气溶胶化学

  • 网络aerosol chemistry;Chemistry of Aerosol
气溶胶化学气溶胶化学
  1. 环球海洋大气气溶胶化学研究&Ⅲ:金属形态和入海通量

    A Study of Aerosol Chemistry in the Atmosphere over Oceans Part - ⅲ: Forms and Air-Sea Fluxes of Metal

  2. 静电辅助气溶胶化学气相沉积法制备Al2O3薄膜

    Deposition of Al_2O_3 Thin Films by Electrostatic Spray Assisted Vapor Deposition Method

  3. 北京冬春季节大气气溶胶化学成份的研究

    A study of elemental concentrations in atmospheric aerosol from Beijing in late winter

  4. 北京秋季气溶胶化学成分的高分辨率观测及来源分析

    High-Resolution Observation of Chemical Components of Atmospheric Aerosol in Autumn of Beijing and Its Source Identification

  5. 本文分析了同时观测的气溶胶化学元素浓度和各种气象资料。

    Ill this paper , observations of elemental concentration of the atmospheric aerosol and meteorological conditions are analyzed .

  6. 通过富集因子、相关分析、因子分析等方法判别中山站气溶胶化学成分的来源。

    Meanwhile sources of the elements in the marine aerosols are discriminated using methods of enrichment factor , correlation analysis and factor analysis .

  7. 使用质子X射线荧光法对样品进行了分析,得到20种元素的质量浓度及其谱分布,对太原市冬季气溶胶的化学特征和来源进行了研究。

    20 element concentrations and elemental distribution were obtained .

  8. 选用香港空气质量监测网中11个监测站1990~1994年间TSP(总悬浮粒子)和RSP(可吸入悬浮粒子)的监测数据,分析香港大气气溶胶的化学组成与时空变化。

    The chemical composition data of TSP and RSP measured at 11 stations of the Hong Kong Air Quality Monitoring Network between 1990 to 1994 are analyzed for their seasonal and spatial variations .

  9. 北京一月大气气溶胶的化学成分及其谱分布

    Elemental concentrations and their size distributions of Beijing aerosol in January

  10. 北京地区气溶胶及其化学元素浓度和气象条件的关系

    Relationship between elemental concentration of aerosol and meteorological conditions in Beijing

  11. 1998年南极中山站海洋气溶胶的化学组成及其来源判别

    The chemical composition of marine aerosol over Zhongshan Station in Antarctica and its sources discrimination in 1998

  12. 基于气溶胶动力学和化学反应动力学,建立了化学气相淀积反应器中普适动力学方程,导出了cvd反应器中超细颗粒粒径分布谱函数和薄膜淀积速率的计算方法;

    A Generalzed dynamic equation based on aerosol dynamics and reaction kinetics for a CVD reactor was derived , and a calculation method for particle size distribution and film growth rate in the CVD reactor was developed .

  13. 将高分辨、高灵敏的扫描核探针(SNM)技术与人工神经网络(ANN)模式识别方法相结合,以单个气溶胶颗粒物化学表征为基础,开展大气气溶胶源识别与解析的新方法研究。

    A new method combining the scanning nuclear microprobe ( SNM ) with the pattern recognition of artificial neural network ( ANN ) was studied for the source identification and apportionment of aerosol particles .

  14. 南极大气气溶胶的物理化学特征与环境变化

    Study on environmental change and physicochemical characteristics of aerosol in Antarctica

  15. 气溶胶单粒子化学成分的实时测量

    Real-Time Measurement of Chemical Compositions of Individual Aerosol Particles

  16. 城市大气气溶胶的物理化学特性及其对人体健康的影响

    The Physical and Chemical Characteristics of Aerosols in the Urban Region and Their Influence on Human Health

  17. 本文讨论了北京地区气溶胶浓度及其化学特性的年变化。

    Aerosol concentration in Beijing area and the yearly change of its chemical characters are discussed in this paper .

  18. 因此,研究气溶胶的物理化学性质和光学特性及其时空变化规律成为大气科学的一个热点问题。

    So that , the study of the physical and chemical characteristic , optical depth and the spatial and temporal variations become a key issue of atmospheric sciences .

  19. 自行设计了国内第一台可实时测量气溶胶单粒子化学成分的气溶胶飞行时间质谱仪,并用该仪器对两类燃烧过程产生的气溶胶粒子进行了实时测量。

    An aerosol time-of-flight mass spectrometer that can be used for real-time measurement of chemical compositions of individual aerosol particles had been designed and manufactured in our laboratory .

  20. 由悬浮在空气中的固体或液体颗粒组成的大气气溶胶在大气化学与物理、气候体系、公众健康及许多环境过程中发挥着关键的作用。

    Atmospheric aerosols , consisting of liquid or solid particles suspended in air , play a key role in the atmospheric chemistry and physics , climate system , public health , and many environmental processes .

  21. 近年来,亚洲尤其是中国近海气溶胶的物理化学特性及其对气候和环境的影响已成为目前大气科学研究中的关键问题之一。

    The physical and chemical characteristics of aerosol over Asia especially in East China Sea and the influence on climate and environment has been one of the most important issues in the research on atmospheric science in recent years .

  22. 方法将DU撞击燃烧,采样后分析气溶胶分散度、化学成分和核素组成,气溶胶在模拟肺液中的溶解度,以及气溶胶浓度的时间变化和空间分布。

    Methods After DU combusting , aerosol samples were collected , and the dispersity , oxide and isotopic component , solubility in simulated lung fluids , and changes in aerosol concentration with time and distance were analyzed .

  23. 大气气溶胶中锂的化学分离与同位素比的质谱检测

    Separation and Stable Isotopic Measurement of Lithium in Atmosphere Aerosol Sample

  24. 北京大气气溶胶的特征和化学组份的变化

    Characteristics of Atmospherical Aerosols and Changes of Their Chemical Components in Beijing

  25. 比较具体地概述了有关气溶胶粒子大小和化学成分的分析测量方法,对国外的实时气溶胶单粒子质谱研究进行了总结。

    And real - time single particle mass spectrometry was also summarized .

  26. 城市大气气溶胶细粒子的化学成分及其来源

    Chemical Composition and Its Source of Fine Particles in Atmospheric Aerosol of Urban Areas

  27. 粘性土颗粒分析技术改进初探气溶胶单颗粒物化学的图像分析法

    Preliminary discussion on the improvement of granulometry of clay soil Graphical techniques for interpreting the composition of individual aerosol particles

  28. 本文将重点介绍二次有机气溶胶形成的重要化学过程和量子化学计算研究。

    The emphases in this paper are focused on the important chemical processes and quantum chemical calculation on the formation of secondary organic aerosols .

  29. 冬季气溶胶的浓度及其化学元素含量高于夏季,一般在12月份出现最大值。

    Results indicate that aerosol concentration and the content of chemical elements are higher in winter than in summer , maximum value appearing in December .

  30. 西南大西洋近海活动合作联合宣言太平洋西部、南大洋及东南极陆缘大气气溶胶来源及其物理化学特征

    Joint Declaration on Cooperation over off-shore activities in the south-west Atlantic SOURCE AND PHYSICOCHEMICAL CHARACTERISTICS OF AEROSOL IN WESTERN PACIFIC , SOUTHERN OCEAN AND THE FRINGE OF EAST ANTARCTICA