Describes the first stage of an investigation designed to simulate in a wind tunnel the full scale wind pressure measurements made by the Building Research Establishment on the Aylesbury test house. Describes in detail the wind tunnel, instrumentation, measurement techniques and experimental procedures. Discusses the problems of simulating natural wind.< Discusses the results of measurements of mean pressure coefficients. Compares results with full scale measurements and results of a wind tunnel simulation made at the University of Bristol.
Describes an energy audit, developed to determine economically optimal retrofits for residential buildings, based on actual on-site measurements of key indices of the house. Measurements made are; overall energy consumption, furnace efficiency, air leakage measured by pressurization, thermostat settings and window dimensions. The data is fed to a microprocessor and a program suggests retrofits.< Describes the model for estimating heating and cooling loads on the basis of "dynamic degree days", and the algorithm for calculating air infiltration.
Describes a procedure for measuring the transmission and ventilation heat losses of unoccupied houses and their solar heat gain. Internal temperatures, ventilation rate and weather data are measured. An infrared camera is used todetect both local areas of high transmission heat loss and, together with a slight pressurization of the house, air leakage paths. Gives graphs for calculating the effective solar heating. Notes that results obtained from the tests depend very much on the skill of the people operating the equipment.
Reports measurements of air leakage rates in the four energy-conservation research houses using the fan pressurization method. One of the houses is standard for the area and the other three houses have added insulation and vapour barriers. One house has a heat pump and one an air-to-air solar heating system. Air infiltration rates were measured in two of the houses using CO2 as a tracer gas. Discusses results and compares tracer gas with pressurization tests.
A market review of inlet/exhaust ventilation with heat recovery in single family houses. Traces recent developments in new house production. Tabulates review on several criteria including manufacturer, type, flow rate, frost protection, position of heat exchanger, type approval. Review covers over 40,000 units installed.
Four two-storey four-bedroom test houses were built in 1974 near Columbus, Ohio and have been instrumented and monitored by Ohio State University. All four houses are unoccupied. Air infiltration rates were measured in all four houses using sulphur hexafluoride as a tracer gas and two of the houses were pressure tested for air leakage. Discusses results and the correlation between infiltration, inside-outside temperature difference and wind velocity. Compares tracer gas results with pressurization tests.
Notes that altering interior moisture content of a building can influence both energy use and other performance characteristics. Gives an assessment of the moisture interaction as related to health and comfort of the occupants, fire safety, durability and maintainability and design and construction of light-frame housing. Reviews published recommendations.
Briefly describes method for pressure testing a house. Discusses problems and limitations of method. Discusses results of 130 (de)pressurization tests carried out in dwellings in the Netherlands. Gives results of the distribution of air leakage in four houses found by measuring the leakage of all components separately.
Reports a study carried out to assess whether homeowners occupying more highly insulated houses have actually realised fuel savings over those realised by comparable homeowners in less heavily insulated houses. Describes method of the survey which included air leakage tests.
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