Application of SWEEP and AERMOD Models to Simulate PM 10 Emission Risk from Primary Materials and Waste Depos of Tile and Ceramic, Khak-e-Chini and Glass Industries of Ardakan, Yazd, Iran in 2018

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Shojaee Barjoee Saeed; AZIMZADEH HAMIDREZA; MOSLEH ARANI ASGHAR

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Journal: JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING Year:2020 | Volume:7 | Issue:4 Page(s): 401-426

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Information Journal Paper

Title

Application of SWEEP and AERMOD Models to Simulate PM 10 Emission Risk from Primary Materials and Waste Depos of Tile and Ceramic, Khak-e-Chini and Glass Industries of Ardakan, Yazd, Iran in 2018

Author(s)

Shojaee Barjoee Saeed | AZIMZADEH HAMIDREZA | MOSLEH ARANI ASGHAR | Issue Writer Certificate

Keywords

PM10Q1

AERMODQ1

SWEEPQ1

Health Risk AssessmentQ1

Respiratory exposureQ1

Abstract

Background: Application of air quality models in Health Risk Assessment system has been defined as an effective tool in assess the human population exposure to environmental harmful factors. The present study was conducted to aim of Health Risk Assessment of Respiratory exposure to PM10 Emitted from Depos of primary materials and waste a number of Non-metallic minerals industries by Modeling method. Methods: In this descriptive study, first to Field visits and laboratory measurements was obtained the information needed for SWEEP model to estimate PM10 emission rate from depos of Tile and Ceramic, Khak-e-chini and glass industries. Then, with the introduction of meteorological information to AERMET, the digital elevation model to AERMAP, the emission rate and the geometric dimensions of the pollutant sources to AERMOD, simulated the values of exposure to PM10 in the affected population. The chemical composition of the depos was determined using ICP-MS. Subsequently, using the EPA suggested relationships was estimated the risk of carcinogenic and noncarcinogenic exposure to PM10. Results: According to the simulation results of SWEEP model, the highest PM10 emission was estimated for the Tile and Ceramic depo. The highest concentration maximum of 1, 8, and 24 h of PM10 simulated were 8840, 1967, and 1272 μ g/m3, respectively. The highest average Respiratory exposure of 1 (52. 53), 8 (11. 64), 24 (5. 85 μ g/m3) hour to PM10 was estimated for Sand and Gravel processing plant staff. The highest percentage of chemical compounds in depos was for silica. Accordingly, the carcinogenicity risk (ILCR) of exposure to PM10 was predicted less than 10-4 and non-carcinogenicity risk (HQ) less than one. Conclusion: Although numerical values of risk were predicted in the permissible limit, but to creating Surface rock on the depo industries can reduce the emission of PM10.

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APA: Copy

Shojaee Barjoee, Saeed, AZIMZADEH, HAMIDREZA, & MOSLEH ARANI, ASGHAR. (2020). Application of SWEEP and AERMOD Models to Simulate PM 10 Emission Risk from Primary Materials and Waste Depos of Tile and Ceramic, Khak-e-Chini and Glass Industries of Ardakan, Yazd, Iran in 2018. JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING, 7(4 ), 401-426. SID. https://sid.ir/paper/412006/en

Vancouver: Copy

Shojaee Barjoee Saeed, AZIMZADEH HAMIDREZA, MOSLEH ARANI ASGHAR. Application of SWEEP and AERMOD Models to Simulate PM 10 Emission Risk from Primary Materials and Waste Depos of Tile and Ceramic, Khak-e-Chini and Glass Industries of Ardakan, Yazd, Iran in 2018. JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING[Internet]. 2020;7(4 ):401-426. Available from: https://sid.ir/paper/412006/en

IEEE: Copy

Saeed Shojaee Barjoee, HAMIDREZA AZIMZADEH, and ASGHAR MOSLEH ARANI, “Application of SWEEP and AERMOD Models to Simulate PM 10 Emission Risk from Primary Materials and Waste Depos of Tile and Ceramic, Khak-e-Chini and Glass Industries of Ardakan, Yazd, Iran in 2018,” JOURNAL OF ENVIRONMENTAL HEALTH ENGINERING, vol. 7, no. 4 , pp. 401–426, 2020, [Online]. Available: https://sid.ir/paper/412006/en

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