This paper presents the results of surveys of the use of simple controls opening of windows, the closing of window blinds, and the use of lighting, heaters, and fans by building occupants. Information is also presented on the use of air conditioning in mixed-mode buildings. The surveys were conducted in the UK, Pakistan, and throughout Europe. The data are analyzed to show how the use of each control varies with outdoor temperature. The paper discusses the application
of such results to the simulation of occupied buildings.
The report of the investigation into the possibilities for saving energy by closing (large) windows in good time after, for example, the so-called 'airing' of bedrooms, initiated by the Netherlands Ministry of Housing and Environment's Steeri
A multicell air flow computer program is used to determine the influence of 1) open windows and 2) closed internal doors on the ventilation rate of a semi-detached house. The changes in interzone air movement and room air change rates are also examined. Tracer gas field measurements used to validate the multicell program show good agreement with the predicted values. Results show that opening windows can alter significantly, not only the overall ventilation rate of the building, but also the individual air change rates in rooms.
Wind pressures on three Navy buildings at the Kanehoe Marine Corp Air Station, Hawaii were measured. Indoor and outdoor variables were also measured including temperature, dry bulb, wet bulb, relative humidity, wind speed, and wind direction. Pressure measurements were carried out using Validyne DP103 pressure transducers, and a static pressure probe. Natural ventilation is estimated 1. by combining window areas and pressure coefficients with wind speed and 2. using the LBL infiltration model.
This is the second part of a study on natural ventilation in functional buildings. Reports the results of 23 measurements on a number of partitions, internal walls and one brick built internal wall. Measurements were made in 4 buildings. For the largest leakages measured in these 4 buildings, a strong influence was observed on the ventilation of neighbouring rooms. The opening of a window in a room has notable consequences on the ventilation and air flow in the other rooms. The measured air leakages ranged from 0038 to 0.068 m2 for a wall and .0131 -.0529 m2 for a room.
Provides a summary of Report IIIc of the overall research project `air change in buildings' undertaken by the EMPA, Switzerland, sponsored by the Swiss Federal Ministry for Environmental Protection. Describes a measurement programme undertaken in an unoccupied single family house built in 1979.
During an extensive programme of sound insulation tests on a house near Manchester Airport the opportunity was taken to measure the field performance of partially open dual glazing. The results show an increase in insulation of up to 3dB(A) when compared with predictions based on laboratory SRIs. Also reports measurements of the ventilation rate in bedrooms with one window partially open and all other doors and windows closed. Measurements were made using nitrous oxide as a tracer gas.
Unopenable, fixed windows have been widely used in high-rise buildings in Japan, but the energy crisis has forced a reconsideration of the merits of natural ventilation with openable windows. However opening windows inhigh-rise buildings, has the disadvantage that open windows causes air flow variation of a mechanical system due to stack effect.< Reports results of a computer simulation of this problem. Describes computer program to calculate air flows in a building. Describes example building, giving air leakage and HVAC system characteristics.
The ventilation rate and energy consumption of one of the ECRC test houses was monitored continuously during one heating season, with one bedroom window open by various amounts. Results show that a very small window opening is sufficient to satisfy ventilation requirements most of the time.
Shows need for intermittent high ventilation in dwellings to remove water vapour and odours. Suggests openable windows as the simplest and most common method of ventilation control. Gives air-change-rates in two british houses using carbon dioxide andnitrous oxide as tracer gases, showing the effect of opening windows. Shows that increase in ventilation rate caused by opening windows can be tenfold and is not confined to the room with the open window. Closing of internal doors has a significant effect. Describes investigation of air flow within rooms using smoke.