Correlates hourly infiltration in 3 adjacent unoccupied test houses to determine the relative contribution of wind and stack effects. The database, obtained using tracer gas techniques over 2000 hourly readings in each house, is sorted to a single 45 degree sector. Different weather sealing techniques give mean infiltration rates of 0.19, 0.45, and 0.59 ach for the 3 houses. Addition of independent wind and temperature induced pressures correlate only part of the weather induced data variability leaving a residual RMS scatter of about 0.004 ach.

Investigates the reliability of the single-room infiltration model used in the computer program ENCORE. Compares calculated air change rates with tracer gas (N2O) measurements in 25 identical one and a half storey detached houses. Describes the infiltration model, the parameters and some results. Thecomparison shows good correlation at low wind speeds (< 3m/sec) but the model's values at higher wind speeds are too high.

Studies the predictive accuracies of infiltration-pressurization correlation models by subjecting a group of identical homes in Freehold NJ to both pressurization and tracer gas measurements of infiltration. Compares infiltration and pressurization test results. Uses four air infiltration models to predict the infiltration rates in the houses, and compares these predictions with the measured rates. Makes predictions using several different values of the inputs required for the models, and studies the effects of varying these inputs.

Describes a programme undertaken by the AIC to validate mathematical models of air infiltration. Uses experimental data to assess the reliability and full range of applicability of air infiltration models, and to identify key parameters that

Presents the underlying theoretical basis for measuring air flows in complex, multi-cellular buildings and by reviewing the existing experimental procedures which enables the carrying out of these measurements. Shows that inter-cell air flows can be determined only by generating N sets of tracer gas conservation equations, where N is the number of cells. Describes 3 systems being designed to carry out multi-cell ventilation measurements< 1. "grab sampling"< 2. multiple tracer measurements< 3. measuring averaged air change rates over long periods.

Examines a new energy conservation technique based on the control of the "fresh air intake" through measurement of CO2 content in extracted air for different kinds of buildings. Assesses various techniques for measuring CO2 concentration in view to design a low cost sensor, concludes that theinfra-red absorption technique is the most suitable. Shows through computer simulation that a CO2 based ventilation system can provide a better pay-back period than an air-to-air heat exchanger.

Describes a project aimed at developing a method of measuring air infiltration rates in large single cell enclosures and buildings, and of using the method to collect data on actual infiltration rates. Makes a brief survey of existing and novel methods of measuring air infiltration rates. Identifies 2 methods which merit further consideration - the use of methane as a tracer gas,measuring its concentration with an infrared laser technique; and the use of ethanol vapour as a tracer gas, measuring its concentration with a fuel cell detector.

The author examines the influence on thermal comfort of the air flow inside wall air spaces, on the assumption of a stabilized periodical condition. In these particular conditions an increase of the circulating thermal flow always involves a lowering of the reduction factor, and this increase is greater thelower are the thermal inertia characteristics of the outer wall. Displacement values are found to be mainly influenced by the physical characteristics of the outer wall.

Treats laboratory and field investigations indicating the danger to health of non-smokers of inhaling tobacco smoke (passive smoking),to the extent that measures to protect the passive smoker are recommended at 1.5 ppm of carbon monoxide concentration caused by smoking and deemed necessary from 2 ppm. Calculations show that in a state of equilibrium a fresh air supply of 33 m3 per hour and per cigarette smoked is needed to maintain the upper limit of 2 ppm carbon monoxide concentration caused by tobacco smoke.

Discusses whether air conditioning could be replaced. Treats the evolving concept of constructing office buildings designed to meet comfort conditions by natural ventilation, with mechanical ventilation, cooling and humidification applied only during the coldest parts of the winter and hottest periods of the summer. Describes the practical application of this concept to three office buildings in West Germany.