Airborne particles in the city center of Kuala Lumpur: Origin, potential driving factors, and deposition flux in human respiratory airways
Deposition rates; Industrial emissions; Particle size; Particles (particulate matter); Respiratory system; Shape memory effect; Size distribution; Correlation analysis; Deposition modeling; Human respiratory system; Meteorological factors; Particle number concentration; Potential deposition; Scannin...
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| Main Authors: | , , , , , , , , , , , , , , |
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| Format: | Article |
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Elsevier B.V.
2023
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| Summary: | Deposition rates; Industrial emissions; Particle size; Particles (particulate matter); Respiratory system; Shape memory effect; Size distribution; Correlation analysis; Deposition modeling; Human respiratory system; Meteorological factors; Particle number concentration; Potential deposition; Scanning mobility particle sizer; Urban air pollution; Air pollution control; atmospheric deposition; concentration (composition); particulate flux; particulate matter; size distribution; urban area; adult; air pollution; airborne particle; article; concentration (parameters); correlation analysis; Federal Territory of Kuala Lumpur; female; human; Indian Ocean; male; meteorological phenomena; particle size; upper respiratory tract; air pollutant; air pollution; analysis; city; environmental monitoring; exposure; Malaysia; particulate matter; respiratory system; statistics and numerical data; Kuala Lumpur [Kuala Lumpur (ADS)]; Kuala Lumpur [West Malaysia]; Malaysia; West Malaysia; Air Pollutants; Air Pollution; Cities; Environmental Monitoring; Humans; Inhalation Exposure; Malaysia; Meteorological Concepts; Particulate Matter; Respiratory System |
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