Yeah you can start by not building _more_ in the flood plain.
And if you do, then don't build architecture that is incapable of just accepting the temporarily higher ground water. We know how to basement just make the basement high enough to tower over the flood.
Oh, no cheap ground-level storefront windows? Welp, guess those have to be elevated above sufficiently voluminous drainage channels (the former streets).
> Or in Florida's case, mandate hurricane ties on timber homes so they can't lift off their slabs.
That doesn't mitigate much. The mass of a paper and matchsticks "house" just isn't enough to resist it getting torn apart - if not by the wind, then by debris.
The only kind of structure able to survive a dead-on hit is steel bar reinforced concrete or very, very solidly built brick-and-mortar. But that is expensive to build.
> It's uneconomical to hurricane-proof all housing in Florida.
Given the yearly news about record breaking destruction... I'd say it is uneconomical to build in Florida at all. The only thing keeping some regions (in addition to FL and other hurricane hotspots, add California for fires and potentially earthquakes) afloat is politicians bribing populations by promising government bailouts or by forcing insurance companies to offer coverage by law even if it is extremely expensive.
The amount of waste and human suffering generated because of these perverse incentives is staggering.
The news tends to exaggerate a bit (quite a bit) for effect. Where the storm hits is devastating, but a mile away can be basically fine. So percentage wise very little of Florida gets destroyed, but of the part that gets flattened, it may be entirely destroyed. Same thing can happen periodically near virtually any body of water or stream. But hurricanes are something that can be observed and predicted in advance instead of being out of nowhere like flooding
> But hurricanes are something that can be observed and predicted in advance instead of being out of nowhere like flooding
Yeah in advance enough to prevent loss of human life, but still, if you're hit, everything you own is gone. There just is not enough time to pack up more than maybe your laptops, phones, a bag of clothes and your most important paperwork.
Explain to the class where the water is gonna get all that momentum from. Florida is flat.
The storm surge goes up (and a whole bunch of water falls on top of it). The storm surge goes down. This isn't some river bursting it's banks.
Between the requirements imposed by needing to resist hurricane winds and the slab ties it's "good enough" that there's a 99.9999% chance the building will stay on it's foundation long enough for something else to be the problem.
> The storm surge goes up (and a whole bunch of water falls on top of it). The storm surge goes down. This isn't some river bursting it's banks.
FEMA has a flood rating specifically for exactly this situation: V. They have this because it carries additional hazards beyond normal flooding seen with storms.
> Coastal areas with a 1% or greater chance of flooding and an additional hazard associated with storm waves. These areas have a 26% chance of flooding over the life of a 30‐year mortgage.
And here's a video about researchers at the Oregon State University's Wave Lab studying this exact thing:
Once again, this sort of reddit-esque penchant for projecting general guidance and engineering standards into specific situations misses the mark.
Someone in a subdivision that's a few miles inland with a mangrove swamp between it and the ocean anyway has to care about New Orleans style flooding, not "what sea state is my picture window rated for" flooding.
Like there's a reason that Florida building code just says tie it down and call it good. It's just not necessary nor economically worthwhile to try and make structures shrug off the surf. Sure, literally on the coast type stuff will get rekt (most of that stuff is concrete now though) but the average modular home subdivision doesn't need special requirements above and beyond what it takes to shrug off the wind.
When it comes to wind loading the code is basically a fight between evil civil engineers who want the state jackboot to force you to buy their service and the hardware makers (Simpson and the like) who'd prefer you reference a conservatively pre-computed table and install that much of their hardware.
There are many reasons to shit on Florida but their building code is pretty top notch (and this makes it expensive but everything has tradeoffs).
I live in Tampa Bay, so I'm quite familiar. It's pretty rare to have a V rating, precisely for many of the reasons you mentioned. But, at the same time, handwaving it away as unimportant is also silly. It's an immensely more dangerous situation to be in flooding with moving water, as opposed to just rising water conditions. If nothing else, it's important to know for evacuation purposes. I would never willingly stay in a V-rated zone if there was a chance of storm surge. Then again, I didn't buy the V-rated house I wanted and instead found a house 40 feet above sea level, so maybe that's just my risk profile.
And I didn't disagree with you regarding building. You were wrong about storm surge always being static -- it mostly is, but importantly sometimes isn't. But you weren't wrong that there's not a lot to do about it. This is one of those situations where nature will win if it wants to. Best thing you can do is just not be there when it does.
If people are going to build cheap houses, it makes sense to spend a little bit more on adding the hurricane ties (it's not like they're expensive or difficult to use). It might not be perfect, but it's surely better than just relying on gravity.
There are problems.
There is money you can throw at those problems.
And there are some problems that are rare & low impact enough that it's not worth throwing money at them.
See also: keeping snowplows in Atlanta.