Examines the design of two houses, built in 1982, which integrate an exhaust air heat pump and a warm air heating system into a very well insulated structure. Monitored during 1983-84, they consumed 50% less energy than a typical Swedish house. Apart from occasional (avoidable) high temperatures, the warm air heating system led to a comfortable indoor climate. The performance of the houses could be improved by installing energy conservation appliances. The house of the future should be tight, well-insulated and mechanically ventilated.
A research project by the Energy Division is underway to develop and demonstrate appropriate construction techniques for superinsulation (SI) residential construction in Minnesota. Techniques applicable for both new and retrofit SI constructi
A comprehensive computer program for the prediction of air flow and smoke migration in the building was applied to the 11 story administration building of the National Bureau of Standards. Natural air leakage rates under various climatic conditions for several ventilation system operations were obtained. The computed results were compared with measured air leakage rate by using the sulphur hexafluoride tracer gas technique. Smoke migration was simulated for the selected pressurization conditions.
States that although controlled mechanical ventilation is becoming more widespread, the installations and their application are capable of improvement. Illustrates diagrammatically and explains methods of improving the components, their installation and operation. Considers ways of improving the air tightness of the buildings. Concludes by describing methods of simulating the performance of controlled mechanical systems, which facilitates the evaluation of measures aimed at improving their operation.
Describes evaluation of two integrated heating and ventilating systems, one a modified warm air system and the other a modified mechanical ventilation system. From the technical viewpoint the systems were found to be efficient. However it remains to be seen whether mechanical ventilation systems with heat recovery including flue heat recovery can be justified in economic terms.
This paper presents a simple method for estimating the total air change rate of a house with or without mechanical ventilation. The proposed method can be used to assess the effect of a mechanical ventilation system on total air change rates. It can also be included in existing simple computer programs forestimating heating requirements for houses. A calculation procedure is also presented for sizing mechanical ventilation systems for houses. This procedure can be used to estimate the forced ventilation rate required to achieve the desired total air change rate.
Measurement of air exchange rates, ages of air, and nominal and local ventilation efficiencies in large buildings is often complicated by the building size and compartmentalization, and by the presence of multiple ventilation systems. To allow characterization of the ventilation process in such buildings, a unique experimental system, that employs multiple tracer gases, is being developed at Lawrence Berkeley Laboratory. The tracer gases are sulfur hexafluoride and five halocarbons. The system is designed to be non-obtrusive, highly automated, and relatively easy to ins tall in buildings.
This paper reports the findings from tests undertaken in an untight, two-storey, brick-built detached test house. Different ventilation schemes were in use: natural ventilation and mechanical ventilation (both extract and balanced ventilation).
This paper outlines the living conditions that can occur in the proximity of buildings and the significance of the wind velocities that can be established, for example for shopping centres when these include high-rise buildings or for patio schools when these are to be suitable for education in the open air. It also illustrates how natural ventilation in the building occurs and describes the influence of the wind on mechanical ventilation systems.
Discusses the installation of mechanical ventilation with heat recovery in residential buildings. The various ventilation strategies are summarized for both blocks of flats and single houses. Building components and guidelines are described.
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