A diagnostic comparison of measured and model-predicted speciated VOC concentrations

Abstract

This study compares speciated model-predicted concentrations (i.e., mixing ratios) of volatile organic compounds (VOCs) with measurements from the Photochemical Assessment Monitoring Stations (PAMS) network at sites within the northeastern US during June–August of 2006. Measurements of total non-methane organic compounds (NMOC), ozone (O 3), oxides of nitrogen (NO x) and reactive nitrogen species (NO y) are used for supporting analysis. The measured VOC species were grouped into the surrogate classes used by the Carbon Bond IV (CB4) chemical mechanism. It was found that the model typically over-predicted all the CB4 VOC species, except isoprene, which might be linked to overestimated emissions. Even with over-predictions in the CB4 VOC species, model performance for daily maximum O 3 was typically within ±15%. Analysis at an urban site in NY, where both NMOC and NO x data were available, suggested that the reasonable ozone performance may be possibly due to compensating overestimated NO x concentrations, thus modulating the NMOC/NO x ratio to be in similar ranges as that of observations.