Current knowledge concerning ventilation heat losses. Aktueller stand der kenntnisse - luftungswarme-verluste

Treats the three main factors contributing to ventilation heat loss- natural air exchange driven by wind pressure and temperature differences, air exchange caused by the user and forced air change under the influence of exhaust air installati

Energy consumption in industrial buildings during shut-down periods. Seisokkiajan energiankulutus teollisuushalleissa.

Sponsored by the Ministry of Trade and Industry, a consulting firm performed an investigation of the possible energy savings in industrial halls outside working hours. The ventilation should be closed during shut-down periods, and air change through natural draught cut down to a minimum. The ventilation by leakage of an industrial building may be estimated at 0.1-0.5 air changes per hour, therefore the tightness of the constructions is imperative. The decrease of the temperature in industrial halls during non-working hours is imperative.

Natural ventilation of rooms:a simplified analytical study. La ventilazione naturale degli ambienti studio analitico semplificato.

Presents an analytical procedure for evaluating the air change rate in a room due to the temperature difference between the interior and exterior, which occurs when a door or window is opened.

A simple method for representing the total ventilation behaviour of an apartment building

The use of sealants and gaskets are often recommended as an effective energy saving measure. However, the energy saved depends on the function of building and ventilation as a total system. This paper describes the effect of sealing the outer walls in residential buildings with natural and exhaust ventilation respectively. With natural ventilation, making the walls twice as tight reduces the air exchange by half, whereas with exhaust ventilation the reduction in air exchange is very small.

What is ventilation efficiency? Hva er ventilasjonseffektivitet?

Defines term `ventilation efficiency' and notes factors which determine it: air change rate and temperature, sources of heat and pollution and their locations in a room, persons, machinery etc in motion, the design and position of inlet and exhaust air devices. Gives mathematical and illustrative flow models.

Improvement of heat conservation in buildings Epuletek hovedelmenek utolagos fokosaza

Says that improvement of wall insulation and reduction of air change rates in existing buildings is the most efficient architectural means of energy conservation. Calculates that 200 gwh of heating energy can be saved per year in Hungary using this method.

Measuring ventilation efficiency at SIB. Matning av ventilationseffektivet vid SIB.

Reviews the development of methods and results achieved. The methods have resulted in a proposal for a Nordic test method for measuring ventilation efficiency (local air change frequency) using tracer gas techniques and measurements carried out for two different ventilation systems.

Tracer gas measurement. Spargasmatuing

Describes a variation of the conventional tracer gas measurement technique for measuring air change rates. Gives theoretical analysis of measurement results simulated with a computer for a complex system of six rooms where natural ventilation is measured in one case and fan-arrested ventilation in thesecond. Results from computer simulation are a measure of fresh air ventilation and not of a room's total air change rate. Diagrams illustrate assumed distribution under both conditions.

Ventilation of buildings. Luftung von Gebauden

Lists the factors in a building (condensation, comfort, heat loss etc) which are affected by ventilation, mechanical or natural. Treats the driving forces of air exchange in buildings. Describes the four basic flow phenomena involved in air e

The field performance of partially open dual glazing.

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.

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