Shows that efficient moisture removal in a ventilated roof via ventilation openings is a function of roof length. Beyond a certain critical length all moisture diffusing in from below will be deposited in the roof. The critical roof length will be greater the more vapour tight the section beneath the roof space is. If a vapour barrier is necessary, as in an unventilated roof, it maybe that an unventilated roof is preferable in the first place.
Reviews literature and presents annotated bibliographies for indoor air quality, indoor air pollution health effects and residential air infiltration. Analyzes air infiltration data, and describes factors related to the house itself, the behaviour of residents and the microenvironment surrounding thehouse. Discusses future trends of infiltration rates.
Air leakage tests (using the fan pressurisation method) were conducted on four schools, before and after they were retrofitted, in order to determine the effectiveness of various measures for reducing leakage. Caulking wall joints will generally reduce air leakage and is worthwhile if the joints are accessible. Replacing leaky windows will also improve airtightness but may not be cost effective. Routine inspection of outside dampers of the air handling system can help ensure continued airtightness of schools.
Describes the computerized instrumented residential audit (CIRA), a collection of building energy analysis programs designed for a wide variety of microcomputers. Covers methods and type of input, and types of output produced.
Reports the results of an experimental assessment of the effect of a chimney on the air leakage characteristic of an unoccupied two-storey detached house heated by either gas or electric furnace. Measurements were taken of air tightness values and air infiltration rates with the chimney capped anduncapped.
Describes an analytical model used to study the effects of air supply rates on the dynamics of an occupied space as related to energy consumption and occupant's comfort. Reviews the concept of Air Diffusion Performance Criteria (ADPI) and uses it to derive air movement control strategies to reduce energy consumption in buildings. Discusses the relationship between the air movement control strategies and passive thermal control strategies for energy efficient buildings.
Compares the air change rates measured using the decay method with several different tracer gases. Tracer gas measurements were conducted in a tightly sealed room where constant air leakage rates were maintained using an exhaust fan. Tracer gases investigated were CH4, CO, CO2, N2O and SF6. Agreement between tracer gas measurements and measured flow rates of the exhaust fan was very good for CH4, CO and N2O. The agreement was also satisfactory for CO2 and SF6, but the scatter in tracer gas data was much greater then it was for the other three gases.
Describes "house doctoring", a combination energy audit and energy-saving retrofit procedure developed at LBL and Princeton University. House doctoring analyzes areas of energy loss, and locates and eliminates air infiltration sites by using special diagnostic equipment, such as the "blower door" forpressurisation tests. The first part of the manual provides an introduction and overview of house doctoring, including the nature of heat loss in buildings and the tools and techniques used to reduce it.
Gives a detailed description of 3 types of external shutters that were designed for 3 of 6 proto-type low energy houses at Hjortekaer Denmark. Seals were made, and shown to be efficient by measurements of infiltration air change rates and results from pressurization tests. Verifies the thermal performance of the shutters by thermal calibration, and finds a good agreement between the measured and calculated heat losses. This forms a basis for an estimate of the annual energy savings obtained by the use of shutters - about 800-2000 Kwh/y.
Uses mathematical models for formaldehyde concentrations in 3 normal rooms in a single family house to estimate ventilation rates needed to maintain the formaldehyde concentration below the Danish recommended indoor standard (0.15 mg/m*3). It appears that in an initial period after the house is finished, a ventilation rate more than 10 times the recommended Scandinavian value (0.5air changes/hr) is needed to keep the concentration below the indoor standard.