indoor air quality

In this paper the use of a thin adsorbent sheet composed of activated carbon particles to purify indoor air is modelled. A loose sheet with high porosity appears more effective than a dense one. The carbon sheet can be replaced by a fresh sheet after a certain period of use, thus keeping the volatile organic compound (VOC) level low in the remaining years. The model has been used to predict the optimal replacement time. Binary VOCs are modelled.

The adsorption of vapours of different volatility and polarity on three materials widely used indoors (carpet, gypsum board, wall coating) has been investigated in small test chambers, in order to study methodological aspects and to estimate the importance of the phenomenon for human exposure assessments. The output of the models used, with rate constants describing two different sinks, is discussed.

A field experiment evaluated the effect of a furniture-integrated breathing-zone filtration (BZF) system on indoor air quality, worker comfort, health, and productivity. The BZF system tested filters office air to remove volatile organic compounds and airborne particulates. The BZF system was installed on one floor of a 29 story air-conditioned office building. Another floor of the building served as a control.

In developed and developing countries, indoor air pollution is gaining increasing prominence as a public health problem. Time-activity studies and exposure surveys have shown the dominant contributions of indoor environments to population exposures for many pollutants. Mounting epidemiological evidence documents adverse health effects of indoor pollutants and risk assessments indicate that indoor carcinogens may contribute substantially to the population's burden of lung and other cancers. Unacceptable indoor air quality has also been identified as a common cause of symptoms.

Adsorption, desorption and chemisorption are known to impact the dispersal of volatile organic and chemically reactive compounds in buildings. These same three processes may be used to advantage to control the levels of these compounds indoors using building sorption filtration devices.