Title :
Effect on Reduction of Harmful Substances by Using Porous Material with Meso-pores
Author :
Watanabe, Osamu ; Fukumizu, Hiroshi ; Ishida, Hideki
Author_Institution :
INAX Corp.
Abstract :
Japanese current houses become highly airtight for energy saving, but indoor air tends to be very wet or dry. And release and build-up of formaldehyde and other injurious volatile organic compounds (VOCs) from artificial materials have led to new health-related problems, known as "SickHouse Syndrome". To solve these problems, the adsorption properties of formaldehyde and other harmful gases to ECOCARAT which was a meso-porous material and had humidity controlling ability were measured. As a result, it was cleared that the ECOCARAT had superior adsorption property compared to wallpapers and plaster boards. Especially, the adsorption ability of formaldehyde was equivalent to the ventilation frequency of 1.5times per hour. So it has been expected that an application of the ECOCARAT could save energy for air conditioning without deteriorating indoor air
Keywords :
air conditioning; hazardous materials; health hazards; humidity control; organic compounds; porous materials; ECOCARAT meso-porous material; Japan; SickHouse Syndrome; air conditioning; airtight house; artificial materials; energy saving; formaldehyde adsorption ability; harmful gases; harmful substances; health problems; humidity controlling ability; indoor air; injurious volatile organic compounds; plaster boards; porous material; ventilation frequency; wallpapers; Amorphous materials; Building materials; Gases; Hydrogen; Instruments; Organic materials; Soil; Spraying; Volatile organic compounds; Volcanic ash; adsorption; allophone; formaldehyde; harmful substance; meso-pore;
Conference_Titel :
Environmentally Conscious Design and Inverse Manufacturing, 2005. Eco Design 2005. Fourth International Symposium on
Conference_Location :
Tokyo
Print_ISBN :
1-4244-0081-3
DOI :
10.1109/ECODIM.2005.1619189
