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Archive for the ‘climatology’ category: Page 128

Sep 16, 2018

This is how the world ends: will we soon see category 6 hurricanes?

Posted by in categories: climatology, mathematics

Not the end, but interesting… Also, note that hupercanes are possible products of some mathematical instability, where the speed start to grow almost unlimited after some threshold. Buts Cat 6 is not a hypercane, as in the hypercane winds will be 500 mph.


There is no such thing as a category 6 hurricane or tropical storm — yet. But a combination of warmer oceans and more water in the atmosphere could make the devastation of 2017 pale in comparison .

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Sep 15, 2018

Scientists: World’s warming; expect more intense hurricanes

Posted by in categories: climatology, computing, sustainability

WASHINGTON (AP) — A warmer world makes for nastier hurricanes. Scientists say they are wetter, possess more energy and intensify faster.

Their storm surges are more destructive because climate change has already made the seas rise. And lately, the storms seem to be stalling more often and thus dumping more rain.

Study after study shows that climate change in general makes hurricanes worse. But determining the role of global warming in a specific storm such as Hurricane Florence or Typhoon Mangkhut is not so simple — at least not without detailed statistical and computer analyses.

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Sep 14, 2018

‘Moonbeam’ at Last? Gov. Brown Says State Will Launch Satellite

Posted by in categories: climatology, satellites, sustainability

(AP) — California Gov. Jerry Brown said Friday that the state plans to launch its “own damn satellite” into orbit to battle climate change.

The man the late Chicago columnist Mike Royko famously dubbed “Gov. Moonbeam” made the announcement at the conclusion of a two-day climate summit he organized in San Francisco.

Continue reading “‘Moonbeam’ at Last? Gov. Brown Says State Will Launch Satellite” »

Sep 11, 2018

Using 82 Terawatts of solar and wind to Green the Sahara as a side effect would cost at least $82 trillion

Posted by in categories: climatology, computing, solar power, sustainability

$82 Trillion to convert a desert to land that could grow crops to help feed the world…is it worth it?


Researchers simulated the effects of around 79 terawatts of solar panels and 3 terawatts of wind turbines. Computer modeling looked at the effect of covering 20 percent of the largest desert on the planet in solar panels and installing three million wind turbines.

There would be 16X the rain in the aridest parts of the Sahara, and double that of the Sahel.

Continue reading “Using 82 Terawatts of solar and wind to Green the Sahara as a side effect would cost at least $82 trillion” »

Sep 10, 2018

AI speeds up climate computations

Posted by in categories: climatology, information science, mathematics, robotics/AI, supercomputing

Realistic climate simulations require huge reserves of computational power. An LMU study now shows that new algorithms allow interactions in the atmosphere to be modeled more rapidly without loss of reliability.

Forecasting global and local climates requires the construction and testing of mathematical . Since such models must incorporate a plethora of physical processes and interactions, climate simulations require enormous amounts of . And even the best models inevitably have limitations, since the phenomena involved can never be modeled in sufficient detail. In a project carried out in the context of the DFG-funded Collaborative Research Center “Waves to Weather”, Stephan Rasp of the Institute of Theoretical Meteorology at LMU (Director: Professor George Craig) has now looked at the question of whether the application of can improve the efficacy of climate modelling. The study, which was performed in collaboration with Professor Mike Pritchard of the University of California at Irvine und Pierre Gentine of Columbia University in New York, appears in the journal PNAS.

General circulation models typically simulate the global behavior of the atmosphere on grids whose cells have dimensions of around 50 km. Even using state-of-the-art supercomputers the relevant that take place in the atmosphere are simply too complex to be modelled at the necessary level of detail. One prominent example concerns the modelling of clouds which have a crucial influence on climate. They transport heat and moisture, produce precipitation, as well as absorb and reflect solar radiation, for instance. Many clouds extend over distances of only a few hundred meters, much smaller than the grid cells typically used in simulations – and they are highly dynamic. Both features make them extremely difficult to model realistically. Hence today’s models lack at least one vital ingredient, and in this respect, only provide an approximate description of the Earth system.

