A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Microanalysis of Indoor Aerosols and the Impact of a Compact High‐Efficiency Particulate Air (HEPA) Filter System
Abstract Aerosol particles in municipal atmospheres are of increasing public health concern; however, since most of our time is spent indoors, indoor aerosols must be researched in counterpart. Compact High‐Efficiency Particulate Air (HEPA) filter systems are commonly employed in residences to alleviate airborne dust concentrations. In this study, a detailed and original methodology was used to determine concentrations and types of submicrometer aerosols, as well as of large (>4 μm) dust particles. Scanning electron microscopy was used to quantify and characterize ambient aerosols collected from filtered and non‐filtered rooms. Particle concentrations were significantly lower in samples collected in the presence of the filter system (mean 23 to 8 coarse particles liter−1, 63% reduction; 13 to 3 inorganic submicron particles cm−3, 76% reduction; 85 to 33 total submicron particles cm−3, 62% reduction; all P < 0.05). This study provides a new methodology for analysis of indoor aerosols and new data on their physico‐chemical characteristics. Since the filter systems are effective at reducing submicron aerosol concentrations, they may improve the health of individuals such as asthmatics, who experience health problems caused by anthropogenic fine particles.
Microanalysis of Indoor Aerosols and the Impact of a Compact High‐Efficiency Particulate Air (HEPA) Filter System
Abstract Aerosol particles in municipal atmospheres are of increasing public health concern; however, since most of our time is spent indoors, indoor aerosols must be researched in counterpart. Compact High‐Efficiency Particulate Air (HEPA) filter systems are commonly employed in residences to alleviate airborne dust concentrations. In this study, a detailed and original methodology was used to determine concentrations and types of submicrometer aerosols, as well as of large (>4 μm) dust particles. Scanning electron microscopy was used to quantify and characterize ambient aerosols collected from filtered and non‐filtered rooms. Particle concentrations were significantly lower in samples collected in the presence of the filter system (mean 23 to 8 coarse particles liter−1, 63% reduction; 13 to 3 inorganic submicron particles cm−3, 76% reduction; 85 to 33 total submicron particles cm−3, 62% reduction; all P < 0.05). This study provides a new methodology for analysis of indoor aerosols and new data on their physico‐chemical characteristics. Since the filter systems are effective at reducing submicron aerosol concentrations, they may improve the health of individuals such as asthmatics, who experience health problems caused by anthropogenic fine particles.
Microanalysis of Indoor Aerosols and the Impact of a Compact High‐Efficiency Particulate Air (HEPA) Filter System
Abraham, Mark E. (author)
Indoor Air ; 9 ; 33-40
1999-03-01
8 pages
Article (Journal)
Electronic Resource
English
HEPA HELP HIGH-EFFICIENCY FILTERS CAN HELP IMPROVE OPERATIONS
British Library Online Contents | 2006