Bibliographic citations
Quispe, E., (2022). Modelamiento de la dispersión geográfica de pm10 producido por el sector ladrillero utilizando el software Aermod View en el distrito de San Jerónimo, provincia y departamento de Cusco 2018 [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/5008
Quispe, E., Modelamiento de la dispersión geográfica de pm10 producido por el sector ladrillero utilizando el software Aermod View en el distrito de San Jerónimo, provincia y departamento de Cusco 2018 []. PE: Universidad Andina del Cusco; 2022. https://hdl.handle.net/20.500.12557/5008
@misc{renati/960938,
title = "Modelamiento de la dispersión geográfica de pm10 producido por el sector ladrillero utilizando el software Aermod View en el distrito de San Jerónimo, provincia y departamento de Cusco 2018",
author = "Quispe Chavez, Edwin Harol",
publisher = "Universidad Andina del Cusco",
year = "2022"
}
The research work is quantitative and descriptive in scope, with the main objective of modeling the geographic dispersion of PM-10 particulate matter produced by the brick sector in the District of San Jeronimo, using the AERMOD VIEW 8.9.0 software. The meteorological data was acquired from METOSIM in Samsom (.sam) and Upper Air (.ua) formats for 2018, with reference to the San Jeronimo brickyard sector; the files were entered into the Aermet View program as part of the information required to run the program. The results of the air quality monitoring carried out in 2018 in the San Jeronimo brick sector were requested to the Environmental Evaluation and Control Agency (OEFA), with 05 monitoring points. For the applicative part, the measurement of parameters and values was performed in situ, in a brick kiln required by the Aermod View program (US EPA) of reference of the company LATESAN S.A, being taken the dimensions of the kiln, plume exit speed, gas exit temperature, fuel consumption, firing time and raw material. The values were entered into the Aermod View program in its version 8.9.0, determining the type of terrain and identifying the emission sources, resulting in the PM-10 particulate matter dispersion map of the brick sector, where it is identified that the monitoring point CA-SJ-01 has a concentration of 133.12 𝒖𝒈/𝒎 𝟑 , being the point that exceeds the Environmental Quality Standards for Air. It concludes the existence of a direct relationship between pollutant dispersion and meteorological parameters such as wind speed and direction, validating the air quality monitoring conducted by OEFA in 2018.
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