Design guidelines on lateral airflow through and around buildings

A survey of air flow patterns established in reliable laboratory experiments and field studies, with their original sources.

Computer analysis of building ventilation and heating problems

This paper presents a mathematical model, implemented in a general computer code, that can provide detailed information on the velocity and temperature fields prevailing in three-dimensional buildings of any geometrical complexity, for a given v

A review of the prediction and investigation of air movement in buildings.

Presents a review of the main methods used for the study of air movement. Includes sections on physical modelling (wind tunnel modelling etc), analogue (water and electrical) models of air movement, mathematical models and digital computer analogues, and full scale investigations including pressurization andtracer gas techniques.

Effects of air supply rates on space energy consumption.

Describes an analytical model used to study the effects of air supply rates on the dynamics of an occupied space as related to energy consumption and occupant's comfort. Reviews the concept of Air Diffusion Performance Criteria (ADPI) and uses it to derive air movement control strategies to reduce energy consumption in buildings. Discusses the relationship between the air movement control strategies and passive thermal control strategies for energy efficient buildings.

What has the U-value got to do with heat losses. K-vardet - vad har det med energiforlusterna att gora.

Reports on seminar at University of Lund, Sweden and the factors affecting U-value: radiation, thermal capacity, moisture in materials, evaporation of precipitation moisture, convection, air movement, quality of work, cold bridges, ageing, air gaps.

Air movements and careful work affect the thermal insulation. Luftrorelser och arbetsutforande paverkar varmeisoleringsformagan.

There are two types of air movement in the shell of a building - movement along the insulation as in cavity walls and movement through the insulation. Generally the heat losses due to the faults in the inner lining of the vapour barrier and the consequential air movement through the shell are much bigger then losses due to faults in the insulation - they cannot be compensated for by using tighter wind protection.

Numerical modelling of a low concentration chemical species or contaminant in a ventilated, heated, two-dimensional room.

Numerically predicts air quality and thermal comfort in 2-dimensional ventilated air spaces of several geometries when conditions on the various room surfaces are taken to be either adiabatic or constant temperature. 

Air distribution in buildings Luftfordeling i lokaler

Discusses difficulties inherent in multiplexity of full-scale trials and the use of EDP simulation in models. Considers the measurement of low air movement velocities using different types of anemometers and field trials in lecture rooms and open-plan offices. Reports on studies into ventilation efficiency and full scale trials. Reviews International Institute of Refrigeration Congress held in Essen September 1981.

Subjective effects of low speed air movement Subjectieve effecten van luchtbeweging met lage snelheid.

Reports experiments on whether there is an optimum air speed for comfort carried out at the Electricity Council Research Centre at Capenhurst. 9 seated subjects were separately exposed to a steady horizontal air movement over the whole body. At air velocities of 0.1, 0.15, 0.25 and 0.35 m/s the subjects were asked to adjust room air temperature personally to a preferred level. An enquiry list was laid before them. Preference was given to the 10-point Bedford list over the 7-point ASHRAE one. Compares test result figures with Bedford and Fanger theories. Uses the Newman Keuls procedure.

Domestic ventilation with the emphasis on heat recovery. Luftung im wohnungsbau unter besonderer berucksichtigung von warmeruckgewinning.

Considers the reasons for advocating mechanical domestic ventilation. Discusses which factors provide for an optimum climate in rooms. Treats room temperature, air movement in the occupied zone, air purity and humidity, odours, noise. Illustrates how mechanical ventilation should be arranged to provide correct indoor ventilation and the different ventilation principles involved: gravity ventilation, fan-assisted exhaust ventilation and supply and extract ventilation. Illustrates typical applications of these systems to single family houses.

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