A super fast acid cloud detected on Venus
Lurking just below the atmosphere of Venus is a wall of acid clouds that whip around the planet at speeds close to that of a commercial air jet on Earth.
The newly discovered atmospheric “feature” looms about 31 miles (50 kilometers) below the thick cloud tops of Venus and is extensive, sometimes stretching as far as 4,660 miles (7,500 km) across the equator and mid-latitudes of Venus. And it’s been there for at least three decades.
It may seem odd that such a huge feature went undiscovered for so long, given that spacecraft have visited Venus sporadically since 1962, and high-resolution telescopes have been gazing at the planet for years before that. And the first hint that something strange was happening came from the Japanese Akatsuki spacecraft that has been orbiting Venus since 2015.
It took a new survey of archival footage, however, to determine the cloud wall has been there since at least 1983. “We needed access to a large, growing and scattered collection of images of Venus gathered in recent decades with different telescopes,” study co-author Pedro Machado, a researcher with Portugal’s Institute of Astrophysics and Space Sciences, said in a statement.
The archival footage came from observatories including the Galileo National Telescope in the Canary Islands and the NASA Infrared Telescope Facility in Hawaii.
Enormous cloud patterns in the upper atmosphere are already well-known at Venus, including a bizarre “Y” shape that may arise from centrifugal forces, and a bow wave that could arise from air flow over static ground features like mountains. The newly discovered cloud wall, however, is at a lower altitude and in a region of Venus’ atmosphere where the greenhouse effect is quite pronounced, keeping the surface at lead-melting temperatures of 870 degrees Fahrenheit (465 degrees Celsius).
Researchers suggest the cloud wall could be linked to the mysterious and long-observed fast rotation in Venus’ upper atmosphere. The newly found feature could potentially dump enough momentum and energy to fuel the fast winds further up, lead author Javier Peralta, an astrophysicist at the Japanese Aerospace Exploration Agency (JAXA, which runs the Akatsuki mission), said in the same statement. That’s because the cloud wall zooms above the surface at jet-like speeds of 203 miles (328 km) an hour.
What causes the cloud wall is still unknown and will require further research, the team said. However, the researchers added, the feature could be an atmospheric “Kelvin” wave, a class of atmospheric gravity waves that has already been observed at Venus. Gravity waves in a planet’s atmosphere (not to be confused with gravitational waves) happen when winds move at high speed over static geological features like a crater wall or a mountain; the updraft rises and sinks in a layer of stable air just above the feature.
A study based on the research was published on May 27 in the journal Geophysical Research Letters.
Read more at www.space.com
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Charles Higley
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“Venus’ atmosphere where the greenhouse effect is quite pronounced”
There is no greenhouse effect on Venus. This statement is junk science.
A greenhouse effect involves insolation reaching the surface, heating the surface, and radiation IR back upward that then is supposedly absorbed and sent back downward as IR. Not getting into the fact that the surface would always be hotter than the atmosphere doing the absorption and downwelling IR and thus not possible, we have to recognize that Venus has a permanent cloud deck and solar energy never reaches the surface directly to cause the claimed effect.
The temperature of the planet is entirely explained by its gravitational field and atmospheric density. It has nothing to do with the composition of the atmosphere.
It’s called gravitational compression and occurs when air goes up (causing cooling by adiabatic expansion) and over a range of mountains (causing heating as the air goes down the mountain and is compressed). In our Western mountain ranges, it wet on the west side and deserts on the east side.
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