From World Scientific Publishing Co. and the International Journal of Modern Physics comes this insane idea; build 300 meter (984 feet) high “great walls” in the midwest to break up the flow patterns. Riiiigght. We can’t even build a wall in Texas to protect our southern border.
We Can Eliminate the Major Tornado Threat in Tornado Alley
The annually recurring devastating tornado attacks in US Tornado Alley raise an important question: Can we eliminate the major tornado threat in Tornado Alley? Some people may claim that such a question is beyond imagination as people are powerless in facing violent tornadoes. However, according to Professor Rongjia Tao’s recent publication in IJMPB, human beings are not powerless on this issue: if we build three east-west great walls in Tornado Alley, we will eliminate major tornado threat there forever. These walls can be built locally at high tornado risk areas to eliminate tornado threat there first, then gradually extended.
In the US, most devastating tornadoes occur in Tornado Alley, which is a strip of land between the Appalachian Mountains and the Rocky Mountains, including most American Midwest states. In 2013, there were 811 confirmed tornadoes in USA, 57 in Europe and 3 in China. Among 811 tornadoes in USA, most of them, especially the most devastating ones, occurred in Tornado Alley. What causes such huge differences?
From the atmospheric circulation point of view, Tornado Alley is inside the “zone of mixing”, where the warm and moist air flows northbound and cold air flows southbound. At a certain season, the warm air flow front clashes with the cold air flow front at some place in Tornado Alley. Major tornadoes in Tornado Alley all start with such clashes (Fig.1). Especially as there is no east-west mountain in Tornado Alley to weaken or block the air flows, some clashes are violent, creating vortex turbulence. Such violent vortexes, supercells, are initially in horizontal spinning motion at the lower atmosphere, then tilt as the air turns to rise in the storm’s updraft, creating a component of spin around a vertical axis. If the vortex stretching during the vortex tilting intensifies the vertical vorticity enough to create a tornado, the vortex size is getting much smaller as the rotation speed gets much faster. About 30% of supercells lead to tornadoes (Fig.2).
Fig.1 When a strong warm most air flow comes to Tornado Alley, the violent clashes with the cold air flow can extend several states, making tornado outbreaks at several places in a very short period.
Fig.2. The intensive clash between the winds from the south and the winds from the north is the source for formation of tornados in Tornado Alley. (a) Violent clash creates a vortex -supercell. (b) Tilt and updraft creates a spin about a vertical axis leading to mesocyclone. (C) Further stretching and strong vertical vorticity may lead to tornado.
Calculations show that the chance to produce tornadoes depends on the wind speeds during the clashes. For example, if both cold wind and warm wind have speed 30 miles/h (13.3m/s), the chance to develop tornados from the clash is very high. On the other hand, if the both winds have speed below 15 miles/h, there is almost no chance for the clash to develop into tornadoes. Hence reducing the wind speed and eliminating the violent air mass clashes are the key to prevent tornado formation in Tornado Alley. We can learn from the Nature how to do so.
United States and China have similar geographic locations. In particular, the Northern China Plain and the Eastern China Plain is also in the zone of mixing, similar to Tornado Alley. However, very few violent tornadoes occur in this region of China because there are three east-west mountain ranges to protect these plains from tornado threat. The first one is 300km long Yan Mountain which lies at the northern boundary of these plains. The second one is 600km long Nanling (Nan Mountains) at the south boundary of these plains. The third one is 800kom long Jiang-Huai Hills through the middle of the plains. Especially, Jiang-Huai Hills are only about 300 meters above sea level, but effectively eliminate the major tornado threat for the areas. This is evidenced by the following fact.
Jiang-Huai Hills do not extend to Pacific ocean, leaving a small plain area, north part of Jiangsu province, unprotected. This small area, similar to US Tornado Alley, has annually recurring tornado outbreaks. For example, the city Gaoyou in this area has a nickname “Tornado hometown”, which has tornado outbreaks once in two years on average. It is thus clear that Jiang-Huai Hills are extremely effectively in eliminating tornadoes formation. Without Jiang-Huai Hills, a quite big area in China would become “Tornado Hometown”
While there are no mountains in Tornado Alley to play the same role as Jiang-Huai Hills etc in China, there are two small mountains, Ozarks Mountains and Shawnee Hills, which significantly reduce tornado risk for some local areas.
Ozark Mountain consists of high and deeply dissected plateaus; the mountain hills are south-north ranged. Most parts of these north-south hills cannot block or weaken air mass flow between north and south. Therefore, for example, Joplin has very high tornado risk as it faces the north-south deeps and valleys formed by these hills, the winds get more strength as they pass these valleys and deeps. On the other hand, some small sections of St. Francois Mountains and Boston Mountains have the hills east-west connected. Therefore, for example, Rolla, Missouri has very low tornado risk, as analyzed by www.homefact.com/tornadoes/.
The devastating tornado outbreak in Washington County, IL on November 17, 2013 also reminds us about Shawnee Hills, which is a small mountain, 60 miles east from Washington County. Most Shawnee Hills are along the south – north direction, but some sections are east-west connected, located at the south border of Gallatin County. Therefore, Gallatin County has very low tornado risk, although the most land in Gallatin County is flat farm land, same as Washington county.
According to Dr. Tao, the above information learned from Nature is very encouraging. Although there are no east-west mountains in Tornado Alley, we can build some east-west great walls to play the same role. Also learned from Jiang-Huai Hills and Shawnee Hills, the wall needs about 300 meter high and 50 meter wide.
