Specifications
87D0174
5
SSTB11 Woodburning Fireplace
OPERATION GUIDELINES
Typical Scenario
If we take an example of a typical home with its natu-
ral stack effect and add weather proong which makes
a structure even tighter, place vents in the structure for
exhaust fans for bathrooms and stoves, add a large attic
fan plus ues required for venting water heater, furnace
and replace gases, we create an opportunity for a great
air tug-of-war.
During winter months, the air within the home is generally
much warmer and less dense than the outside air and,
as a result, the cooler outside air seeks ways to work into
the structure. The easiest link to the interior of the home
is generally through ues and other openings connected
directly to the inside.
A typical comment comes from the person who states,
“I don’t seem to get a good draft and when I open my
damper, cold air rushes in.” In this case you are imme-
diately tipped off to the probable cause of the problem
- depressurization. The ue system is simply a conduit
through which incoming air is drawn into the home to
equalize pressure.
Depressurization is a contributing factor to back drafting
75% of the time and is the sole cause of back drafting
40% of the time. The greater the exhaust capacity and
the tighter the building envelope, the more a house will
depressurize.
The combination of forces of exhausting air from the house
can be so strong that it is possible for hot ue gases from
the re in the replace to be overpowered resulting in a
down draft during or at the end of the re cycle. The com-
peting factors are the exhaust devices located throughout
the home which work in concert with the natural draw of
the house causing a depressurized environment pulling
at the bottom of the chimney, thereby reducing the net
chimney draft.
Air is pulled down the chimney where it provides make-up
air (replacement air). The cool back drafting air coming
down the chimney will not allow all of the hot combustion
gases to rise up the chimney, therefore, chimney drafting
is curtailed resulting in the escape of gases and smoke
into the living area.
It doesn’t take a lot of activity to create a depressurization
effect. For example, a typical gas furnace requires 1,450
cubic feet of air per hour for proper combustion and an-
other 4,000 cubic feet of air per hour to maintain a draft.
All this air has to come from somewhere.
A surprising amount of outdoor air manages to leak into a
house by inltration but the point is, inltrating air can not
be depended upon as a reliable source of combustion air.
Add to this factor a replace that needs combustion air
to operate in a properly insulted, air tight home and you
quickly realize how a problem can occur.