA-GRS), 2010 Second IITA International Conference, vol.1, pp.586-589, 28-31 Aug. 2010, doi: 10.1109/IITA-GRS.2010.5602697, URL: http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=5602697&isnumber=5602583 (EI)
  25. Sun, Ling, Yan Yin, 2010: The variation characteristics research of the area where precipitation reduced significantly in China last five decades, Geoscience and Remote Sensing (IITA-GRS), 2010 Second IITA International Conference, vol.1, pp.559-562, 28-31 Aug. 2010, doi: 10.1109/IITA-GRS.2010.5602697. (EI)
  26. Qin, Y., Y. Yin, Z. Wu, and L. Shi, 2010: An observational study of atmospheric aerosol in Shijiazhuang area, Geoscience and Remote Sensing (IITA-GRS), 2010 Second IITA International Conference, vol.1, pp.328-331, 28-31 Aug. 2010, doi: 10.1109/IITA-GRS.2010.5602697. (EI)
  27. Xia Sun,Yan Yin,Hui Xiao,Wen Tan2011 The distributions of CCN during haze/fog events in Shijiazhuang area Proceedings of 2011 International Conference on Electronics, Communications and Control (ICECC) Sept. 9-11, 2011, Ningbo, China, doi: 10.1109/ICECC.2011.6066264. http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6068022 (EI)
  28. Chen, K., Y. Yin, and Z. Hu, 2011: Influence of air pollutants on fog formation in urban environment of Nanjing, ChinaProcedia Engineering, 24, 654 – 657. (EI)
  29. Kui Chen, Yan Yin,Yongze Wu, Muhammad Athar Haroon, and Yanshuo Qin, 2012: Size-segregated characterization of atmospheric aerosols in Huangshan, ICIC Express Letters, Part B: Applications, 3 (1), 159-163. (EI)

国际会议报告(部分):