To eliminate the tornado threat for the entire Tornado Alley, we may need to build three great walls. The first one should be close to the northern boundary of the Tornado Alley, maybe in North Dakota. The second one should be in the middle, maybe in the middle of Oklahoma and going to east. The third one can be in the south of Texas and Louisiana.
Such great walls may affect the weather, but their effect on the weather will be minor, as evidenced by Shawnee Hills in Illinois. In fact, with scientific design, we may also use these walls to improve the local climate.
In Philadelphia, there is one skyscraper building, Comcast Center, about 300 meter high. From the cost of Comcast Center, we estimate that to build one mile such wall, we need about $160 million. On the other hand, the damages caused by single tornado attack in Moore, Oklahoma on May 20, 2013 alone were multi billion dollars. Therefore, it seems that the cost for building such a wall is affordable.
While building the three great walls will eventually eliminate major tornadoes in the entire Tornado Alley, we do not expect to start such a huge project in the near future. On the other hand, it is more realistic to build such great walls locally at high tornado risk areas first, then connect them piece by piece. To do so locally, we must remember that from air fluid dynamics, the area protected by the wall is roughly a circle with the wall as its diameter.
Also in developing any new city in Tornado Alley in future, we may consider to build east-west skyscraper buildings first, then allocate the other parts of the city surrounding the skyscraper buildings. In such a way, the skyscraper buildings will serve as a wall, eliminating major tornado formation in their surroundings to protect the whole city.
Acknowledgments: This work is supported in part by a grant from US Naval Research Lab.
The paper will appear in IJMPB.
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Source: http://www.worldscientific.com/page/pressroom/2014-06-23-02
From what I can tell about this journal publisher, there seems to be no peer review of any kind in the Editorial Process: http://www.worldscientific.com/page/authors/authorkit
Pity the fool at the US Naval Research Lab who approved this grant.
They built one in 1843 but it blew over.
wws:
Thanks for the memory you gave me with your post at June 23, 2014 at 11:49 am.
Father Christmas gave me an Airfix kit of the atomic cannon and its transporter etc.. I painted each part and built the entire thing: only my Airfix SaturnV was a bigger kit.
It is sad that one needs reminders to remember some things from long ago, and I am grateful for the reminder you gave me.
Richard
Maybe it’s part of the warmists secret plot to shut down natures cooling pump so they can be right about warming and enact global socialism.
So, if tornadic activity is diverted over into my backyard, can I sue them for damages.
Just put a bullseye on that wall. Anyone who has worked on tornado aftermaths will tell you the same. Tornadoes are a natural thing and no wall will stop them.
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This is about as realistic as putting up 60 foot nets or super fans to reset ozone inversion layers.
1 mile costs $160 million dollars. First off, that number sounds quite low for a sky-scraper high building extrapolated a mile long. Answers.Com (obviously not the best source, but work with me here) suggests a price of $8-15 million per story for a standard 1-block square building. We are talking a building 20 blocks long and 30 stories high. Rough estimate by base extrapolation is ($8M*20*30) $4.8 Billion per mile. Even taking their number at face value, you are looking at several thousand miles of wall (which due to scarcity will only increase the price per mile). Given the large amount of available land and the Midwest’s firm adversion to high-rises, these buildings will almost certainly be unused or turned into low-rent slums, so we would be lucky to make enough in rent to pay for maintenance. The numbers get progressively less sane as you keep calculating.
Then, you have to consider rain-shadows. Do they really think that they aren’t going to dry out the already-dry great plains? That’s just willfull ignorance.
This nonsense makes the 19th century idea of controlled forest fires to manage east coast rainfall downright plausible.
Peter Melia says: June 23, 2014 at 1:51 pm
Peter, a dust devil is not a tornado. A dust devil has no cloud formation and ends as soon as the release of hot air is completed…that is, when the vortex releases the energy to a cooler level. They start from the ground up which is why your tarmac example killed it long enough to dissipate. The top speeds are the same as sticking your hand out a car window…60 miles a hour max.
Tornadoes require very exact atmospheric sources, not ground. Up to 250 miles per hour covering a mile or more. Some tornadoes I worked on peeled up four feet of soil, roads and everything else. Sticking your hand out a window during a tornado mean you will lose your hand, arm and probably everything else attached to it.
And Peter Melia, you were seeing dust devils. These are small heat-created cyclones that rapidly carry hot air up (read Willis’s Burning Man story for a good picture and explanation). As you noted, they are disrupted when there is a significant change in heat tansport. A Tornado is orders of magnitude bigger. While the mechanism is the same, it’s on a weather front level, and it cannot be stopped by such simple means.
something about the jetstream and low pressure in Figure 1 does not make sense. Joe Bastardi should look at that and comment.
Question: Have these geniuses calculated the carbon footprint of builiding such a tornado wall?
Answer: If they did, they would have never suggested the idea in the first place.
Once more science runs amok..
The hogwash here is high grade and potent.
Write a thousand papers with a million Phds and it still would NEVER work.
Uh, how about a dome over the 48 states; another over Alaska and another over the Hawaiian Islands?
The we can control our own weather inside each of the domes.
Make them out of silicon and call them
“silicondomes” (pronounced “silly condoms”)
🙂
So what’s the big deal with the tornadoes? Property damage?
Wouldn’t it be easier to leave the landscape to the tornadoes? After all, it was theirs before people arrived. Tornadoes are aerial phenomena. Go underground, and get out of their way.
Build underground.
Park underground.
Live underground
Shop underground.
Leave the surface to the tornadoes. That way the tornadoes are happy, the Insurance Companies are even happier (they can help pay from their future savings) and loss of life and damage to property would be heavily reduced.