Indoor air pollution.

    

Indoor air quality.

    

The public's perspective on conservation and indoor air quality.

Discusses the public's knowledge of indoor air quality and their sources of information, including word of mouth and the media.

The effect of retrofit conservation measures on air quality in existing homes.

Looks at some studies that have been done to see if the retrofits have actually changed indoor air quality and changed pollutant concentrations. The first study (1981) of 18 homes in Washington state used the house doctor technique. The second study was of two homes in Medford, Oregon and one in Cranbury, New Jersey, all monitored for two weeks. The third study was of two identical houses in Rockville, Maryland, monitored over a year. One of them was retrofitted using the house doctor technique, as a result of which air leakage dropped by 40%. A fourth study of fifty houses is mentioned.

The effect of moisture on other pollutants.

Discusses the physical, chemical and biological effects that moisture can have on indoor air pollutants such as formaldehyde, radon, aerosol particles, minerals from concrete, ozone, nitrogen dioxide, polyurethane, microbes and organic vapours.

Causes, effects, and relief from formaldehyde build-up in the home.

Discusses sources of formaldehyde indoors, e.g. smoking, formaldehyde resins, and release of formaldehyde from chipboards and foam insulation, and the importance of ventilation in removing excess pollutants. Factors influencing the amount of formaldehyde release include age of materials, temperature, moisture variations, ventilation. Emphasises the importance of quality control, standards and tests such as FTM-1 and FTM-2.

The nature and magnitude of the problem: building sources vs ventilation.

Introductory talk on the indoor air quality problem. Compares risk of radon pollution in houses to the risks of smoking tobacco, and gives a definition of levels of concern. Mentions filtering of indoor air by means of an air-to-air heat exchanger, the interaction between ventilation and sources, e.g. unvented combustion heaters and carbon dioxide emissions; measurements of nitrogen dioxide are compared, and formaldehyde concentrations in 28 different commercial buildings.

Indoor air quality and conservation: putting the problem in perspective.

Subjects covered include: problems of radon, formaldehyde build-up in the home, residential indoor air quality, effect of moisture on other pollutants, epidemiology of indoor air problems, setting standards for recognising harmful concentrations in homes, the effect of retrofit conversion measures, thepublic's perspective.

Carbon dioxide based ventilation control system demonstration.

Commercial buildings require mechanical ventilating systems, the specifications for which are included in the building codes. These codes specify the amount of outdoor air to be supplied per person for designed occupancy conditions. Many buildings such as retail establishments operate much of the time at occupancy loads well below the design. Thus, they are generally over ventilated and waste energy when operated according to the codes. A control system based on measurement of the carbon dioxide generated by the occupants was tested in a small bank in Pasco, Washington.

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