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Electrostatic control of domestic dust and allergen particles for improved air quality

Electrostatic control of domestic dust and allergen particles for improved air quality
Electrostatic control of domestic dust and allergen particles for improved air quality
Indoor air quality is an important issue, as exposure to indoor allergens has been associated with recent increases in the prevalence of allergic disease. Reduction of indoor allergen levels can therefore play an important role in the overall management of these patients. Reviewed here are two new electrostatic techniques for controlling domestic dust and allergenic particles. A technique to improve the removal of airborne allergens has demonstrated enhanced precipitation of particles by charged liquid sprays. Charged sprays can be produced by maximising the shearing of electrical double layers during atomisation of liquids from domestic pressure-pack (PP) devices. Electrostatically charged sprays removed up to 45% of the total mass of airborne dust particles. The effect on small particles (<2.0 μm) is most significant, the concentration of these being reduced by 73% by the charged spray, compared with just 59% by the equivalent uncharged spray. The removal of dust and allergen particles from normal carpets during vacuuming can be enhanced by the application of an electrostatically charged carpet care powder. Carpet powders, of the type used to deliver a fragrance to a domestic carpet, can be triboelectrically charged during delivery to above 1 x 10(-4) C/kg. It has been found that when this charged powder was applied to carpets, up to 99% of dust was removed, 15% more than when no powder was applied. Application of a standard, uncharged powder resulted in significantly less dust being recovered. It was proposed that the charged powder particles attract dust and allergen from within the carpet pile, and that these large agglomerates were more efficiently removed by vacuum cleaning. These novel techniques for dust and allergen particle control in the domestic environment represent new applications for electrostatic technology. They come at a time of increased public awareness and concern for indoor air quality, providing potential tools for allergen mitigation in the management of allergic disease patients.
domestic dust, allergen particles, indoor air quality, electrostatics
0032-5910
354-360
Gaunt, L.F.
8f1ddc70-cc59-4bb0-8fe9-313a855c8a17
Jerrim, K.L.
42f53f3d-f7b0-4677-9ac3-f9d761803c27
Hughes, J.F.
ef5ab3af-0788-447b-b3d1-9791a7b0168c
Gaunt, L.F.
8f1ddc70-cc59-4bb0-8fe9-313a855c8a17
Jerrim, K.L.
42f53f3d-f7b0-4677-9ac3-f9d761803c27
Hughes, J.F.
ef5ab3af-0788-447b-b3d1-9791a7b0168c

Gaunt, L.F., Jerrim, K.L. and Hughes, J.F. (2003) Electrostatic control of domestic dust and allergen particles for improved air quality. Powder Technology, 135 (SP. IS), 354-360.

Record type: Article

Abstract

Indoor air quality is an important issue, as exposure to indoor allergens has been associated with recent increases in the prevalence of allergic disease. Reduction of indoor allergen levels can therefore play an important role in the overall management of these patients. Reviewed here are two new electrostatic techniques for controlling domestic dust and allergenic particles. A technique to improve the removal of airborne allergens has demonstrated enhanced precipitation of particles by charged liquid sprays. Charged sprays can be produced by maximising the shearing of electrical double layers during atomisation of liquids from domestic pressure-pack (PP) devices. Electrostatically charged sprays removed up to 45% of the total mass of airborne dust particles. The effect on small particles (<2.0 μm) is most significant, the concentration of these being reduced by 73% by the charged spray, compared with just 59% by the equivalent uncharged spray. The removal of dust and allergen particles from normal carpets during vacuuming can be enhanced by the application of an electrostatically charged carpet care powder. Carpet powders, of the type used to deliver a fragrance to a domestic carpet, can be triboelectrically charged during delivery to above 1 x 10(-4) C/kg. It has been found that when this charged powder was applied to carpets, up to 99% of dust was removed, 15% more than when no powder was applied. Application of a standard, uncharged powder resulted in significantly less dust being recovered. It was proposed that the charged powder particles attract dust and allergen from within the carpet pile, and that these large agglomerates were more efficiently removed by vacuum cleaning. These novel techniques for dust and allergen particle control in the domestic environment represent new applications for electrostatic technology. They come at a time of increased public awareness and concern for indoor air quality, providing potential tools for allergen mitigation in the management of allergic disease patients.

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Published date: October 2003
Additional Information: INVITED PAPER
Keywords: domestic dust, allergen particles, indoor air quality, electrostatics
Organisations: Electronics & Computer Science

Identifiers

Local EPrints ID: 258434
URI: http://eprints.soton.ac.uk/id/eprint/258434
ISSN: 0032-5910
PURE UUID: 1707d50c-ec4f-4ce1-8375-03e2786df2fc

Catalogue record

Date deposited: 03 Nov 2003
Last modified: 14 Mar 2024 06:09

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Contributors

Author: L.F. Gaunt
Author: K.L. Jerrim
Author: J.F. Hughes

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