Field investigations of stack ventilation in a residential building with multiple chimneys and tilted window in cold climate

•The measurements are performed in a test apartment of the two-family detached house.•A stack effect of the ventilation in configuration with a tilted pivot window is investigated.•The tilted window model is developed based on models for the single-sided ventilation. Ventilation stacks are becoming...

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Bibliographic Details
Published in:Energy and buildings 2015-09, Vol.103, p.48-61
Main Authors: Krzaczek, M., Florczuk, J., Tejchman, J.
Format: Article
Language:English
Subjects:
Field measurements
Multi-chimneys
Natural stack ventilation
Stack effect
Tilted horizontal pivot window
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Summary:•The measurements are performed in a test apartment of the two-family detached house.•A stack effect of the ventilation in configuration with a tilted pivot window is investigated.•The tilted window model is developed based on models for the single-sided ventilation. Ventilation stacks are becoming increasingly common in the design of naturally ventilated buildings. They offer a method for achieving a fixed flow pattern irrespective of internal and external conditions. In this paper, the field measurements results are presented on the stack ventilation effect in a configuration with multi-chimneys which interact with tilted pivot windows. A residential two-family detached house was chosen to perform the measurement campaign. The house was located in a cold climate region in northern Poland. The measurements were performed in June during the time period of transient climate conditions between spring and summer. Local climate conditions, indoor climate conditions and air velocities in vent inlets and outlets were measured. In order to interpret measurement results, a modified model of a tilted pivot window with an axis at the bottom was proposed, based on a model used in single-sided ventilation investigations. The measured results confirmed the usefulness of the proposed approach. The loss coefficient (discharge coefficient) of 0.345 was lower than the loss coefficient of 0.60, usually assumed for small rectangular openings during natural ventilation. In the absence of wind when the stack effect acted only, the air changes per hour slightly exceeded the standard minimum value. The tilted window leeward wind significantly reduced the stack effect and ACH.
ISSN:0378-7788
DOI:10.1016/j.enbuild.2015.06.034