Source apportionment of PM2.5 particles: Influence of outdoor particles on indoor environment of schools using chemical mass balance

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dc.contributor.authorKalaiarasan, G.
dc.contributor.authorMohan Balakrishnan, R.M.
dc.contributor.authorSethunath, N.A.
dc.contributor.authorManoharan, S.
dc.date.accessioned2026-02-05T09:32:33Z
dc.date.issued2017
dc.description.abstractChildren have higher lung function than adults and they spend most of their day time in schools. Also, children studying at schools located in the vicinity of busy roadways are vulnerable to childhood asthma and respiratory disorders. The present study is focused on estimating the sources of PM<inf>2.5</inf> particles present in the indoor air quality in schools which are located adjacent to urban and suburban roadways. The indoor PM<inf>2.5</inf> samples from all the four schools were collected using fine dust sampler from 8 a.m. to 4 p.m. The sampling was carried out for one complete week during various seasons including both working and non-working days. The chemical compositions of the PM<inf>2.5</inf> samples were analyzed for certain elements like Ba, Cd, Cr, Cu, Fe, Mn, Ni, Pb, Sr, Ti, V and Zn using Inductively Coupled Plasma Optical Emission Spectrometry (ICP OES) and ions like F-, Cl-, NO<inf>3</inf>-, PO<inf>4</inf>3-, SO<inf>4</inf>2-, K+, Ca2+, Mg2+, NH<inf>4</inf>+, Na+ using Ion Chromatography (IC). Source apportionment study using Chemical Mass Balance was carried out using the species concentration of the collected samples. The major sources were found to be Paved Road Dust, Soil Dust, Gasoline Vehicle Emissions, Diesel Vehicle Emissions and Marine Source Emissions. Among these, vehicular emissions contribution was found to be higher for the schools located close to roadways rather than the school located at a considerable distance from highway. The difference in source type contribution at each school clearly depicts the difference in nature of location and type of activities in the vicinity of the sampling sites. © Taiwan Association for Aerosol Research.
dc.identifier.citationAerosol and Air Quality Research, 2017, 17, 2, pp. 616-625
dc.identifier.issn16808584
dc.identifier.urihttps://doi.org/10.4209/aaqr.2016.07.0297
dc.identifier.urihttps://idr.nitk.ac.in/handle/123456789/25695
dc.publisherAAGR Aerosol and Air Quality Research hhyang@cyut.edu.tw
dc.subjectAir quality
dc.subjectBarium
dc.subjectCadmium compounds
dc.subjectChemical analysis
dc.subjectChlorine
dc.subjectChromatography
dc.subjectDust
dc.subjectFluorine
dc.subjectIndoor air pollution
dc.subjectInductively coupled plasma
dc.subjectIon chromatography
dc.subjectMagnesium
dc.subjectManganese
dc.subjectOptical emission spectroscopy
dc.subjectSocieties and institutions
dc.subjectSpectrometry
dc.subjectStrontium
dc.subjectChemical compositions
dc.subjectChemical mass balance
dc.subjectInductively coupled plasma-optical emission spectrometry
dc.subjectParticle concentrations
dc.subjectReceptor model
dc.subjectRespiratory disorders
dc.subjectSpecies concentration
dc.subjectVehicular emission
dc.subjectTitanium
dc.subjectair quality
dc.subjectatmospheric particle
dc.subjectbuilding
dc.subjectchemical element
dc.subjectchemical mass balance
dc.subjectchild health
dc.subjectconcentration (composition)
dc.subjectindoor air
dc.subjectparticulate matter
dc.subjectrespiratory disease
dc.subjectroad
dc.subjectsource apportionment
dc.subjecttraffic emission
dc.titleSource apportionment of PM2.5 particles: Influence of outdoor particles on indoor environment of schools using chemical mass balance

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