A cross sectional survey investigating building sickness was carried out in two buildings with similar populations of office workers but differing ventilation systems, one being fully air conditioned with humidification and the other naturally ventilated.
Pollutants in a substantial number of buildings have now been investigated by public and private agencies. The archive of data on indoor pollutant levels observed in office buildings under conditions of normal operation and occupancy are reviewed using a computer based Building Performance Database. Representative values of 153 pollutants as well as detailed frequency distributions of commonly measured pollutants and of temperature and humidity are presented.
Sixty houses built with widely different construction practices and located in different areas in upstate New York were monitored for airtightness (using fan pressurization) and integrated radon concentrations in indoor air, household water,
Contains references and abstracts on laboratory techniques for analyzing formaldehyde, methodologies for identifying and characterizing a wide variety of organic contaminants and selected field studies of organic contaminants inindoor air.
Examines four pollutants found in significant amounts in biomass smoke: respirable particulates, carbon monoxide, formaldehyde and particulate benzo(a)pyrene, to effect a comparison between tobacco smoke and biomass fuel smoke. Nominal doses of formaldehyde and carbon monoxide are roughly similar. For respirable particulates, smokers receive more than a factor of 10 larger nominal doses. The reverse is true for benzo(a)pyrene.
Discusses the sources and concentrations of organic compounds in indoor environments. Describes work done by the Lawrence Berkeley Laboratory in the USA on formaldehyde and poor air quality in offices.
Twelve energy-efficient houses in Eugene, Oregon, USA, were measured for effective leakage area using blower door fan pressurization. Air exchange rates over a period of several hours were determined by tracer gas decay analysis.
An energy-efficient residence in Mt. Airy, Maryland, USA, was monitored for aldehydes and radon in order to develop relationships between air infiltration rates and contaminant levels. One fifth of the measured formaldehyde concentrations were in the range that may cause health concerns. These concentrations were measured under very low air infiltration rates. Increased ventilation was effective in reducing high concentrations. Use of the heat exchanger led to an increase in the air infiltration rate which resulted in a substantial reduction of formaldehyde levels.
Provides general information on indoor air pollution sources, the pollutants commonly found indoors and their potential health effects. Contains chapters on formaldehyde and other household contaminants, radon, particulates, combustion products, smoking, energy-efficient buildings, control of indoor air pollutants, air quality in office buildings, and legal and regulatory issues in the USA. Further sources of information are given.
Login