Ice Dam Proof Your Attic
If you’re like most people, you probably don’t spend much time in the attic. In fact, the vast majority of Canadians go up to their attics only when dealing with a leaky roof or “animal intruders” like bats or squirrels.
Snow on your driveway is seldom more than a pain in the back. Snow on your roof can lead to leakage, even if your roof is new. The culprit is ice damming, the insidious snow-melting phenomenon that is all too familiar to many of us.
Let’s do a quick review of ice damming and its causes
Snow accumulates on the roof. In areas where the snow is covering the transition
between interior and exterior spaces, ice dams may form. If there is sufficient
heat loss from the heated space to melt the first few inches of snow on the
shingles, water will form. The water will run down the roof until it encounters the
unmelted snow over the unheated space. There it stops, and re-freezes. After a
while, a dam of ice forms on the roof above the exterior wall. The dam can cause
the water to form a small pool. Shingle type roofs cannot stop pooling water.
Water may back up under the edges of the shingles.
Once under the shingles, the water is free to leak into the ceiling and wall.
Naturally, some will find a way to drip onto your most expensive furniture.
Now what? Let’s assume you manage to salvage the furniture, and the weather
warms up enough to melt the snow, stopping the leak. How do we prevent it from
happening again? If left uncorrected, water damage will occur to at least the
ceiling or wall finishes, and at worst, structural rot can occur.
For years the mantra being chanted on correcting the cause of ice damming has
been “insulation and ventilation”. The prevailing opinion has been that adding
insulation and ventilation to attic spaces will stop the snow melting.
It is easy to see that if a house has little insulation, heat loss from the house will
cause snow to melt. If we can keep the roof cold, we won’t get much melting, and
won’t get ice dams. Luckily, upgrading insulation in attics and roof spaces is
often easily done.
Roof and attic ventilation is generally a good thing, and as shown in Fig. 1,
adding ventilation to an attic may stop ice dams from forming. The goal is to
keep the attic cold in winter with good ventilation. However, it will not work in all
cases. In fact, in some rare instances adding roof or soffit vents may increase the
risk of ice dams. The reason lies in the often-neglected problem of air leakage,
or air loss (not to be confused with hair loss, an equally troubling but entirely
What we mean here is the leaking of warm, moist air from the house into roof
spaces. Air loss occurs in every house. Warm air is light and buoyant, so it is
always seeking a way out, in the UP direction. UP is where your roof is. Fig. 2
describes this stack effect.
It’s not surprising, then that the leakage of warm air from the heated spaces in
your house is the primary cause of the melting snow that is at the heart of ice
The job of attic ventilation is to evict the warm air that has taken up residence in
the roof spaces. If a house has only a small amount of warm air loss occurring,
then it will only need a relatively small amount of ventilation to deal with it. Here’s
a maverick idea: if a well-insulated house has NO warm air loss, it will require NO
ventilation (for ice damming reasons, anyway. There are other good reasons for
Conversely, if a house has many warm air leaks, it may be impossible to add
enough attic ventilation to overcome the resulting heat build-up. Or, if the warm
air exit is very close to the roof boards, and hence close to the snow, it may be
impossible to mix it with enough cold air soon enough to prevent it from melting
the snow. This can readily occur in the attic of a low-sloped roof.
The situation can be even worse if the attic ventilation lowers the air pressure in
the attic. This can increase the rate of leakage of warm moist air out of the
house into the attic, making the attic warmer.
You can see from this perspective that adding ventilation addresses the symptom
of a warm attic, but we can address the cause if we seal up the air leakage paths
into the attic spaces. Sounds easy enough, and in some cases it is, so a handy
homeowner can, with some dexterity and a few air sealing products, do it
themselves. There are however some air leak paths that require a specialist to
find and fix.
Here are some of the common problem spots that can be addressed from inside
the rooms. Remember that a painted and intact drywall or plaster ceiling is a
good air barrier, so the most common air leak paths are places where the ceiling
is discontinuous. Fig. 3 illustrates some of these
o Attic access hatch – an attic hatch or door needs to be both insulated
and weatherstripped. Foam board works well to insulate, and common
closed-cell foam is used to weather strip.
Potlights – they are mounted directly in attic space, and require the
ceiling to be cut open. No wonder warm air finds a good path to the attic at
potlights. The best way to seal them is to wrap a pre-made plastic shroud
around them, from inside the attic. If this is impossible, a well-caulked joint
between the light box and the ceiling will help. Be careful with this.
Potlights generate lots of heat and you don’t want to cause a fire. This
one is a job for a specialist.
o HVAC registers – if the house has air vents in the ceilings, the joint
between the ducting and the ceiling should be caulked (remove the vent
covers first). Attic ductwork should be well air-sealed and insulated.
o Other ceiling fixtures – Ceiling mounted electrical devices like lights and
bathroom fans should be sealed at their boxes
The more difficult air paths to seal are those accessible only from the attic. In
these areas, the attic floor is discontinuous. Due to poor access, uncomfortable
and irritating work environment, and the risk of stepping incorrectly and ending
up with both legs straddling a 2×4, sticking into the room below, sealing warm air
paths from inside the attic is best left to a professional. Common problem areas
o Plumbing stacks and chimneys – large chases running the entire height
of the house, housing smallish pipes…great paths for heat loss
o Attic mounted ductwork – Ductwork in general is usually poorly sealed
at joints, and leaks air readily. In winter, ductwork that travels through an
attic will leak warm air directly into the attic. If this doesn’t melt snow on
the roof…it’s probably summer. Additionally, the vertical chases in which
the trunks of the ductwork run provide air paths to the attic
o Interior partition walls – partition framing is accessible from the attic.
Each stud bay can act as small chimneys that exit through gaps at cap
o Knee-wall Attics – Houses with half-storeys have triangular attics at the
edges of the uppermost floor. These attics are prone to warm air
infiltration at the floor joist area. Refer to Fig. 4. Also vulnerable on a kneewall
are wall-mounted heat ducts and electrical outlets.
The cost of remedial work of this type will vary depending on the size and shape
of the house, and the number of potential air leak paths. Expect a minimum of
$500, and up to $2,500 or more. These are relatively small numbers in
comparison to the potential water damage repair costs, especially if recurrent, or
the loss in property value due to obvious water damage.
Once the warm air is kept inside the rooms where it belongs, the existing level of
attic ventilation will often be sufficient to keep the attic and roof spaces cold
enough to prevent ice dams from forming. Then instead of gazing out the window
at the impending snowstorm and feeling a sense of dread about that recurring ice
dam, you can…worry about that 6-car driveway you will have to shovel. Better
dig out the chiropractor’s number too.