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Evaluation of formation rates of NO"2 to gaseous and particulate nitrate in the urban atmosphere [An article from: Atmospheric Environment]
Book Details
Author(s)Y.-C. Lin, M.-T. Cheng
PublisherElsevier
ISBN / ASINB000PDSWTI
ISBN-13978B000PDSWT2
AvailabilityAvailable for download now
Sales Rank99,999,999
MarketplaceUnited States 🇺🇸
Description
This digital document is a journal article from Atmospheric Environment, published by Elsevier in 2007. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
This work investigates the formation rates of gaseous and particulate nitrate in an urban atmosphere. This investigation is based on theoretical evaluations regarding potential NO"2 oxidant reactions, leading to calculated values compared with field observations in Taichung City, Taiwan in 2002. The results show that the correlation coefficient (r) between the calculated value and field observation for HNO"3 was 0.83 and that for NO"3^- was 0.66, suggesting that the theoretical calculations are suitable for assessing the formation rate of nitrate species. The 12-h average conversion rate of NO"2 to HNO"3 was approximately 3.4+/-3.1%h^-^1, while the formation rate of particulate NO"3^- was 2.4+/-1.8%h^-^1. Seasonal variations in gaseous and particulate production rates were obtained. The formation rate of HNO"3 was found to be higher in summer, whereas the NO"3^- rate was lowest. The factors affecting the formation rate were also investigated using the model sensitivity test. The results showed that both HNO"3 and NO"3^- were significantly dependent upon the ambient temperature and relative humidity in a moist atmosphere.
Description:
This work investigates the formation rates of gaseous and particulate nitrate in an urban atmosphere. This investigation is based on theoretical evaluations regarding potential NO"2 oxidant reactions, leading to calculated values compared with field observations in Taichung City, Taiwan in 2002. The results show that the correlation coefficient (r) between the calculated value and field observation for HNO"3 was 0.83 and that for NO"3^- was 0.66, suggesting that the theoretical calculations are suitable for assessing the formation rate of nitrate species. The 12-h average conversion rate of NO"2 to HNO"3 was approximately 3.4+/-3.1%h^-^1, while the formation rate of particulate NO"3^- was 2.4+/-1.8%h^-^1. Seasonal variations in gaseous and particulate production rates were obtained. The formation rate of HNO"3 was found to be higher in summer, whereas the NO"3^- rate was lowest. The factors affecting the formation rate were also investigated using the model sensitivity test. The results showed that both HNO"3 and NO"3^- were significantly dependent upon the ambient temperature and relative humidity in a moist atmosphere.
