Indian Journal of Fibre & Textile Research

Open Access Open Access  Restricted Access Subscription Access

Development of fabrics for adsorbing carbon dioxide and other pollutants from indoor air


Affiliations
1 Northern India Textile Research Association, Ghaziabad 201 002, India
2 Northern India Textile Research Association, Ghaziabad 201 002

An attempt has been made to develop cotton-treated fabrics to be used as home textile and decorative products inside the room, which can adsorb carbon dioxide and thus reduce indoor air pollution. Cotton fabric has been treated with bentonite clay, aerosol fumed silica and zeolite separately, and then evaluated for adsorption of CO2 gas using newly developed NITRA fabric gas adsorption efficiency testing equipment. It is found that the fabric treated with a 4% concentration of bentonite clay, 3% concentration of aerosol fumed silica, and 2% concentration of zeolite adsorbs 23.62%, 28.04%, and 21.35% of CO2 respectively in 24 h. Treated samples are also tested for various physical properties like breaking strength, flexural rigidity, etc.

Keywords

Adsorption, Air pollution, Breaking load, Cotton, Elongation-at-break, Flexural rigidity, Photocatalysis, Volatile organic compound
User
Notifications
Font Size

Abstract Views: 103




  • Development of fabrics for adsorbing carbon dioxide and other pollutants from indoor air

Abstract Views: 103  | 

Authors

Arindam Basu
Northern India Textile Research Association, Ghaziabad 201 002, India
Pankaj Kumar
Northern India Textile Research Association, Ghaziabad 201 002
MS Parmar
Northern India Textile Research Association, Ghaziabad 201 002, India
RK Gaur
Northern India Textile Research Association, Ghaziabad 201 002, India

Abstract


An attempt has been made to develop cotton-treated fabrics to be used as home textile and decorative products inside the room, which can adsorb carbon dioxide and thus reduce indoor air pollution. Cotton fabric has been treated with bentonite clay, aerosol fumed silica and zeolite separately, and then evaluated for adsorption of CO2 gas using newly developed NITRA fabric gas adsorption efficiency testing equipment. It is found that the fabric treated with a 4% concentration of bentonite clay, 3% concentration of aerosol fumed silica, and 2% concentration of zeolite adsorbs 23.62%, 28.04%, and 21.35% of CO2 respectively in 24 h. Treated samples are also tested for various physical properties like breaking strength, flexural rigidity, etc.

Keywords


Adsorption, Air pollution, Breaking load, Cotton, Elongation-at-break, Flexural rigidity, Photocatalysis, Volatile organic compound