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Airflow window

From Wikipedia, the free encyclopedia

An airflow window is composed of at least two panes of glass and a cavity between them that allows the flow of ventilation air. They operate on similar principles to a double-skin facade, but on a smaller scale.[1][2] The general idea is to improve the energy efficiency of a cavity window by heating or cooling the cavity with ventilation air.

Benefits

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In warm climates the window is used for exhausting ventilation air. Cooler air enters the cavity at the bottom, from the interior space, is heated during transfer upwards through the cavity and is exhausted at the top of the cavity to the exterior.

In cold climates the window is used for intake of ventilation air. Cold air enters the bottom of the cavity, from the outside, is heated during transfer upwards though the cavity, and enters the interior space at the top of the cavity. More complex designs exist, which for example do not transfer ventilated air between the interior and exterior, or which have multiple ventilation channels.[3]

The movement of air through the cavity can be forced (by means of mechanical devices such as fans), or occur freely, by means of convection. Whether the airflow is free or forced can affect energy efficiency of the window.[4][5]

See also

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References

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  1. ^ Brandle, K. "Airflow Windows: Performance and Applications" (PDF). Retrieved 28 February 2014.
  2. ^ Raffnsøe, Lau Markussen. "Thermal Performance of Air Flow Windows" (PDF). Department of Civil Engineering BYG•DTU. Archived from the original (PDF) on 15 March 2018. Retrieved 28 February 2014.
  3. ^ Gosselin, J.R; Chen, Q (2008). "A Dual Airflow Window for Indoor Air Quality Improvement and Energy Conservation in Buildings" (PDF). HVAC&R Research. 14 (3): 359–372. doi:10.1080/10789669.2008.10391014. S2CID 15240367.
  4. ^ Ghadimi, Mohammad; Hossein Ghadamian; Aliasghar A Hamidi; Farivar Fazelpour; Mehdi A Behghadam (2012). "Analysis of free and forced convection in airflow windows using numerical simulation of heat transfer" (PDF). International Journal of Energy and Environmental Engineering. 3 (14): 14. Bibcode:2012IJEEE...3...14G. doi:10.1186/2251-6832-3-14. S2CID 256337244.
  5. ^ Kersten, B (2011). "The energy performance of an airflow window" (PDF). University of Technology Eindhoven, department of Architecture Building and Planning, unit Building Physics and Systems. Archived from the original (PDF) on 2014-03-08. Retrieved 2014-02-28.
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