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Sep 10, 2018

SpaceX launches heavy telecom satellite, sticks high-seas landing

Posted by in categories: climatology, drones, satellites

ICYMI overnight: A little more than an hour after its launch window opened—the delay was due to remnant thunderstorms in the area—#SpaceX’s Falcon 9 rocket launched from Florida early on Monday morning. The rocket’s first stage made a flawless flight, and then descended to a drone ship in the Atlantic Ocean and safely landed.


The company has now flown 16 missions this year.

Continue reading “SpaceX launches heavy telecom satellite, sticks high-seas landing” »

Sep 7, 2018

Adding clean energy to the Sahara could make it rain (and not just figuratively)

Posted by in categories: climatology, computing, solar power, sustainability

Think of the Sahara, with its windswept dunes shining in the sunlight. Some people might see barren land, with minimal water or life and scorching temperatures. Others see a potential solution to a looming energy crisis, and one that could potentially make it rain in one of the largest deserts in the world.

In a paper published this week in Science researchers found that by building out huge wind and solar farms across the desert, they could not only provide a stunning amount of power to Europe, Africa, and the Middle East, but they could simultaneously change the climate—increasing heat, but also increasing precipitation and vegetation in areas that could sorely use the added greenery. They estimate that such a venture could double the rainfall in the region, and increase vegetation cover by about 20 percent.

How much green are we talking? The Sahara covers 3.55 million square miles (9.2 million square kilometers). In the study, the researchers ran computer models that placed wind turbines across the desert close to a mile apart, and covered 20 percent of the desert with solar panels in different configurations (sometimes the panels were spread across the desert in a checkerboard pattern, and in other cases were concentrated in quadrants). Smaller coverage produced smaller climate impacts—in this case, less precipitation—but much of it depended on the location of the turbines and panels as well. For example, installing panels in the northwest corner had a larger impact than the other three desert options.

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Sep 4, 2018

Misinterpretation of Climate Data Comes Down to Political Loyalty

Posted by in category: climatology

If you turn down the partisanship, you turn up the public understanding.

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Sep 2, 2018

This Invention Will Keep Water Running After a Caribbean Hurricane Hits

Posted by in categories: climatology, innovation

Now, another hurricane season is already underway in the Caribbean.

Our research on rainwater harvesting — a low-cost, low-tech way to collect and store rainwater — suggests this technique could be deployed across the Caribbean to improve these communities’ access to water both after storms and in everyday life.

Even before hurricanes Maria and Irma hit last September, some Caribbean islands were unable to provide reliable clean water for drinking and washing to all residents.

Continue reading “This Invention Will Keep Water Running After a Caribbean Hurricane Hits” »

Aug 21, 2018

Ecosystems are getting greener in the Arctic

Posted by in categories: climatology, sustainability

In recent decades, scientists have noted a surge in Arctic plant growth as a symptom of climate change. But without observations showing exactly when and where vegetation has bloomed as the world’s coldest areas warm, it’s difficult to predict how vegetation will respond to future warming. Now, researchers at the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) and UC Berkeley have developed a new approach that may paint a more accurate picture of Arctic vegetation and our climate’s recent past – and future.

In a study published online Aug. 20 in Nature Climate Change, the researchers used satellite images taken over the past 30 years to track – down to a pixel representing approximately 25 square miles – the ebb and flow of in cold areas of the northern hemisphere, such as Alaska, the Arctic region of Canada, and the Tibetan Plateau.

The 30-year historic satellite data used in the study were collected by the National Oceanic and Atmospheric Administration’s Advanced Very High Resolution Radiometer. The data was processed by Boston University, and is hosted on NEX – the NASA Earth Exchange data archive.

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