生物气溶胶

  • 网络Bioaerosols;Bioaerosol
生物气溶胶生物气溶胶
  1. 生物气溶胶新型采样介质的研制

    Development of a New Sampling Medium for Bioaerosols

  2. 生物气溶胶的激光光谱识别和荧光雷达探测研究有利于人类与传染疾病作斗争。

    Thus the study of laser spectra identification and fluorescence lidar detection on bioaerosols could be useful for combating the spread of diseases in plants , animals and human race .

  3. 为了提高检测生物气溶胶的特异性和敏感性,分别用平板计数和聚合酶链反应(PCR)对土拉弗氏菌气溶胶的稳定性进行了研究。

    For the specific and sensitive detection of bioaerosol , we studied the stability of Francisella tularensis aerosol by use of PCR and plate counting seperately .

  4. 生物气溶胶中的几类生物体(如真菌、细菌和藻类)都被鉴别出是有效的云凝结核(CCN),并在以活性CCN的形式存在。

    Several types of biological organisms ( e.g. , fungi , bacteria , and algae ) have been identified as effective cloud condensation nuclei ( CCN ), being active in cloud .

  5. 主要介绍近年来生物气溶胶在分子生物学方面的研究进展。

    The current advance in molecular biology of bioaerosol is mainly introduced .

  6. 基于T矩阵理论,提出一种生物气溶胶颗粒尺寸和形状的测量方法。

    A method of clarifying bioaerosol particles is proposed based on T-matrix .

  7. 生物气溶胶研究进展:环境与气候效应

    Environment and climate effect of bioaerosol : A review

  8. 南京市生物气溶胶浓度垂直分布和日变化规律

    The vertical distribution and diurnal variation law of the bioaerosol concentration in Nanjing City

  9. 该方法便于实时监控空气中生物气溶胶颗粒的尺寸和形状。

    The method is very useful in real-time environmental monitoring of particle sizes and shapes .

  10. 海洋生物气溶胶增加可能导致晚新生代全球变冷的模型计算

    Model Assessment of the Possible Contribution of Increasing Marine Biogenic Aerosol in Late Cenozoic Cooling

  11. 生物气溶胶在分子生物学方面的研究进展

    Advance in Molecular Biology of Bioaerosol

  12. 利用紫外激光诱导荧光雷达探测技术可进行生物气溶胶及生物战剂的识别研究。

    A UV-fluorescence lidar system is used for identification study of biological aerosols and bio-warfare agent .

  13. 采用直接生物气溶胶过滤采样方法,对该口罩防护效果进行检测。

    Direct biological aerosol filtration sampling method was used to examine the protective efficacy of this respirator .

  14. 通过对单个生物气溶胶颗粒空间光散射图形分布的分析,可同时获得其尺寸和形状信息。

    Size and shape characterizations are simultaneously acquired for individual bioaerosol particles by analyzing the spatial distribution of scattered light .

  15. 研究青岛近海生物气溶胶的分布特征对于了解黄海沿海生物气溶胶特征及其对大气环境和人体健康的影响具有重要意义。

    Statistical characteristics of bioaerosol in Qingdao coastal region are important for better understanding characteristics of bioaerosol over the Yellow Sea and its impact on human health and atmospheric environment .

  16. 生物气溶胶是大气气溶胶的重要组成部分,与人体健康和空气质量密切相关,同时间接影响着全球气候变化,并对大气化学和物理过程有着潜在的重要影响。

    Bioaerosol is a significant subgroup of atmospheric aerosols and it has important impact on the human health and air quality . Bioaerosol also has effects on the global climate and atmospheric process .

  17. 目的评价不同类型口罩滤材对非生物颗粒气溶胶和微生物气溶胶过滤效率。

    Objective To evaluate the filtration efficiency of different types of mask filtration materials against non-biological particles aerosol and microbial aerosol .

  18. 生物燃烧型气溶胶主要出现在夏季,主要分布在山东、江苏以及河南和安徽的交界、四川东南的部分地区。

    Biomass type is mainly distributed in Shandong , Jiangsu , southeast part of Sichuan , and the junction of Henan and Anhui .

  19. 为了控制生物洁净室内气溶胶中微生物粒子的数量,以清除尘埃为手段通过空气过滤的物理方法,有效地将进入室内空气中的尘埃及微生物粒子清除掉;

    In order to control the quantity of biological particulates in the aerosole in the bio-cleanroom , to clear away the dust particulate as purpose , we found it is effective to clear dust particulate and biological particulate away in the air by the physical means of air filter ;

  20. 具体介绍了大气校正算法的原理、生物光学算法及气溶胶的相关知识。

    The atmospheric correction algorithm , bio-optical algorithms and optical properties of aerosols ( especially absorbtive aerosols ) are also described .