@article { author = {Noorpoor, Alireza and Rahman, H. R.}, title = {Application of AERMOD to local scale diffusion and dispersion modeling of air pollutants from cement factory stacks (Case study: Abyek Cement Factory)}, journal = {Pollution}, volume = {1}, number = {4}, pages = {417-426}, year = {2015}, publisher = {University of Tehran}, issn = {2383-451X}, eissn = {2383-4501}, doi = {10.7508/pj.2015.04.006}, abstract = {Today, the cement industry is one of the major air polluting industries in the world. Hence, in this study, owing to the importance and role of contaminants from the plant, an appraisal of the emission contributions in addition to other factors have been discussed. There are several reasons behind the importance of modeling air pollutants. First, the assessment of standards for air pollution, and the fact that the measurement points are limited. Furthermore, in all industrial areas, measurement and installation of assessment and monitoring stations are not feasible. The AERMOD model is a dispersion steady state model which is utilized to determine the concentration of various pollutants in different areas from urban and rural, flat and rough, shallow diffusion in height, from standpoint and different shallow sources. In this model, it is assumed that the dispersion of concentration in Stable Boundary Layer (SBL) in two horizontal and vertical directions are similar to that of horizontal within Gaussian convectional boundary layer (CBL). With regard to assessment of the parameters and pollutants of stack outlet, the amount of particulate matter was measured as the most important pollutant in the region. Then, via dispersion and diffusion modeling of pollution (AERMOD) along with environmental measurements, the nature of dispersion of this pollutant in the analysis of the surrounding areas was verified. According to the presented results, the highest level of concentration for particulate matters in all areas affected by cement factory amounts to 43.68 (μg/m3) which occurred at a distance of 1500 m in the east direction and 2100 m in the north direction.}, keywords = {Air pollution,cement industry,diffusion and dispersion modeling,particulate matter}, url = {https://jpoll.ut.ac.ir/article_54667.html}, eprint = {https://jpoll.ut.ac.ir/article_54667_4075345a58295fa6cf1f34e3810fd929.pdf} }