Putting doors to the test

The newest safety standards require manufacturers of storm shelter impact protective systems, including door, window, and shutter assemblies, to have their products rigorously tested and certified to ensure they will not fail in the event of a tornado or hurricane.
For example, any type of door used in a tornado storm shelter must be able to withstand 160 km/h (100 mph) impact with a 7-kg (15-lb) 2×4, and withstand 400 km/h wind speeds. Any type of door used in a hurricane storm shelter should tolerate a 177 km/h (110 mph) impact with a 4-kg (9-lb) 2×4, and withstand 322 km/h (200 mph) wind speeds.
Additionally, each storm door assembly must pass required testing in the same configuration in which it will be installed in the storm shelter or safe room. A change to these components would necessitate re-evaluation by the certifying agency and retesting in the new configuration.
It is also recommended safe room door assemblies are regularly maintained to protect their functionality and maximize their lifespan. Like rolling fire doors, manufacturers and designers alike recommend drop testing and regular inspection of the units to ensure working order in case of an emergency event.
Offsetting the expense
While installing specialty rolling door products can save lives, they are expensive upgrades that cannot ‘just’ be added to any wall or building envelope. In the author’s experience, it is best to specify them when building new storm shelters or incorporating them in major retrofits and remodel projects for existing structures. No matter the application, the specification process comes down to budget, usage design complexity, and a variety of other influences.
Safe rooms save lives during tornadoes and hurricanes because they are built to the absolute highest standards, but this protection comes at a cost. While prefabricated residential safe rooms can cost as little as $3000, budgets can stretch into millions for schools, hospitals, and emergency services buildings.

A safe room is a hardened structure designed to meet specific criteria and provide near-absolute protection in extreme weather events. FEMA P-361 recommends a minimum of ½ m2 (5 sf) of open space per person, 1 m2 (10 sf) for wheelchair-bound individuals, and 3 m2 (30 sf) for bedridden hospital or nursing home patients. Additionally, there needs to be provisions for restrooms, backup power, and storage and mechanical areas. All of these must accommodate a target population within a five-minute walk of the facility.
Many other factors influence the cost of a safe room, including the number of uses, the design complexity, wind-speed load, exterior and interior finishes, and roof materials.
Due to these requirements, along with the ever-increasing cost of building materials and labor, it is easy to see why safe room construction is expensive. For example, a study from the Precast/Prestressed Concrete Institute (PCI) found typical safe rooms cost between $150 and $240 per square foot. However, some projects exceeded $490 per square foot.
In the past few years, this cost has increased substantially as building envelopes are designed to withstand the 400 km/h wind loads designated in ICC 500 standards.
To mitigate these costs, architects and designers assign multiple uses for internal shelters and safe rooms. Disguised as gymnasiums, cafeterias, laboratories, and even pods of classrooms, these multi-use shelters are hidden in plain sight and provide life-saving support in the event of extreme weather.
To help offset the cost for school districts and for emergency services, FEMA has launched a pre-disaster mitigation (PDM) grant program. The program is designed to assist states, territories, and federally recognized tribes and local communities in implementing a sustained pre-disaster natural hazard mitigation program.
The program awards planning and project grants and provides opportunities for raising public awareness about reducing future losses before disaster strikes. Mitigation planning is a key process used to break the cycle of disaster damage, reconstruction, and repeated damage. Internal studies from FEMA show every $1 spent on mitigation saves $6 in the future.
PDM awarded a total of $235 million in grants during the 2018 fiscal year and more than 37,000 tornado safe rooms have been funded through these programs as of 2016. Note, however, for a safe room to qualify for this type of funding, it must not only meet ICC 500 requirements, but also the more stringent FEMA P-361 guidelines.
Hurricane safe rooms are slightly different than the ones for tornadoes and grant funding is not as generous. Due to the more advance notice of a hurricane, much of the population in the affected area would be expected to seek shelter elsewhere. While most have the time and expectation of evacuation, people such as first responders and for those who are physically unable to leave the area would remain in harm’s way. Therefore, for hurricane hazards, FEMA only considers providing grant funding for extreme-wind mitigation projects designed for populations that cannot remove themselves from harm’s way during a hurricane.
Creating a safer future
A direct outgrowth of FEMA P-361 and ICC 500, advanced rolling door products are helping the A&D community protect Americans and critical infrastructure from extreme weather events. Not only do these doors transform typical safe room spaces into protected shelters against tornadoes and hurricanes, sleek construction options allow for undetectable embedment into a building envelope, thereby creating open, airy, and friendly spaces doubling as shelters.
Heather Bender is a strategic marketing manager at CornellCookson. She is responsible for company growth through the management of a diverse portfolio of new products in the research and development stages. Bender graduated with a bachelor’s (honors) degree in marketing from Misericordia University and obtained her project management certification from the Pennsylvania State University. She can be contacted at heather.bender@cornellcookson.com.