Assessment of Air Pollutants Emissions from a Cement Plant: A Case Study in Jordan
Abstract
This paper presents predictions of air pollutants (dust, SO2, NOx and CO) emitted from a cement plant that will be constructed in Wadi Alabyad area located about 100 km south of Amman, Jordan. The Gaussian air pollution model is used and the predicted concentrations of the air pollutants are compared with the Jordanian air quality
standards (JS 1140/2006). It is found that the month of September represents the worst-case scenario where the atmospheric stability condition is classified as A and the average wind speed is 1.7 m/s. The predicted SO2 hourly and the 24-hour concentrations -when using fuel oil- reached 0.8 ppm and 0.42 ppm, consequently, at a distance of 750 m from the plant, which exceed the standard values of 0.3 ppm and 0.14 pmm, consequently. In case of natural gas as source of energy, the SO2 concentration is predicted to be negligible. The hourly concentration of NOx is 0.32 ppm at a distance of 750 m from the plant exceeding the standard limit of 0.21 ppm. It is found that the maximum TSP 24-hour concentration will be expected to reach 359.61 μg/m3 exceeding the standard value of 260 μg/m3. The TSP, PM10 and PM2.5 concentrations exceeded the values set by the standard near the vicinity of the cement plant at a distance closer than 300 m. The proposed mitigation measures should limit the ambient air pollutant concentrations to be in compliance with the standard values.
standards (JS 1140/2006). It is found that the month of September represents the worst-case scenario where the atmospheric stability condition is classified as A and the average wind speed is 1.7 m/s. The predicted SO2 hourly and the 24-hour concentrations -when using fuel oil- reached 0.8 ppm and 0.42 ppm, consequently, at a distance of 750 m from the plant, which exceed the standard values of 0.3 ppm and 0.14 pmm, consequently. In case of natural gas as source of energy, the SO2 concentration is predicted to be negligible. The hourly concentration of NOx is 0.32 ppm at a distance of 750 m from the plant exceeding the standard limit of 0.21 ppm. It is found that the maximum TSP 24-hour concentration will be expected to reach 359.61 μg/m3 exceeding the standard value of 260 μg/m3. The TSP, PM10 and PM2.5 concentrations exceeded the values set by the standard near the vicinity of the cement plant at a distance closer than 300 m. The proposed mitigation measures should limit the ambient air pollutant concentrations to be in compliance with the standard values.
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ISSN: 1993-0461 ISSN: 2225-157X,
Edited and Published by Jordan University of Science and Technology, P.O.Box 3030, Irbid 22110, Jordan
Mailing address: Prof. Fouad Gharaybeh, Ph.D.
Editor-in-Chief Civil Engineering Department Jordan University of Science and Technology Irbid 22110, Jordan Tel. No. + 962 2 7201000 ext. 22104 Fax No. + 962 2 7201073
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