Preparing for Extreme Weather
What You Need to Know to Design the Safest School Storm Shelters
- By Heather Bender
- February 01, 2021
Across the nation, educational facilities
are being designed with not only education
in mind – but to ensure students,
faculty and staff are protected
during extreme weather events. The
inclusion of storm shelters, safe rooms and
best available refuge areas are steadily increasing,
especially due to recent code changes in
the heart of the United States. By specifying
commercial rolling doors and shutters that
meet strict wind load and flying projectile
requirements, classroom pods, cafeterias and
gymnasiums can maintain a welcoming
appeal while able to transform into a safe
space within seconds.
While the science is clear behind the lifesaving
abilities of these spaces, storm shelters
and safe rooms are not common nationwide.
This is due to cost and the perceived lack of
need in areas outside of “Tornado Alley.” But
as the threat of extreme weather continues to
grow, including in states that rarely saw tornadoes
and extreme weather events in the past,
there are more reasons than ever for school
districts to create life-saving spaces in schools.
That is why it is increasingly important for
facility managers, school administrators and
architects to better understand how building
for safety — including specific storm shelter
and safe room code requirements — can save
lives and protect communities.
Understanding Wind Load and Rolling Doors
Aside from the specific code requirements
for a safe room, an important place to start for
any specifier or decision maker is to learn about
the many aspects of designing for wind load.
The term “wind load” is used to refer to any
pressures or forces that wind exerts on a building
or structure. There are three types of wind
forces that can be exerted on a building, including
uplift , shear and lateral wind load —
all common in a tornado, hurricane or strong
thunderstorm with straight line winds.
Uplift wind load is an upwards force of wind
that affects roof structures or similar horizontal
structures in a building, such as canopies or
awnings. Shear wind load is a horizontal pressure
or force that can cause walls or vertical
structural elements to shift or crack, causing a
building to tilt. And lateral wind load is another
horizontal wind pressure that can make a
structure move off its foundations or overturn.
All three of these forces contribute to calculating
structural wind loads, but wind shear
has a major effect on the performance of rolling
doors. Unlike static wind load, shear wind
load can change wildly based on weather conditions.
Extreme weather, such as hurricanes,
tornadoes and thunderstorms with straight
line winds, put extreme forces on a building
and can lead to doors blowing out due to wild
swings in positive and negative pressure.
Even “regular” gusts of wind due to surrounding
topography and common weather
patterns can affect the performance of a rolling
door as well as the building envelope. That’s
why rolling door and shutter products are
tested for both static and operable wind load.
Static wind load specifies the maximum wind
load at which a door is able to remain safely in
place while closed. Operable wind load speci-
fies the maximum wind load at which a particular
door is able to safely operate.
Although one can use a simple formula to
calculate wind loads from wind speed, it’s
not best practice. Architects, designers and
engineers should incorporate many additional
factors into wind load calculations to
ensure structures won't blow over during
high winds. This is particularly important in
areas of the country where high wind speeds
dictate special design considerations.
“It’s vital for specifiers and decision makers
to reach out to manufacturers to learn
more about wind load requirements, and
options for rolling doors and counter shutters,”
said Siva Davuluri, vice president, marketing,
CornellCookson. “Our architectural
specialists and consultants use a Door &
Access Systems Manufacturers Association
(DASMA) calculator to identify comprehensive
wind load needs and create custom closure
solutions,” he added. “Plus, they can
work with the designer, architect or facility
manager to ensure they are making the best
decision when it comes to safety.”
How Does This Apply to Schools?
As extreme weather continues to wreak
havoc throughout the United States, school
districts have a fundamental responsibility to
keep occupants safe. This includes installing
rolling doors and shutters in safe rooms,
storm shelters and areas of best refuge to
provide protection against strong winds and
flying debris. But this responsibility goes far
beyond ethical considerations.
Many school districts are not even aware
that the current International Building Code
(IBC) requires all educational facilities with
more than 50 occupants to provide a safe
room to protect students and staff from tornadoes
and other extreme weather events in certain
areas of the country. This requirement,
which first appeared more than a decade ago,
applies to any new construction, retrofit addition,
or significant improvement projects. The
2015 and 2018 IBC updates include the same
requirement, and it is expected to remain in
future releases of the IBC.
