Evaluation of a model for hourly spatial concentration distributions

K.E. Grønskei, S.E. Walker, F. Gram
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引用次数: 21

Abstract

A time-dependent finite difference model in three levels combined with a puff model to account for subgrid effects close to single sources was used to calculate hour-to-hour concentration distributions. Measurements from several selected stations were used to account from time variation in background concentrations. For each hour, weight was given to observed values in areas that were not influenced by local sources.

Results of concentration calculations based on hourly data on emission and dispersion are validated by measured time series of SO2 and NOx at five stations. A combination of hourly nephelometer readings and 12-h measurements of small particles at three stations are compared with calculated values.

Hourly observed and calculated values from two periods (3 January–15 March 1988 and 18 April–24 June 1988) were used for the evaluation of the model for calculating hourly pollution concentrations in each square kilometre. The results showed that prediction of short-term average concentrations (e.g. hourly data) are usually poorly correlated with observations at the same time and location. Slight displacement errors may cause point-to-point correlation to be poor as a result of errors in input data.

The pattern of NOx concentration variation with time was reproduced well at all stations. A subgrid model taking into account the influence of nearby roads would probably improved the model for NOx at some stations. For SO2 and small particles, industrial sources have the dominant influence and the correspondence between observed and calculated values were improved by taking into account spatial uncertainty and an hourly variation in background concentrations.

每小时浓度空间分布模式的评价
一个时间依赖的有限差分模型在三个水平结合抽吸模型,以解释子网格效应接近单一源计算小时浓度分布。来自几个选定站点的测量数据被用来解释背景浓度的时间变化。每小时对不受当地源影响的地区的观测值进行加权。基于每小时排放和扩散数据的浓度计算结果通过五个站点的SO2和NOx测量时间序列进行验证。将三个站点每小时浊度计的读数和每12小时的小颗粒测量值与计算值进行比较。两个时期(1988年1月3日至3月15日和1988年4月18日至6月24日)的每小时观测值和计算值被用于评估计算每平方公里每小时污染浓度的模式。结果表明,短期平均浓度的预测(如每小时数据)通常与同一时间和地点的观测结果相关性较差。微小的位移误差可能会由于输入数据的误差而导致点对点相关性较差。各监测站NOx浓度随时间的变化规律均得到较好的再现。考虑到附近道路影响的子网格模型可能会改进一些站点的氮氧化物模型。对于二氧化硫和小颗粒,工业来源的影响占主导地位,通过考虑空间不确定性和背景浓度的小时变化,改善了观测值和计算值之间的对应关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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