源解析：美国超级站点计划的研究结果

Source apportionment: findings from the U.S. Supersites Program.

作者信息

Watson John G, Chen L W Antony, Chow Judith C, Doraiswamy Prakash, Lowenthal Douglas H

机构信息

Division of Atmospheric Sciences, Desert Research Institute, Reno, NV 89512, USA.

出版信息

J Air Waste Manag Assoc. 2008 Feb;58(2):265-88. doi: 10.3155/1047-3289.58.2.265.

DOI:10.3155/1047-3289.58.2.265

PMID:18318341

Abstract

Receptor models are used to identify and quantify source contributions to particulate matter and volatile organic compounds based on measurements of many chemical components at receptor sites. These components are selected based on their consistent appearance in some source types and their absence in others. UNMIX, positive matrix factorization (PMF), and effective variance are different solutions to the chemical mass balance (CMB) receptor model equations and are implemented on available software. In their more general form, the CMB equations allow spatial, temporal, transport, and particle size profiles to be combined with chemical source profiles for improved source resolution. Although UNMIX and PMF do not use source profiles explicitly as input data, they still require measured profiles to justify their derived source factors. The U.S. Supersites Program provided advanced datasets to apply these CMB solutions in different urban areas. Still lacking are better characterization of source emissions, new methods to estimate profile changes between source and receptor, and systematic sensitivity tests of deviations from receptor model assumptions.

摘要

受体模型用于根据受体站点处多种化学成分的测量结果，识别并量化颗粒物和挥发性有机化合物的源贡献。这些成分是根据它们在某些源类型中的一致出现以及在其他源类型中的缺失来选择的。UNMIX、正定矩阵因子分解（PMF）和有效方差是化学质量平衡（CMB）受体模型方程的不同求解方法，并在可用软件上实现。以更一般的形式，CMB方程允许将空间、时间、传输和粒径分布与化学源分布相结合，以提高源分辨率。虽然UNMIX和PMF没有明确将源分布用作输入数据，但它们仍然需要测量分布来证明其导出的源因子的合理性。美国超级站点计划提供了高级数据集，以在不同城市地区应用这些CMB解决方案。目前仍缺乏对源排放的更好表征、估计源与受体之间分布变化的新方法，以及对受体模型假设偏差的系统敏感性测试。

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源解析：美国超级站点计划的研究结果

Source apportionment: findings from the U.S. Supersites Program.

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