  1. Reisin, T., Y. Yin, Z. Levin, and S. Tzivion, 1996: Numerical simulations of the microphysical structure of Hawaiian clouds: results for an idealized parcel model and a kinematic model with detailed microphysics. `4th International Cloud Modeling Workshop', Clermont Ferrand, France 12-16 August 1996.
  2. Yin, Y., Z. Levin, S. Tzivion, and T. Reisin, 1997: On the sensitivity of the size distribution of cloud condensation nuclei on the development of cloud and precipitation. `Research Workshop of the Israeli Science Foundation on Trends and Advances in Numerical Modeling of Clouds and Precipitation', Kibbutz Ginosar, November 17-20, 1997, Israel.
  3. Yin, Y., Z. Levin, S. Tzivion, and T. Reisin, 1997: A numerical study of the influence of the size distribution of cloud condensation nuclei on the development of cloud and precipitation. `Israeli Association for Aerosol Research Eleventh Annual Meeting', Technion, Haifa, December 29 1997 Israel.
  4. Yin, Y., Z. Levin, T.G. Reisin, and S. Tzivion, 1998: The South African seeding experiment: numerical simulations on the sensitivity to particles spectra. `14th Conf. on Planned and Inadvertent Weather Modification', Everett, Washington, USA.
  5. Yin, Y., Z. Levin, T.G. Reisin, and S. Tzivion, 1998: Model simulation of the effect of cloud seeding on the evolution of radar-measured properties. `14th Conf. on Planned and Inadvertent Weather Modification', Everett, Washington, USA.
  6. Yin, Y., Z. Levin, T.G. Reisin, and S. Tzivion, 1998: On the influence of the size distribution of cloud condensation nuclei on the development of cloud and precipitation. `American Meteorological Society Conference on Cloud Physics', Everett, Washington, USA.
  7. Reisin, T.G., Z. Levin, S. Tzivion, and Y. Yin, 1998: Numerical simulations of the formation of giant drops in Hawaiian clouds using a kinematic model with detailed microphysics. `American Meteorological Society Conference on Cloud Physics', Everett, Washington, USA.
  8. Yin, Y., Z. Levin, T.G. Reisin, and S. Tzivion, 1999: A numerical evaluation of seeding with hygroscopic flares: sensitivity to seeding time, seeding height, seeding amounts, size of particles and environmental shear. `7th WMO Scientific Conference on Weather Modification', Chiang Mai, Thailand.
  9. Levin, Z., Y. Yin, T.G. Reisin, and S. Tzivion, 1999: Comparison of the effects of hygroscopic and glaciogenic seeding on the evolution of spectra of cloud and precipitation particles in convective clouds: A numerical study. `7th WMO Scientific Conference on Weather Modification', Chiang Mai, Thailand.
  10. Yin, Y., D. Parker, and K. Carslaw, 2000: The venting of trace gases and aerosols by deep convective clouds. XXV General Assembly of the European Geophysical Society, Nice, France, 25-29 April 2000.
  11. Yin, Y., T. G. Reisin, S. D. Wurzler, and Z. Levin, 2000: Modification of the size and composition of CCN by cloud processing of mineral dust particles and the effects on cloud microphysics. ICCP 2000, Reno, Nevada, USA, 21-25 August 2000.
  12. Yin, Y., D. Parker, and K. Carslaw, 2001: A numerical study of the redistribution of trace gases by deep convective clouds. XXVI General Assembly of the European Geophysical Society, Nice, France, 25-30 March 2001.
  13. Yin, Y., D. Parker, and K. Carslaw, 2001: On the venting of aerosols and trace gases by mixed-phase convective clouds -- A numerical study using a cloud model with detailed microphysics and chemistry. IAMAS2001 Assembly, Innsbruck, Austria, 10-18 July 2001.
  14. Levin, Z., S. D. Wurzler, E. Ganor, Y. Yin, and A. Teller, 2001: On the modification of mineral dust particles based on their path of transport and the effect on mixed phase cloud and precipitation. European Aerosol Conference 2001, Leipzig, Germany, 3-7 September 2001.
  15. Levin, Z., Y. Yin, S. Wurzler and T. G. Reisin, 2002: On the interactions of dust particles and clouds. Bi-national Israeli-Turkish Workshop on "Atmospheric Deposition of Aerosols and Gases in the Eastern Mediterranean", Dead Sea, Israel, 6-8 January 2002.
  16. Yin, Y., K. S. Carslaw, and D. J. Parker, 2003: Redistribution of sulfate aerosols and precursors by mixed-phase convective clouds. EGS-AGU-EGU Joint Assembly, Nice, France, 6-11 April, 2003.
  17. Carslaw, K. S., Y. Yin, and D. J. Parker, 2003: Factors controlling the transport of trace gases to the free and upper troposphere in convective clouds. EGS-AGU-EGU Joint Assembly, Nice, France, 6-11 April, 2003.
  18. Yin, Y., S. Wurzler, Z. Levin, and T. G. Reisin, 2003: Effects of cloud processed mineral dust particles on mixed phase clouds, precipitation formation and cloud optical properties. EGS-AGU-EGU Joint Assembly, Nice, France, 6-11 April, 2003.
