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Identifying
Pollutant Pathways
Airflow patterns in buildings result from the combined action of
mechanical ventilation systems, human activity, and natural forces. Pressure
differentials created by these forces move airborne contaminants from areas
of relatively higher pressure to areas of relatively lower pressure through
any available openings.
The HVAC system is
generally the predominant pathway and driving force of indoor air movement
in buildings. However, all of a building's components (walls, ceilings,
floors, penetrations, HVAC equipment, and occupants) interact to affect the
distribution of contaminants.
Natural forces exert
an important influence on air movement between zones and between the
building's interior and exterior. Both the stack effect and wind can
overpower a building's mechanical system and disrupt air circulation and
ventilation, especially if the building envelope is leaky. This can lead to
indoor air quality problems.
Stack effect
is the pressure driven flow produced by convection (the tendency of warm air
to rise). The stack effect exists whenever there is an indoor-outdoor
temperature difference and becomes stronger as the temperature difference
increases. As heated air escapes from upper levels of the building, indoor
air moves from lower to upper floors, and replacement outdoor air is drawn
into opening at the lower levels of buildings. Stack effect airflow can
transport indoor air quality contaminants between floors by way of
stairwells, elevator shafts, utility chases, or other openings
Wind effect is transient,
creating local areas of high pressure (on the windward side) and low
pressure (on the leeward side) of buildings. Depending on the leakage
openings in the building exterior, wind can affect the pressure
relationships within and between rooms. This can allow an indoor air quality
contaminant to move easily between rooms.
The basic principle of air movement
from areas of relatively higher pressure to areas of relatively lower
pressure can produce many patterns of contaminant distribution including:
- local circulation in the room
containing the pollutant source
- air movement into adjacent spaces
that are under a lower pressure
- recirculation of air within the
zone containing the pollutant source
- movement from lower to upper
levels of the building
- air movement into the building
through infiltration of outdoor air or reentry of exhaust air
The interaction
between pollutant pathways and intermittent or variable driving forces can
lead to a single source causing indoor air quality complaints in areas of
the building that are distant from each other and from the source. Hence,
indoor air quality complaints can be heard in one area of a building that is
far removed from the actual source of the indoor air quality contaminant. |
