dohboi wrote:"seeping from natural gas deposits"
That's what I've always thought, but I thought the recent scientific study ruled that out.
At the same time, component and isotopic analysis of
gas from the hydrate stability zone in the Prudhoe Bay
area (Collett, 1993) have indicated the possibility of
thermogenic gas within the permafrost section, where
good pathways to lower reservoirs exist. According to
data presented by T.S. Collett, gas in hydrates below
permafrost were of mixed composition: thermogenic
(50-70%) and microbial (30-50%). A part of the hydratecontaining
massif continues into the permafrost zone
without any lithological barrier (except the permafrost
base), so it is possible to suppose that gas within the
permafrost part of this massif has a similar
composition.
When a massive and mysterious hole was discovered in Siberia last July (see pictures), social media users pointed to everything from a meteorite to a stray missile to aliens to the Bermuda Triangle as possible causes. But the most plausible explanation seemed to be the explosive release of melting methane hydrate—an ice-like material frozen in the Arctic ground—thanks to global warming.

Now, scientists are arguing that the methane theory is unlikely, based on new satellite surveys released by Russian researchers that found dozens of new craters in Siberia.
"The jury is still out" on the cause of Siberia's craters, says Carolyn Ruppel, chief of the U.S. Geological Survey's Gas Hydrates Project. But she and other scientists say the new satellite mapping suggests another explanation that has to do with the rapid melting of ice cores called pingos.
A pingo is a plug of ice that forms near the surface over time and has a small mound or hill on top.
When an ice plug melts rapidly—as many have been, thanks to unseasonably warm temperatures in Siberia over the past year—it can cause part of the ground to collapse, forming a crater. But that process alone isn't enough to explain the ejected rocks that have been found around the rim of the craters, which suggest some sort of explosion.
Instead, Ruppel theorizes that the craters were formed by a sudden release of natural gas that had been stored in the permafrost but was kept under pressure by the weight of the pingo.
This theory is bolstered by the Russian satellite data, which show pingos—they appear as small mounds—in the exact positions where the craters later formed.
There are many more pingos across Siberia, as well as on Alaska's North Slope, so there's substantial risk of additional craters opening up as the planet continues to warm, Ruppel says.
"Urgent Investigation"
Until this week, scientists had known about only three of the craters. In November, scientists from the Russian Centre of Arctic Exploration donned climbing gear and explored one of them, which was 54 feet (16.5 meters) deep.
...
But Ruppel says methane hydrates are found only in permafrost on land at about 740 feet (225 meters) or deeper, which is much deeper than any of the observed craters (which are around 50 feet, or 15 meters, deep).
The depth of the Siberian crater is not known. When Plekhanov and his team tried to measure its depth with a video camera tied to a 50-metre rope, the camera did not reach the bottom. But the video footage suggests that the depth to a pool of water at the bottom of the crater is around 70 metres, Plekhanov says. The water could add considerably to that dry depth, he adds.
http://www.nature.com/news/mysterious-s ... ne-1.15649
Just a pingo. Move on folks, nothing to see here.... Professor Vasily Bogoyavlensky, who led the latest expedition, told The Siberian Times: 'I think that next year it will be full of water and it will turn completely into a lake; in 10-20 years it will be difficult to say what happened here. The parapet will be washed away with rains and melting snow, the banks will be covered with water.
'This large crater fills with water rather fast - in just two years, so we need to examine such objects quickly.'
The professor, deputy director of the Moscow-based Oil and Gas Research Institute, part of the Russian Academy of Sciences, said: 'We can now say more confidently about the process that led to the formation of the famous Yamal crater B-1. It was combination of a thermokarst (a form of pre-glacial topography) process and the migration of gases from the depth'.
It was also created from a pingo, he believes, something that experts initially doubted.
'It was a pingo or bulgunnyakh (mounds with an ice core common for Arctic and sub-Arctic regions), and then, due to the Earth’s heat flow this pingo starts to thaw and its half melted ice core is filled with gas that originates from the depth through cracks and faults in the ground.
'We know for sure that there is a fissure in the ground under this spot, probably even two intersecting faults - gullies around the spot confirm this. Through the cracks, natural gas got into the melting ice core, filled it and the pingo erupted. It was also heated by a stream of warmth coming from the bowels of the earth through the cracks.'
It is believed methane gas was largely responsible, though readings taken by the latest expedition showed no abnormal gas levels at the site.
The process is different than usual, because 'normally pingos thaw and collapse, forming the craters and then lakes which is quite a normal process.
'Here we see that the pingo erupts due to the gas which fills its core. It's a very interesting process, which we have never observed before'. ...
Here we see that the pingo erupts due to the gas which fills its core.
It's a very interesting process, which we have never observed before'.
