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The Problem –
Dirty exterior surface of buildings
After a period of time the
exterior surface of buildings like roofs and facades
will become dirty, uneven discoloration will appear,
often in patterns revealing how rain washes off the
surfaces. Depending on the kind of dirt and the risk of
deterioration of the surface by the dirt, the building
owner after some time might choose to clean the surface.
Cleaning, however, can be expensive and introduce other
problems to the surface.
There are two causes of
why building exterior becomes dirty:
Dust and dirt
accumulation
 Floating
dust is usually under one micron particle size and
generated by combustion of fossil fuel burning engines.
Partilces smaller than 0.01 µm are not stabile in the
atmosphere; they will either react with oxygen or
coagulate to larger particles. Emission of gases and
particles by industry and cars generate particles up to
1 µm. coarser dust, with particles larger than 1 µm, is
generally generated by abrasion. The particle size
distribution varies with the environment, but generally
the bulk of the particles are < 1 µm, both measured on
mass, volume and on numbers.
While larger particles
sediment quite soon because of their weight, smaller
particles < 1 µm are floated in the air for days or
weeks. During that time, they can be transported over
1000 km before they deposit. The particles are washed
out in clouds or rain, a high content of water-soluble
salts, especially in “urban” particles, lead to wet
deposition. Small particles do not sediment in the same
way; instead the particles are drawn by forces of
adsorption of oil content in hydrocarbon particles and
electrostatics.
Biological Growth
A fast indication of
whether discoloration is caused by biological growth or
environmental particles can be obtained by observing the
smudging pattern. Environmental particles are
transported by water and to some extent also washed away
by rain, leaving exposed surfaces cleaner than other
parts. Biological growth, on the other hand, is
typically seen on exposed surfaces that for some reasons
are moist. Through a microscope the difference is often
clear, because of the spores and mycelium in molds.
However, sometimes it can be useful to apply the unknown
dirt layer to agar pla tes,
especially when deciding whether the matter is alive.
This method is also useful in identifying the genius of
the biological matter. Biological growth on surfaces can
be moss, lichen, algae or mold. These are hardy species;
nutritious matter can be found everywhere in nature, and
if only the right moisture and heat conditions occur
often enough, and the environment is not toxic,
biological growth will appear. Biological growth is
often seen near leaking down pipes or gutters, where the
moisture content of the material is very high, but also
on surfaces without unusual water supply, biological
growth is seen.
Consequences of Dirty
Buildings
Dirt on surfaces is
generally not seen as a major problem because it does
not involve any safety consequences unless it covers
signs of deterioration. But the dirt is visible, and it
is therefore natural to ask what effect the dirt has on
the building.
Aesthetics
Aside from some romantic
ideas on how old houses should look, a too visible dirt
layer on a building is an aesthetical failure,
regardless of its origin. This kind of aesthetical
problem is to some building owners unacceptable, as it
can be seen as neglect and ignorance. Dirt on surfaces
can probably not cause this alone, but is an important
factor in the course.
Although there is probably
no other damage than aesthetical, the reason for the
growth must be determined and the facades will have to
be cleaned.
Deterioration
Deteriorated areas are
often covered with biological growth, but this does not
mean that the biological growth has caused the
deterioration; it is more likely that the cause is water
damage. It is likely that heavy biological growth may
enhance deterioration; biological growth keeps the
surface moist, increasing the risk of frost damage.
Depending on the surface
and the composition of environmental particles, a dirt
layer can prevent the surface from deteriorating or
react with the surface in an irreversible way, e.g.
limestone and concrete can react with sulphate, forming
a gypsum layer, which will appear as a crust, sometimes
just visible to the naked eye as a discoloration.
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coating
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