Simultaneous air monitoring inside and outside of 12 homes in the Houston area were performed for fine inhalable particulate matter by means of dichotomous samplers. The patterns of house-specific indoor mean concentrations, indoor/outdoor ratios, and probable source of indoor fine aerosol are discussed, along with pertinent information on household characteristics.
In the poorer countries of the world, where energy consumption per capita is lower than in the industrialized nations, the process of rapid urbanization is a strong feature of the dynamic of economic development. Population growth rates in cities are consistently higher than in the countryside, due both to higher natural increases and to net migration. Although the majority ·of Asia's population is still rural, this dominance is expected to shift sometime around the tum of the century.
A systematic analysis of recently constructed dwellings in the Flemish Region has beenundertaken within the SENVIVV-project (1 995- 1998) [I]. In total 200 dwellings have beenexamined in detail. The study involved various aspects: energy related building data (thermalinsulation level, net heating demand, installed heating power, etc.), indoor climate(temperature levels in winter and summer), building airtightness, ventilation, appreciation ofthe occupants, etc. This paper focuses on the results of the airtightness measurements thatwere undertaken in 51 of the 200 investigated dwellings.
Until now, there is no widely accepted way to express any index for this purpose and taking into account the large variety of possible pollutants. Things can be simplified if the aim is to compare different systems and strategies rather than to give an absolute value of quality. For the study of a pollutant source, the main important point for comparison is the pattern of its production, whatever this pollutant is. The detailed data for each inhabitant is the curve of the number of hours above a pollutant level concentration Ci: Nh (Ci).
This study examines a broad range of implications associated with the adoption of the National Energy Code for Housing (NECH) in Ontario. It is based on Public Review Draft 1.0 of the NECH. This study compares the OBC and the NECH providing commentary on key differences between the documents. It examines the energy, environmental and industry implications of adopting the NECH in Ontario. It reviews the cost implications of adoption from a capital, energy and life cycle viewpoint while examining environmental costs by monetizing space heating equipment emissions.
A simple procedure to determine the best locations for the installation of smoke detectors in residential buildings is presented. Consideration is given to both detection of fires and audibility of the alarm.