"the formation is something 'never observed' before, linked to warm weather in recent years"
"here the gas went not from the depth via the cracks in the ground, but it was gas hydrate located close to the surface."
dohboi wrote:Except that it's a pingo that explodes! Note the last part of your quote:
Cid_Yama wrote:4. The oil and gas industry has been dealing with rapid hydrate dissociation for decades, This is what causes blowouts on rigs. Drill into a reservoir and release the pressure and you get hydrate dissociation, too much pressure for the rig to handle and you get Deepwater Horizon.
Alfred Tennyson wrote:We are not now that strength which in old days
Moved earth and heaven, that which we are, we are;
One equal temper of heroic hearts,
Made weak by time and fate, but strong in will
To strive, to seek, to find, and not to yield.
The vast deepwater methane hydrate deposits of the Gulf of Mexico are an open secret in big energy circles. They represent the most tantalizing new frontier of unconventional energy — a potential source of hydrocarbon fuel thought to be twice as large as all the petroleum deposits ever known.
For the oil and gas industry, the substances are also known to be the primary hazard when drilling for deepwater oil.
Methane hydrates are volatile compounds — natural gas compressed into molecular cages of ice. They are stable in the extreme cold and crushing weight of deepwater, but are extremely dangerous when they build up inside the drill column of a well. If destabilized by heat or a decrease in pressure, methane hydrates can quickly expand to 164 times their volume.
Survivors of the BP rig explosion told interviewers that right before the April 20 blast, workers had decreased the pressure in the drill column and applied heat to set the cement seal around the wellhead. Then a quickly expanding bubble of methane gas shot up the drill column before exploding on the platform on the ocean's surface.
Even a solid steel pipe has little chance against a 164-fold expansion of volume — something that would render a man six feet six inches tall suddenly the height of the Eiffel Tower.
Scientists are well aware of the awesome power of these strange hydrocarbons. A sudden large scale release of methane hydrates is believed to have caused a mass extinction 55 million years ago. Among planners concerned with mega-disasters, their sudden escape is considered to be a threat comparable to an asteroid strike or nuclear war. The Lawrence Livermore National Laboratory, a Livermore, Ca.-based weapons design center, reports that when released on a large scale, methane hydrates can even cause tsunamis.
So it is not surprising to anyone who knows about the physics of these compounds that the Deepwater Horizon rig was lost like a waterfly crumpled by a force of nature scientists are still just getting to know.
Cid_Yama wrote:Deepwater methane hydrates caused the BP Gulf explosionThe vast deepwater methane hydrate deposits of the Gulf of Mexico are an open secret in big energy circles. They represent the most tantalizing new frontier of unconventional energy — a potential source of hydrocarbon fuel thought to be twice as large as all the petroleum deposits ever known.
For the oil and gas industry, the substances are also known to be the primary hazard when drilling for deepwater oil.
Methane hydrates are volatile compounds — natural gas compressed into molecular cages of ice. They are stable in the extreme cold and crushing weight of deepwater, but are extremely dangerous when they build up inside the drill column of a well. If destabilized by heat or a decrease in pressure, methane hydrates can quickly expand to 164 times their volume.
Survivors of the BP rig explosion told interviewers that right before the April 20 blast, workers had decreased the pressure in the drill column and applied heat to set the cement seal around the wellhead. Then a quickly expanding bubble of methane gas shot up the drill column before exploding on the platform on the ocean's surface.
Even a solid steel pipe has little chance against a 164-fold expansion of volume — something that would render a man six feet six inches tall suddenly the height of the Eiffel Tower.
Scientists are well aware of the awesome power of these strange hydrocarbons. A sudden large scale release of methane hydrates is believed to have caused a mass extinction 55 million years ago. Among planners concerned with mega-disasters, their sudden escape is considered to be a threat comparable to an asteroid strike or nuclear war. The Lawrence Livermore National Laboratory, a Livermore, Ca.-based weapons design center, reports that when released on a large scale, methane hydrates can even cause tsunamis.
So it is not surprising to anyone who knows about the physics of these compounds that the Deepwater Horizon rig was lost like a waterfly crumpled by a force of nature scientists are still just getting to know.
link
I guess it's 164 times it's volume not 70X as I stated earlier.
Permafrost thaw is expected to cause catastrophic lake drainage and potential debris flow in 2015.
A lake in the Northwest Territories is about to fall off a cliff
Alfred Tennyson wrote:We are not now that strength which in old days
Moved earth and heaven, that which we are, we are;
One equal temper of heroic hearts,
Made weak by time and fate, but strong in will
To strive, to seek, to find, and not to yield.
More craters expected to form due to such eruptions as permafrost melts - and they ARE caused by global warming releasing methane gas.
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