Investigates the generation of pollutants from unvented convective and radiant kerosene heaters in a residence over a 3 month period. The measured concentrations of carbon monoxide were low. However, under the conditions of use which were studied concentrations of SO2, NO, NO2, and CO2 reached or exceeded levels recommended for indoor air. Further, it was demonstrated that using a semi-open door to provide ventilation did not reduce concentrations of pollutants to acceptable levels.
A discussion of different approaches to indoor air pollutant monitoring is presented. Indoor sampler design criteria are outlined. Grab samplers, personal samplers, passive and single-use devices, and in-situ measurement instruments are compared to novel, syringe/adsorbent tube samplers. These instruments provide automated, sequential, time-averaged collection of avariety of indoor pollutants, including hydrocarbon/halocarbon organic vapours, CO, CO2, HCOH, tobacco smoke, combustion and odorous mixtures, and particulate matter. In addition, the samplers can be used in infiltration studies.
Reports the result of investigation of the impact of various operational factors on trace combustion products emission rates from unvented gas appliances including ranges and space heaters. The impact of the following factors on the indoor NO, NO2 and CO emission rates were evaluated under controlled conditions in an environmental chamber - 1) the appliance typeand/or design, 2) the primary aeration level, 3) the fuel input rate, 4) the time dependence of emission rates, and 5) the presence of absorbing surfaces such as wood, plaster board, curtains, carpets, linoleum and plaster.
Building design and building construction technology has improved in the past decade and the concern over indoor air pollutants and their health effects has increased. A multi-point, multi-pollutant air sampling and analysis network was insta
A pilot study was conducted using workers from a semiconductor plant. Describes the methods used to acquire and evaluate air pollution exposure data for significant environments (including workplace, in-transit, and residence) to which workers are exposed throughout a typical 24-hour day. Summer andwinter measurements were made on products of combustion, radon, respirable particulates, and a variety of organic compounds including methylene chloride.
Mathematical models for predicting indoor pollutant levels are being developed and compared with measured concentration in three residential dwellings - a relatively new townhouse constructed according to rigid energy-conservation guidelines,
The Harvard School of Public Health and the Energy and Environmental Policy Centre of the Kennedy School of Government, under the auspices of the Electric Power Research Institute and the Gas Research Institute, conducted a"Workshop on Evalu
The minimum fresh air requirements needed for perfect indoor air quality are being studied and these will form the basis of the Swiss Guidelines for Ventilation. An optimization between the need to reduce heat loss and fresh air requirements for health is the aim. Pollutants in indoor air, such as formaldehydes, radon, carbon dioxide, tobacco smoke, carbon monoxide, nitrogen dioxide and particulates, have to be considered.
The work of this programme includes study of pollutant emissions from combustion appliances: organic emissions from building materials and organic concentrations in the air of office buildings: characterising the source of radon in buildings particularly the entry of radon into residences and the geographic distribution of radon source potential: particles and radon progeny
Compares the air change rates measured using the decay method with several different tracer gases. The tracer gas measurements were conducted in atightly sealed room where constant air leakage rates, ranging from 0.05 to 1 air change per hour could be maintained using an exhaust fan. The tracer gases investigated were CH4, CO, CO2, N2O and SF6. The agreement between tracer gas measurements and measured flow rates of the exhaust fan was very good for CH4, CO and N2O.
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