  19. Yin, Y., and K. S. Carslaw, 2003: Aerosol and gas transport to the upper troposphere in Deep Convection. Workshop on tropical Meteorology and Chemistry, 14-16 May 2003, Wessling, Pfarrstadl, Germany.
  20. Hill, A., Dobbie, S., Yin, Y., 2004: A bin microphysical LES model for evaluation of the semi-direct effect, EGU Assembly, Nice, France, 25-30 April, 2004.
  21. Yin, Y., Carslaw, K., Feingold, G., 2004: Cloud processing and transport of aerosol and the feedback on cloud microstructure and precipitation, EGU Assembly, Nice, France, 25-30 April, 2004.
  22. Yin, Y., 2005: The effect of CCN concentration and size distribution on cloud microphysical structure and precipitation, The IGAC Specialty Conference on the Indirect Effects of Aerosols on Climate, UMIST, Manchester, UK, 5-7 January, 2005.
  23. Yin, Y., 2006: Small-scale modeling of aerosols and clouds, Symposium on Impact of Elevated Aerosols on Radiation-Monsoon-Water Cycle Interactions, Xining, China, July 31—Aug. 2, 2006.
  24. Yin, Y., 2006: Small Scale Modelling of Aerosol – Cloud – Precipitation Interactions, 第三届中韩人工影响天气国际研讨会, 北京,2006年9月7-9日.
  25. Yin, Y., and Jin, L.-J., 2006: Numerical Simulation of Hector and the response to changes in aerosol concentration, ACTIVE/SCOUT-O3 Workshop, Cambridge, UK, 6-8 November, 2006.
  26. Yin, Y., 2006: Long-range transport of mineral dust and the effects on cloud microphysical properties and precipitation, ESSP Open Science Conference, Beijing, China, 9-12 November, 2006.
  27. Yin, Y., 2007: Impact of Mineral Dust on Cloud Microphysical Properties and Precipitation, 7th International Workshop on “Climate-Chemistry Interaction: Atmospheric Chemistry, Aerosols and Clouds”, June 18-20, 2007, Oslo, Norway.(特邀)
  28. Yin, Y., 2008: Aerosol Effects on Clouds and Precipitation: Advances and Challenges, “International Workshop on Anthropogenic Impacts on Asian Monsoon”, April 21-23, 2008, Nanjing, China.(特邀)
  29. Yin, Y., L. Jin, G. Vaughan, G. Allen, P. Connolly, A. Heymsfield, A. Bansemer, 2008: Microphysical Properties of Tropical Anvil Cirrus Observed during ACTIVE: A Case Study, International Conference on Cloud and Precipitation, Cancun, Mexico, July 7-11, 2008.
  30. Yin Y., Y. Duan, Y. Zhang, L. Shi, Y. Li, 2008: Vertical and Spectral Distributions of Aerosol Particles over Shijiazhuang Area, Northern China, International Conference on Cloud and Precipitation, Cancun, Mexico, July 7-11, 2008.
  31. Li, J. and Y. Yin, 2008: Sensitivity Experiment of Simulations of Tropical Deep Convection to the PBL Parameterizations, International Conference on Cloud and Precipitation, Cancun, Mexico, July 7-11, 2008.
  32. Yin, Y., Chen, Y., Wang, W. et al, 2008: Measurements of the absorption and scattering coefficients of aerosol particles in suburb of Nanjing (China), SPIE Conference on “Optics and Applications”, August 10-14, 2008, San Diego, CA, USA.
  33. Jin, L., Yin, Y., Vaughan, G., et al., 2008: Microphysical properties of tropical anvil cirrus observed during ACTIVE: A statistical analysis, SPIE Conference on “Optics and Applications”, August 10-14, 2008, San Diego, CA, USA.
  34. 银燕,2008大气气溶胶对云和降水影响的研究进展,中国气象学会2008年会,20081119-22日,北京。(特邀)
  35. Yin, Y., 2008: Long-range transport of mineral dust and the effects on clouds and precipitation, 11th Chinese-American Kavli Frontiers of Science Symposium, Oct. 1-4, 2008, Irvine, CA, USA.(特邀)
  36. Yin, Y., 2009: Measurements of Aerosol, CCN and Cloud Particles on Mts Huang: Preliminary Results, The 2nd International Conference of Aerosol Science and Global Change, August, 16-21, 2009, Hangzhou, China.(特邀)
  37. Yin, Y., P. Qu, A. Heymsfield, et al., 2009:Impacts of Summer Biomass Burning in Australia on Carbon Monoxide, Ozone and Aerosols in the Troposphere of Darwin, IAMAS Assembly, July, 19-29, 2009, Montreal, Canada.
  38. Yin, Y. and M. Xu, 2009: Numerical Simulations of the Effect of Organic Carbon on Regional Climate in East Asia, IAMAS Assembly, July, 19-29, 2009, Montreal, Canada.
  39. Yin, Y., C. Chen, Z. Lin and J. Chen, 2009: Measurements of aerosol, CCN and cloud particles on top of the Yellow Mts., 中国气象学会2009年会,2009年10月13-16日,杭州。(特邀)
  40. Yin, Y. and Q. Chen, 2010: Modeling the effects of mineral dust on cloud and precipitation, International Symposium on Asian Dust/Aerosol and its Impact on Global Climate Change, August 8-10, 2010, Fudan University, Shanghai, China .
  41. Yin, Y. Q. Chen, and H. Xiao, 2010: The impact of parameterization of cloud microphysical processes on convective precipitation forecasting, The Third WMO International Conference on QPE/QPF and Hydrology, 18-22 Oct. 2010, Nanjing, China.
  42. Yin, Y. and H. Xiao, 2010: A numerical study of aerosol effects on regional precipitation, The Third WMO International Conference on QPE/QPF and Hydrology, 18-22 Oct. 2010, Nanjing, China.

