Dispersion and Health Risk Assessment of PM10 Emitted from the Stacks of a Ceramic and Tile industry in Ardakan, Yazd, Iran, Using the AERMOD Model

Dispersion and Health Risk Assessment of PM10 Emitted from the Stacks of a Ceramic and Tile industry in Ardakan, Yazd, Iran, Using the AERMOD Model

Background: In developing countries, air pollution caused by industries constitutes a serious threat to public health. The present study was conducted to determine the dispersion patern and assess the health risks of PM10 emitted from the stacks of a ceramic and tile factory. Materials and Methods:...

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Main Authors: Saeid Shojaee Barjoee, Hamidreza Azimzadeh, Mohammadreza kuchakzadeh, Asghar MoslehArani, Hamid Sodaiezadeh
Format: Article
Language:English
Published: Bushehr University of Medical Sciences 2019-12-01
Series:Iranian South Medical Journal
Subjects:
exposure
dispersion
health risk assessment
stack
pm10
Online Access:http://ismj.bpums.ac.ir/article-1-1175-en.html
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spelling doaj-7c9223926d97445a80b312b9f5298cd92020-11-25T02:38:24ZengBushehr University of Medical SciencesIranian South Medical Journal 1735-43741735-69542019-12-01225317332Dispersion and Health Risk Assessment of PM10 Emitted from the Stacks of a Ceramic and Tile industry in Ardakan, Yazd, Iran, Using the AERMOD ModelSaeid Shojaee Barjoee0Hamidreza Azimzadeh1Mohammadreza kuchakzadeh2Asghar MoslehArani3Hamid Sodaiezadeh4 Department of Environmental pollution, college of Environment, Yazd University, Yazd, Iran Department of Environmental pollution, college of Environment, Yazd University, Yazd, Iran Department of Human Environment, General Office of Environmental Protection of Yazd Province, Yazd, Iran Department of Environmental pollution, college of Environment, Yazd University, Yazd, Iran Department of Environmental pollution, college of Environment, Yazd University, Yazd, Iran Background: In developing countries, air pollution caused by industries constitutes a serious threat to public health. The present study was conducted to determine the dispersion patern and assess the health risks of PM10 emitted from the stacks of a ceramic and tile factory. Materials and Methods: The present descriptive-cross sectional study was performed on a tile and ceramic industry in Ardakan, Yazd, Iran. The stacks emission information and meteorological and topographical data were first prepared to run the AERMOD model and draw the disperesion patern and evaluate exposure to PM10. The simulated concentrations were then compared to EPA and WHO standards, and carcinogenic and non-carcinogenic health risks of exposure to PM10 were calculated using the formulas proposed by EPA. Results: The results showed unifrom PM10 dispersion in all directions given the flat modeling area. The simulated maximum PM10 concentrations were found to be higher than the maxium thresholds stipulated in both the standards for a 24-hour period and higher than the WHO thresholds on an annual basis. In contrast, the average daily and annual concentrations were found to be below the standard limits. The results of assessing both carcinogenic and non-carcinogenic health risks were therefore estimated to be acceptable.  Conclusion: Although the present study calculated the contribution of the study factory’s stacks to carcinogenic and non-carcinogenic health risks as acceptable, the cumulative effects of industries in Ardakan can increase these risks in the villages surrounding these industries.http://ismj.bpums.ac.ir/article-1-1175-en.htmlexposuredispersionhealth risk assessmentstackpm10
collection DOAJ
language English
format Article
sources DOAJ
author Saeid Shojaee Barjoee
Hamidreza Azimzadeh
Mohammadreza kuchakzadeh
Asghar MoslehArani
Hamid Sodaiezadeh
spellingShingle Saeid Shojaee Barjoee
Hamidreza Azimzadeh
Mohammadreza kuchakzadeh
Asghar MoslehArani
Hamid Sodaiezadeh
Dispersion and Health Risk Assessment of PM10 Emitted from the Stacks of a Ceramic and Tile industry in Ardakan, Yazd, Iran, Using the AERMOD Model
Iranian South Medical Journal
exposure
dispersion
health risk assessment
stack
pm10
author_facet Saeid Shojaee Barjoee
Hamidreza Azimzadeh
Mohammadreza kuchakzadeh
Asghar MoslehArani
Hamid Sodaiezadeh
author_sort Saeid Shojaee Barjoee
title Dispersion and Health Risk Assessment of PM10 Emitted from the Stacks of a Ceramic and Tile industry in Ardakan, Yazd, Iran, Using the AERMOD Model
title_short Dispersion and Health Risk Assessment of PM10 Emitted from the Stacks of a Ceramic and Tile industry in Ardakan, Yazd, Iran, Using the AERMOD Model
title_full Dispersion and Health Risk Assessment of PM10 Emitted from the Stacks of a Ceramic and Tile industry in Ardakan, Yazd, Iran, Using the AERMOD Model
title_fullStr Dispersion and Health Risk Assessment of PM10 Emitted from the Stacks of a Ceramic and Tile industry in Ardakan, Yazd, Iran, Using the AERMOD Model
title_full_unstemmed Dispersion and Health Risk Assessment of PM10 Emitted from the Stacks of a Ceramic and Tile industry in Ardakan, Yazd, Iran, Using the AERMOD Model
title_sort dispersion and health risk assessment of pm10 emitted from the stacks of a ceramic and tile industry in ardakan, yazd, iran, using the aermod model
publisher Bushehr University of Medical Sciences
series Iranian South Medical Journal
issn 1735-4374
1735-6954
publishDate 2019-12-01
description Background: In developing countries, air pollution caused by industries constitutes a serious threat to public health. The present study was conducted to determine the dispersion patern and assess the health risks of PM10 emitted from the stacks of a ceramic and tile factory. Materials and Methods: The present descriptive-cross sectional study was performed on a tile and ceramic industry in Ardakan, Yazd, Iran. The stacks emission information and meteorological and topographical data were first prepared to run the AERMOD model and draw the disperesion patern and evaluate exposure to PM10. The simulated concentrations were then compared to EPA and WHO standards, and carcinogenic and non-carcinogenic health risks of exposure to PM10 were calculated using the formulas proposed by EPA. Results: The results showed unifrom PM10 dispersion in all directions given the flat modeling area. The simulated maximum PM10 concentrations were found to be higher than the maxium thresholds stipulated in both the standards for a 24-hour period and higher than the WHO thresholds on an annual basis. In contrast, the average daily and annual concentrations were found to be below the standard limits. The results of assessing both carcinogenic and non-carcinogenic health risks were therefore estimated to be acceptable.  Conclusion: Although the present study calculated the contribution of the study factory’s stacks to carcinogenic and non-carcinogenic health risks as acceptable, the cumulative effects of industries in Ardakan can increase these risks in the villages surrounding these industries.
topic exposure
dispersion
health risk assessment
stack
pm10
url http://ismj.bpums.ac.ir/article-1-1175-en.html
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AT hamidrezaazimzadeh dispersionandhealthriskassessmentofpm10emittedfromthestacksofaceramicandtileindustryinardakanyazdiranusingtheaermodmodel
AT mohammadrezakuchakzadeh dispersionandhealthriskassessmentofpm10emittedfromthestacksofaceramicandtileindustryinardakanyazdiranusingtheaermodmodel
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