Investigation of the performance of a ventilated wall

► Investigation of a ventilated wall's thermal performance, for heating and cooling. ► A ventilated wall model developed with ESP-r program and checked against experimental data. ► Heat convection in the open air channel is a critical aspect of the ventilated wall's behaviour. ► Addition o...

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Bibliographic Details
Published in:Energy and buildings 2011-09, Vol.43 (9), p.2167-2178
Main Authors: Seferis, P., Strachan, P., Dimoudi, A., Androutsopoulos, A.
Format: Article
Language:English
Subjects:
Applied sciences
Building technical equipments
Buildings
Buildings. Public works
Computation methods. Tables. Charts
Environmental engineering
Exact sciences and technology
Experimental performance
External envelopes
Structural analysis. Stresses
Thermal and airflow simulation
Ventilated wall
Ventilation. Air conditioning
Wall. Partition
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Summary:► Investigation of a ventilated wall's thermal performance, for heating and cooling. ► A ventilated wall model developed with ESP-r program and checked against experimental data. ► Heat convection in the open air channel is a critical aspect of the ventilated wall's behaviour. ► Addition of a radiant barrier layer showed beneficial results. ► Satisfactory levels of convergence were found between experimental and simulation model results. The need for environmental friendly and energy efficient building design has stimulated the design of new facade technologies, including various configurations of double skin facades. This paper investigates the thermal performance of a ventilated wall, both for heating and cooling. A thermal analysis was carried out, paying special attention to the characterization of the heat convection resulting from the buoyancy-induced flow in the open air channel which proved to be a critical aspect of the ventilated wall's behaviour. An integrated thermal and air flow model for the entire system was developed. A model of the ventilated wall construction was developed with the ESP-r simulation program and checked against experimental data from a real-scale test cell facility. The thermal benefits of adding a radiant barrier layer were also investigated. The results showed that this layer was beneficial in terms of the energy performance of the construction. Also, the comparison between the experimental and simulation model results showed satisfactory levels of convergence with the exception of the night hours during the summer period. A sensitivity analysis was also undertaken in order to investigate the main factors and the extent of their effect on the temperature variation inside the ventilated facades.
ISSN:0378-7788
DOI:10.1016/j.enbuild.2011.04.023