Façade & Atmospheric Temperature Relationship A Brick Façade Research Study
Abstract
An urban environment is impacted by the urban heat island effect and as such has a higher
temperature than that of surrounding rural areas, this is caused by the use of human construction
materials such as concrete and bricks causing differences in albedo, emissivity and heat
capacity as well as differences in vegetation cover. One aspect of this which is lacking in
research is the connection between the temperature of the façades of buildings and the
atmospheric temperature. This report will therefore be studying how a brick façade interacts
and is connected to the atmospheric conditions and see which aspects have the greatest effect.
This was achieved by measuring the properties of the façade and comparing them to
downloaded weather data. The results show that while in shaded conditions there is a very
strong correlation between façade and air temperature, with other factors such as solar radiation
having a minimal impact. In sunlit conditions, the air temperature does still have an impact,
but it is vastly outweighed by the impact of solar radiation which is the main factor behind the
façade temperature, on the sunny side there are also other factors such as wind which causes
thermal convection from the ground which has a noticeable impact on the façade temperature
rather than being dominated entirely by a single factor. It was also found that the albedo of the
façade was quite low at 0.38 which gives it a low reflective ability and makes the solar radiation
more impactful. The emissivity was also calculated and found to be rather high at 0.81 causing
a noticeable emission of energy from the façade which can lead to a quick drop in temperature
in the evening unless outweighed by other factors such as heat storage.
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Date
2021-07-05Author
Abrahamsson, Simon
Thai, Vi Hung
Keywords
façade
temperature
emissivity
albedo
solar-radiation
IR-camera
Series/Report no.
B
1142
Language
eng