Tragedy Visits Again
Once again a storm roared through the country’s mid-section dropping powerful tornadoes that destroyed communities leaving grief and sorrow for the families and friends of the storms victims. I’ve witnessed this scene many times both by living in Tornado Alley but more recently from the research I do. The question that pops up in the aftermath is almost always the same, “What can be done?”
Once again a storm roared through the country’s mid-section dropping powerful tornadoes that destroyed communities leaving grief and sorrow for the families and friends of the storms victims. I’ve witnessed this scene many times both by living in Tornado Alley but more recently from the research I do. The question that pops up in the aftermath is almost always the same, “What can be done?”
The morning after the Arkansas
tornadoes I was watching the morning news shows and as the networks were
covering the event I watched a reporter pick up a piece of debris and claim
that these homes were well constructed, they were clad with brick. I’m not an engineer but I work alongside them
and I can testify that a home clad with brick is not necessarily an indication
of strong construction. The strength
required to withstand tornadic winds comes from features that lie behind the
brick and can’t usually be seen from the outside. It involves how the various components of the
home, foundation, walls and roof are tied together, what engineers call a
“continuous load path”. If the
connections between the roof and the wall are weak, the roof will fail causing
a failure of the walls as well, regardless of what material it is clad
with. Decisions to include these
features must be done when the homes are first constructed. Which brings up a second question, “Should
these features be required by building codes?”
That question cannot be answered
easily. First, the most important
element when thinking about tornadoes is preserving life and avoiding
injuries. The best advice, when
confronted with an imminent tornado is to go to a central part of the structure
and put as many walls between you and the tornado as possible. If you have a shelter, use it! And don’t get in a car and leave your home
unless you live in a very vulnerable structure and have a safe place to go to
quickly. Tornadoes and cars are a deadly
combination. But beyond the issue of
life safety, there is a secondary discussion of how to minimize the damage from
tornadoes and this is where enhanced building codes come into the conversation. For this question, as in most public policy
debates, we must examine the costs of better construction to the expected
benefits.
The key elements of the
“continuous load path” are anchoring the exterior walls to the foundation and
solid connections (hurricane straps) between the roof structure and the
exterior walls. Stiffening the exterior
walls with stronger sheathing further increases the ability of the wall to
resist the stress from the wind pressure and using a reinforced garage door
reduces the probability of it failing which can cause a cascade of structural failures. These changes cost money and if we ask all
homes to be built in this way, the overall cost to society is large. But as urban areas expand the chances of
multi-billion dollar storms increases so it may be cost effective in some areas. Oklahoma has experienced over $5 billion in
tornado and wind storm damage since 1996.
The damage data I’m using here is found in the Storm Prediction Center’s
tornado archive which comes with a caveat, that the damage data is not very
reliable. The true amount of the damage
is likely above that amount. So what
would these added construction features add to the cost of a home? It depends on who you ask but the material
cost for the anchors and the roof/wall connections is small. Better sheathing adds some cost but the home
must be sheathed with something so it’s just a question of the added cost of
better materials. The largest component
would be the reinforced garage door.
If the mitigation had increased
the construction costs by $2,000 per home, total costs to the state of Oklahoma
would have been about $2.4 billion for all permanent homes in the state. And if these features would have resulted in
a 30% reduction in damage, using the SPC damage figures, the damage over the
last 18 years would have been $1.7 billion.
Not enough to cross the benefit/cost threshold. But homes are an investment that will be on
the plains of Oklahoma for more than 18 years.
So we need to adjust our analysis to a longer time frame. Plus we need a better assessment of the
actual damage than the SPC archive.
There is some evidence that the actual damage is much more than shown on
the archive. If it’s off by 40% then
actual damages experience are closer to $8 billion meaning that a 30% reduction
in damages is now $2.4 billion. As a
side note, the SPC archive has total damages from tornadoes in 2011 at less
than $10 billion whereas the National Climatic Data Center has it at over $20
billion.
There is also empirical evidence
that home buyers are willing to pay more for better construction. To study this question economists use models
that parse out the effect on the selling price of homes feature by
feature. These models are called hedonic
pricing models and studies conducted in areas vulnerable to natural hazards show
that selling price goes up when hazard mitigation features are present.
Better structures will not ensure
that casualties will be eliminated but it’s reasonable to assume that if we can
built better homes, those residing in the homes are more likely to escape harm
or at least minimize the injuries and suffering that inevitably follow in the
wake of nature’s most powerful storm.
And if we reduce the monetary damages in the process, well that’s just a
bonus.