Can giant walls stop tornadoes and bring an economic boost to the Midwest?
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Maybe he has watched too much Game of Thrones, Sharknado, or The Wizard of Oz. A scientist from Temple University, Rongjia Tao, has hatched a crazy (but genius) plan to stop tornadoes in the US plains by building huge, sprawling walls to simulate the effect of mountains.
Before we go into Tao's plan, here's a great video on why the US has so many tornadoes and how they form:
As the video shows in detail, tornadoes are formed when winds of two different speeds and temperature collide. Tao maintains that one way to stop this from happening is to interrupt the airflow when the winds collide. He studied other regions similar to the US that have confluences of cold and warm air but have fewer tornadoes. What he discovered is that many of these areas have walls of mountains, specifically three sets in China, that prevent the air from mixing in such a violent way. In places where the mountains don't interrupt the airflow, the tornadoes are worse.
As for the walls Tao suggests building to simulate the effect of mountains, they might look something like this:
I'm only partially joking. While the Game of Thrones walls are said to be miles high, Tao's walls would still be an imposing 984 feet high and 164 feet wide, tying them with the 90th tallest building in the world and the 15th tallest building in the US. Only four US cities (New York, Chicago, Los Angeles, and Houston) have buildings that tall. (Side note: This is why I think the multi-mile-high walls in Game of Thrones are by far the least believable aspect of the story. I'd sooner believe in dragons and trees with faces than believe that a pre-industrial society could build a wall that high.)
If Tao has done his math right, something like this will happen (watch it all the way through):
OK, it won't quite be like that, but Tao's walls would break the wind patterns. But to do that, they would need to be miles long and run across three major tornado sources, in Oklahoma, North Dakota, and parts of Texas and Louisiana. So we're not just talking the height of these buildings, but their massive lengths.
The idea is genius even if a bit out there. The walls could include housing and weather shelters, even schools and shopping. Towns and cities in the area could move some of their most vulnerable buildings into these secure structures. If you can add some economic value to these walls rather than just make them pointless brick walls, there's no reason they can't house entire cities.
Before we get carried away, how much will these structures cost? Would the cost of the wall far surpass the savings from avoiding tornadoes? Tao doesn't think so. By taking account of the cost of a similar building in Philadelphia, he estimates that a one-mile, 1,000-foot wall would cost around $160 million. Bear in mind that unlike a building that people work in, most of the structure can be solid, without duct work or electricity, so they're easier and cheaper to build. Tao says that if you compare the cost to the billions of dollars in recent tornado losses, it seems doable.
But here's the problem: The three mountain ranges that Tao studied totaled 1,056 miles in length. If it took 1,000 miles of mountains
David has been writing on business and technology for over 10 years and was most recently Managing Editor at Enterpriseefficiency.com. Before that he was an Assistant Editor at MIT Sloan Management Review, where he covered a wide range of business topics including IT, ... View Full Bio
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