1. Aerosols physical properties at Hada Al Sham, western Saudi Arabia.
- Author
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Lihavainen, H., Alghamdi, M.A., Hyvärinen, A.-P., Hussein, T., Aaltonen, V., Abdelmaksoud, A.S., Al-Jeelani, H., Almazroui, M., Almehmadi, F.M., Al Zawad, F.M., Hakala, J., Khoder, M., Neitola, K., Petäjä, T., Shabbaj, I.I., and Hämeri, K.
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ATMOSPHERIC aerosol measurement , *AEROSOLS & the environment , *PARTICULATE matter , *DUST storms , *WIND speed - Abstract
This is the first time to clearly derive the comprehensive physical properties of aerosols at a rural background area in Saudi Arabia. Aerosol measurements station was established at a rural background area in the Western Saudi Arabia to study the aerosol properties. This study gives overview of the aerosol physical properties (PM 10 , PM 2.5 , black carbon and total number concentration) over the measurement period from November 2012 to February 2015. The average PM 10 and PM 2.5 concentrations were 95 ± 78 μg m −3 (mean ± STD, at ambient conditions) and 33 ± 68 μg m −3 (at ambient conditions), respectively. As expected PM 10 concentration was dominated by coarse mode particles (PM 10 –PM 2.5 ), most probably desert dust. Especially from February to June the coarse mode concentrations were high because of dust storm season. Aerosol mass concentrations had clear diurnal cycle. Lower values were observed around noon. This behavior is caused by wind direction and speed, during night time very calm easterly winds are dominating whereas during daytime the stronger westerly winds are dominating (sea breeze). During the day time the boundary layer is evolving, causing enhanced mixing and dilution leading to lower concentration. PM 10 and PM 2.5 concentrations were comparable to values measured at close by city of Jeddah. Black carbon concentration was about 2% and 6% of PM 10 and PM 2.5 mass, respectively. Total number concentration was dominated by frequent new particle formation and particle growth events. The typical diurnal cycle in particle total number concentration was clearly different from PM 10 and PM 2.5 . [ABSTRACT FROM AUTHOR]
- Published
- 2016
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