In states or localities that have adopted IBC
2015 or newer and are in an area that has an
increased risk of tornadoes (identified as the 250-mph wind zone), educational facilities are
also subject to ICC-500 standards. This international
code provides the minimum requirements
to safeguard public health, safety, and
general welfare relative to the design, construction,
and installation of storm shelters
constructed for protection from high winds
associated with tornadoes and hurricanes.
At a base level, a safe room in these facilities
must protect against high winds and flying
objects. How high and how much of an impact
depends on if the safe room is designed to
withstand a tornado or a hurricane. Tornadoes
involve short, violent wind bursts, pressures,
and impacts. Hurricanes typically come on
slower, last longer, and can deliver sustained
wind and flooding. So top hurricane design
wind speeds are 235 mph, while top tornado
design wind speeds are 250 mph.
Impact speeds are similarly different —
more intense for tornadoes, and less so for
hurricanes. As such, hurricane shelters have
impact test criteria of being able to withstand
a 110 mph impact with a 9 lb. 2x4 projectile.
Tornado shelters must be able to withstand a
100 mph impact with a 15 lb. 2x4 projectile.
It’s difficult to picture the difference
between impact ratings, because different
tests use different projectile weights, speeds,
etc. Doors on normal Florida buildings
would have to withstand (with a less than 3
inch permanent dent) a 16 lb bowling ball
dropping from a two-story building. A door
that is rated for a tornado safe room needs to
be able to withstand that same 16 lb. bowling
ball dropping from a 32-story building.
But there are additional considerations to
make when it comes to specifying rolling
doors in areas prone to extreme weather.
This includes states that fall within the Federal
Emergency Management Agency
(FEMA) 250-mph wind speed zone for tornadoes,
areas of Florida that are covered by
Miami-Dade wind load requirements, and
other regional codes and requirements areas.
“We introduced an entirely new product a
few years ago to combat natural disasters,”
Davuluri said. “This advanced rolling steel
door is designed specifically for safe room
protection against life-threatening tornadoes
and hurricanes and is one of few rolling door
products tested and certified to meet ICC-
500 and FEMA P-361 standards.”
Davuluri went on to explain that a single
maximum protection rolling door can be used
to cover multiple openings, or even banks of
windows to maximize natural light — because
of this, typical safe room spaces such as cafeterias,
classroom pods and gymnasiums can
be open and airy instead of dark and claustrophobic
— helping designers create positive,
learning-focused spaces that can also transform
into safe rooms when needed.
When a storm is nearing and the tornado
siren goes off, the rolling door can automatically
deploy, turning an open space into an
ICC-500/FEMA P-361 rated safe room to protect
occupants from harsh winds and deadly
projectiles. After the storm, the door coils
back into the structure until it is needed again.
“Rolling doors like these are best used in
spaces with multiple points of ingress and
egress because they provide maximum protection
at all openings,” Davuluri said. “They
also have added psychological benefits, by
covering windows and eliminating the
chance that students can see a tornado barrel
down on a school–something that tornado rated
glass doesn’t do.”
These same products can be used for a best
available refuge area. This refers to an area in
an existing building that has been deemed by
a registered design professional as likely to
protect building occupants during an extreme
wind event better than other areas in the
building when a safe room is not available.
In addition to maximum protection rolling
doors for best available refuge areas,
manufacturers sell operational wind load
doors as well as several other rolling door
options. These allow specifiers to protect
building occupants and contents in the event
of extreme weather. However, it should be
noted that they do not meet FEMA-361 and
ICC-500 standards.
“New operable wind-rated products are
designed with special wind locks which
allow the door to seamlessly glide through
the guides when exposed to a wind load of 20
psf (referred to as “operable wind-load rating”)
– which equates to roughly 88 miles
per hour,” Davuluri said. “These doors are
designed for facilities that must be accessed
regardless of weather, including fire stations,
hospitals, military facilities and airports, but
are also helpful when installed in best available
refuge areas in schools.”
Wind load doors aren’t the only products
that can help protect occupants. Companies
manufacture a variety of other rolling doors
and counter shutters that address static and
operable wind load requirements. These
include rolling service doors, insulated doors,
fire doors, insulated fire doors and counter
doors.
This article originally appeared in the January February 2021 issue of Campus Security Today.