States that draughtproofing doors and windows in industrial and commercial buildings offers the quickest payback of any energy conservation measure. Describes potential sources of leaks, such as ill-fitting entrance doors, and the types of material needed in draughtproofing industrial buildings according to durability and application.
Describes Schlegel's test chamber for measuring air and water infiltration around doors and windows. This can record infiltration at any point around the frame to high light the exact source of a leak. This is used to test the company's own draughtproofing and weathersealing products and is available to door and window manufacturers for development work.
Describes investigations into the air change rate in dwellings with very air-tight windows carried out by the West German Institute for Water Earth and Air Hygiene under a contract from the Federal Building Ministry. Treats the 80rooms investigated in 20 different buildings and in some office type rooms in Berlin. Notes the measurement method and the procedure of evaluating the results. Gives some results in graphs. Summarises the findings of the analysis of the results.
Provides results of research in Switzerland into window ventilation in typical rented dwellings as a function of outdoor climate, and the research support activities of the Air Infiltration Centre in the UK funded by the International Energy Agency. Describes in particular the creation of an air infiltration database, the comparison and validation of computer models of air infiltration, the development of a reporting format for measurement of air change in buildings, and the compilation of a glossary of technical terms.
Analyses an infiltration heat loss calculation in accordance with Standard CSN 06 0210, with regard to the minimum air exchange rate (0.3 ach/hr). Concludes that aeration through windows should be graded for buildings which are differently located in the landscape and thus differently exposed to the wind effect.
Gives instructions for weatherstripping and caulking houses, indicating which materials are best for different jobs, and comparing prices. Covers jamb weatherstripping for doors and windows, weatherstripping for door bottoms, sealing the joist and attic spaces, and sealing around window and door openings.
In most office buildings, the continuous renewal of air cannot be guaranteed by means of ventilation through windows during any optional time. It is known (in the case of radiators and window ventilation) that when a window is open the ventilating heat cannot be recovered and other heat losses will occur.< The paper proves that the heating of a building by air is a greater energy saver then the conventional solution through static heating and window ventilation.
Investigates the effect of energy-saving measures by selecting a large number of multi-family and single-family swedish houses where such measures have been carried out. Energy saving methods include insulation of external walls and attics, triple glazing windows, and installation of radiator thermostatic valves. Concludes that these modifications have, in average, led to anticipated savings when they have been modified individually. Also considers moisture problems arising in retrofitted houses, and the effectiveness of different types of weatherstrips in energy conservation.