The energy saving effect of double frame windows.

The interaction of air leakage and transmission heat through a double frame window makes the overall heat loss less than the sum of them acting separately. Theoretical calculation shows that in the case of infiltration, a double frame window may recover 21% to 32% of air leakage heat loss, and exfiltrated air through a double frame window not only loses no energy but, on the contrary, reduces the energy consumption of heat transmission, covering 23% to 36% of the enthalpy drop of exfiltrated air before and after leakage. Experimental data and field test agreed well with these results.

Air flow windows in hot climates.

This paper discusses the advantages of utilizing air flow windows in hot climates and the technical and functional aspects of engineering air flow window systems into the buildings. Air flow windows offer several advantages to building owners such as maximum space comfort, more usable floor space, energy and monetary savings and possibilities to use daylighting in the optimal way. Additionally air flow windows seem to be easily combined with all commonly used air conditioning systems.

The ventilated facade.

This paper reports on recent developments and future activities in the Netherlands on ventilated facades. The Billiton International Metals building in the Hague is an early example of this. The research for this specific building has formed the foundation for further research on ventilated facades. A literature search has been carried out, and an extensive measurement programme in combination with a computerized model has been announced.

Building design in cold climates.

Buildings in cold climates must provide an indoor environment that is markedly different from that outdoors. The materials and components of the exterior envelope are subjected to large variations in conditions and greater demands are placed on the indoor environmental control system. Air pressure differences across building elements are augmented by buoyancy forces that influence air movement and indoor air quality. The potential for moisture condensation on and within the envelope is increased as is the danger of freezing in liquid systems.

Performance and economic analysis of air flow windows in a tropical climate.

An experimental study was conducted in Thailand to determine the thermal performance of twin glazed windows with dynamic insulation. The effects of blinds situated either between or outside the glazing were analysed. With an external blind, the heat transfer coefficient was 1.25 W/m2 deg C with natural convection and 0.6 W/m2 deg C for a flow of 20 m3/h (glass area 2.16 m2). The solar flux transmitted was evaluated analytically and experimentally depending on the blind's position. An economic study was performed on a six-storey air-conditioned building in Thailand.

Weathertightness and water penetration of buildings.

Includes papers on pitched roofs, flat roofs, wall construction, window and door joints, and weathertightness and water penetration of buildings. The focus is mainly on water penetration but air infiltration and ventilation are also discussed.

Air and water penetration through windows: a decade of testing.

This report analyses the data obtained from windows tested for the British manufacturing industry over the past ten years. The tests were conducted according to BS 4315: Part 1: 1968 and the results compared with the stated performance levels given in BS Draft for Development 4:1971. Possible trends in design and performance are indicated.

Weathertightness of windows.

This report analyses the data obtained from 134 windows tested for the British manufacturing industry since the inception of new test methods in 1983. The tests were conducted in accordance with BS 5368 and the results classified according to BS 6375: Part 1: 1983: Classification for weathertightness. Possible trends in design and limitations in the application of test results are indicated.

Are we getting our ventilation all wrong? Luften wir uns krank?

Discusses the future prospects of domestic ventilation and whether mechanical ventilation will be necessary to satisfy requirements as windows become more airtight. Suggests use of centralized mechanical ventilation, with openable windows for summer ventilation.

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