Air pollution sources of PM10 in Buenos Aires City

To elucidate the sources of PM10 air pollution from the experimental information collected in a local air quality monitoring campaign we have applied two methods, effective variance and genetic algorithms, in the solution of the chemical mass balance. The comparison of these two mathematical approac...

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Autor principal:	Reich, Silvia Leonor
Publicado:	2009
Materias:	Aerosol Effective variance Genetic algorithm Receptor model Screening procedure Air quality monitoring Buenos Aires Chemical mass balance Key elements Major and trace elements Mathematical approach Search spaces SIMPLE method Air quality Atmospheric aerosols Genetic algorithms Permanent magnets Trace elements Mathematical models trace element air quality atmospheric pollution genetic algorithm mass balance numerical model particulate matter pollutant source pollution monitoring urban pollution air monitoring air pollution Argentina article controlled study intermethod comparison mathematical analysis standardization variance Aerosols Air Pollutants Environmental Monitoring Models, Theoretical Particulate Matter Buenos Aires [Federal District] Federal District [Argentina] South America
Acceso en línea:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01676369_v155_n1-4_p191_Reich http://hdl.handle.net/20.500.12110/paper_01676369_v155_n1-4_p191_Reich
Aporte de:	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires

id	paper:paper_01676369_v155_n1-4_p191_Reich
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spelling	paper:paper_01676369_v155_n1-4_p191_Reich2023-06-08T15:16:37Z Air pollution sources of PM10 in Buenos Aires City Reich, Silvia Leonor Aerosol Effective variance Genetic algorithm Receptor model Screening procedure Air quality monitoring Buenos Aires Chemical mass balance Effective variance Key elements Major and trace elements Mathematical approach Receptor model Search spaces SIMPLE method Air quality Atmospheric aerosols Genetic algorithms Permanent magnets Trace elements Mathematical models trace element air quality atmospheric pollution genetic algorithm mass balance numerical model particulate matter pollutant source pollution monitoring urban pollution air monitoring air pollution air quality Argentina article controlled study genetic algorithm intermethod comparison mathematical analysis particulate matter standardization variance Aerosols Air Pollutants Argentina Environmental Monitoring Models, Theoretical Particulate Matter Argentina Buenos Aires [Federal District] Federal District [Argentina] South America To elucidate the sources of PM10 air pollution from the experimental information collected in a local air quality monitoring campaign we have applied two methods, effective variance and genetic algorithms, in the solution of the chemical mass balance. The comparison of these two mathematical approaches show that the identification of the possible sources and the evaluation of its contributions are quite independent of them. The role of possible different sources for major and trace elements and the significance of standardizing available data is also addressed. We also present a simple method for identifying the number of candidate sources, a key element defining the dimension of the search space. © Springer Science+Business Media B.V. 2008. Fil:Reich, S. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2009 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01676369_v155_n1-4_p191_Reich http://hdl.handle.net/20.500.12110/paper_01676369_v155_n1-4_p191_Reich
institution	Universidad de Buenos Aires
institution_str	I-28
repository_str	R-134
collection	Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic	Aerosol Effective variance Genetic algorithm Receptor model Screening procedure Air quality monitoring Buenos Aires Chemical mass balance Effective variance Key elements Major and trace elements Mathematical approach Receptor model Search spaces SIMPLE method Air quality Atmospheric aerosols Genetic algorithms Permanent magnets Trace elements Mathematical models trace element air quality atmospheric pollution genetic algorithm mass balance numerical model particulate matter pollutant source pollution monitoring urban pollution air monitoring air pollution air quality Argentina article controlled study genetic algorithm intermethod comparison mathematical analysis particulate matter standardization variance Aerosols Air Pollutants Argentina Environmental Monitoring Models, Theoretical Particulate Matter Argentina Buenos Aires [Federal District] Federal District [Argentina] South America
spellingShingle	Aerosol Effective variance Genetic algorithm Receptor model Screening procedure Air quality monitoring Buenos Aires Chemical mass balance Effective variance Key elements Major and trace elements Mathematical approach Receptor model Search spaces SIMPLE method Air quality Atmospheric aerosols Genetic algorithms Permanent magnets Trace elements Mathematical models trace element air quality atmospheric pollution genetic algorithm mass balance numerical model particulate matter pollutant source pollution monitoring urban pollution air monitoring air pollution air quality Argentina article controlled study genetic algorithm intermethod comparison mathematical analysis particulate matter standardization variance Aerosols Air Pollutants Argentina Environmental Monitoring Models, Theoretical Particulate Matter Argentina Buenos Aires [Federal District] Federal District [Argentina] South America Reich, Silvia Leonor Air pollution sources of PM10 in Buenos Aires City
topic_facet	Aerosol Effective variance Genetic algorithm Receptor model Screening procedure Air quality monitoring Buenos Aires Chemical mass balance Effective variance Key elements Major and trace elements Mathematical approach Receptor model Search spaces SIMPLE method Air quality Atmospheric aerosols Genetic algorithms Permanent magnets Trace elements Mathematical models trace element air quality atmospheric pollution genetic algorithm mass balance numerical model particulate matter pollutant source pollution monitoring urban pollution air monitoring air pollution air quality Argentina article controlled study genetic algorithm intermethod comparison mathematical analysis particulate matter standardization variance Aerosols Air Pollutants Argentina Environmental Monitoring Models, Theoretical Particulate Matter Argentina Buenos Aires [Federal District] Federal District [Argentina] South America
description	To elucidate the sources of PM10 air pollution from the experimental information collected in a local air quality monitoring campaign we have applied two methods, effective variance and genetic algorithms, in the solution of the chemical mass balance. The comparison of these two mathematical approaches show that the identification of the possible sources and the evaluation of its contributions are quite independent of them. The role of possible different sources for major and trace elements and the significance of standardizing available data is also addressed. We also present a simple method for identifying the number of candidate sources, a key element defining the dimension of the search space. © Springer Science+Business Media B.V. 2008.
author	Reich, Silvia Leonor
author_facet	Reich, Silvia Leonor
author_sort	Reich, Silvia Leonor
title	Air pollution sources of PM10 in Buenos Aires City
title_short	Air pollution sources of PM10 in Buenos Aires City
title_full	Air pollution sources of PM10 in Buenos Aires City
title_fullStr	Air pollution sources of PM10 in Buenos Aires City
title_full_unstemmed	Air pollution sources of PM10 in Buenos Aires City
title_sort	air pollution sources of pm10 in buenos aires city
publishDate	2009
url	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_01676369_v155_n1-4_p191_Reich http://hdl.handle.net/20.500.12110/paper_01676369_v155_n1-4_p191_Reich
work_keys_str_mv	AT reichsilvialeonor airpollutionsourcesofpm10inbuenosairescity
_version_	1768542592499187712

Air pollution sources of PM10 in Buenos Aires City

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