书籍编著、翻译:

  1. Wallace, J. M., and P. V. Hobbs, Atmospheric Science (2nd edition), 何金海、王振会、银燕、朱彬等译,科学出版社,2008
  2. Martin A. Uman, The Art and Science of Lightning Protection, 银燕、杨仲江、郭凤霞、张其林译,气象出版社,2011
  3. 杨军、陈宝君、银燕等编著,云降水物理,气象出版社,2011
  4. 何金海、郭品文、银燕、申双和,大气科学概论,气象出版社,2012

专利:

  1. 陈魁,银燕,胡正华,楚志刚,谭稳,2010.09.29:“一种雾水和自动分类气溶胶的采集装置”,实用新型专利,专利号201020109547.2
  2. 陈魁,银燕,胡正华,楚志刚,谭稳,2011.12.14,“一种雾水和自动分类气溶胶的采集装置”,发明专利,专利号ZL201010107432.4
  3. 银燕、苏航、卜令兵、陈魁、楚志刚、徐汉冰、王黎俊、杨磊、蒋惠,2014.04.23,“用于大气冰核活化计数的云室及云室技术”,发明专利,专利号ZL201210150601.1
  4. 银燕、楚志刚,“天气雷达基数据格式自动识别方法”,发明专利,申请号201310036683.1.
  5. 银燕、楚志刚,“多普勒天气雷达径向速度场的退模糊方法”,发明专利,受理号201310041840.8.
获奖情况

 

  • 2015:获江苏省“五一劳动奖章”
  • 2014:“共建体制下“大气象”创新人才培养体系的构建与实践”获全国教学成果奖一等奖(排名第七)
  • 2013:“大气气溶胶理化特性及其对灰霾、云和降水影响研究”获江苏省科学技术三等奖(排名第一)
  • 2013:《气象与生活》获批国家级精品公开视频课(银燕、杨春瑰、李忠明)
  • 2011:获“全国教育系统职业道德建设标兵”称号
  • 2011“依托局校共建,构建现代气象人才实践能力培养体系”获2011年度江苏省教学成果一等奖(排名第一)
  • 2008:江苏省“六大人才高峰”五年建设优秀人才
  • 2008《云降水物理学》获江苏省精品课程
  • 2007江苏省“333高层次人才培养工程” 首批中青年科技领军人才
  • 2006:《云降水物理学》精品课程获南京信息工程大学教学成果奖一等奖(3

其它学术成果

 

  • 2013指导的秦彦硕硕士论文《黄山地区大气气溶胶化学组分及其对云微物理特征的影响研究》被评为江苏省优秀硕士学位论文
  • 2014:指导的孙霞士论文《华北平原气溶胶时空分布特征和云微观结构观测分析》被评为江苏省优秀硕士学位论文

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