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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.
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.
dohboi wrote:"At 400 meters water depth we are already at the limit of the gas hydrate stability. If these waters warm merely by 1,3°C this hydrate lid will permanently lift, and the release will be constant." says Ferré."
https://www.sciencedaily.com/releases/2 ... 111052.htm
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.
Five Hiroshima bombs worth of energy now every single second.
So how much would 2 billion Hiroshima bombs heat the entire ocean system if it got more or less uniformly distributed? This is easy to compute. The mass of the ocean is about 1.3 x 10exp24 grams. The energy of 2 billion Hiroshima bombs is approx. 130 x 10exp21 Joules. the specific heat of water is 4.186 Joules/g°C. Thus the 2.1 billion Hiroshima bombs of heat would warm the ocean by approx.: 0.024°C
rockdoc123 wrote:So how much would 2 billion Hiroshima bombs heat the entire ocean system if it got more or less uniformly distributed? This is easy to compute. The mass of the ocean is about 1.3 x 10exp24 grams......
rockdoc123 wrote:take it up with Gosselin, it was his calculation. He is an engineer so I'd make sure you are right before you attempt to correct him.
EnergyUnlimited wrote:rockdoc123 wrote:So how much would 2 billion Hiroshima bombs heat the entire ocean system if it got more or less uniformly distributed? This is easy to compute. The mass of the ocean is about 1.3 x 10exp24 grams......
For your maths it is nice to remember that 1kt is an equivalent of 1Tcal with quote good accuracy (up to third decimal place).
So for example 1Mt hydrogen bomb will heat 1Pg or 10^15 grams or 1 billion tons or 1km3 of water by 1*C.
So it is really easy: 1Mt bomb will warm 1km3 of water by 1*C
Error below 0.1%.
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.
In the new analysis, Mr. Hausfather and his colleagues assessed three recent studies that better accounted for the older instrument biases. The results converged at an estimate of ocean warming that was higher than that of the 2014 United Nations report and more in line with the climate models.
The waters closest to the surface have heated up the most, and that warming has accelerated over the past two decades, according to data from the lead author of the new study...
Atmospheric methane (CH4) is a potent greenhouse gas, and its mole fraction has more than doubled since the preindustrial era. Fossil fuel extraction and use are among the largest anthropogenic sources of CH4 emissions, but the precise magnitude of these contributions is a subject of debate. Carbon-14 in CH4 (14CH4) can be used to distinguish between fossil (14C-free) CH4 emissions and contemporaneous biogenic sources; however, poorly constrained direct 14CH4 emissions from nuclear reactors have complicated this approach since the middle of the 20th century. Moreover, the partitioning of total fossil CH4 emissions (presently 172 to 195 teragrams CH4 per year) between anthropogenic and natural geological sources (such as seeps and mud volcanoes) is under debate; emission inventories suggest that the latter account for about 40 to 60 teragrams CH4 per year. Geological emissions were less than 15.4 teragrams CH4 per year at the end of the Pleistocene, about 11,600 years ago, but that period is an imperfect analogue for present-day emissions owing to the large terrestrial ice sheet cover, lower sea level and extensive permafrost. Here we use preindustrial-era ice core 14CH4 measurements to show that natural geological CH4 emissions to the atmosphere were about 1.6 teragrams CH4 per year, with a maximum of 5.4 teragrams CH4 per year (95 per cent confidence limit)—an order of magnitude lower than the currently used estimates. This result indicates that anthropogenic fossil CH4 emissions are underestimated by about 38 to 58 teragrams CH4 per year, or about 25 to 40 per cent of recent estimates. Our record highlights the human impact on the atmosphere and climate, provides a firm target for inventories of the global CH4 budget, and will help to inform strategies for targeted emission reductions.
Human-caused emissions of methane from the extraction and use of fossil fuels may have been “severely underestimated”, a new study suggests.
The research indicates that “natural” emissions of fossil methane, that seeps out of deeply-held reserves, make up a much smaller fraction of total methane emissions than previously thought.
This means that the levels of fossil methane in the atmosphere are likely being driven by the methane escaping as coal, oil and natural gas are mined, drilled and transported.
The implication is that methane emissions from fossil fuels are 25-40% higher than earlier estimates suggest, the lead researcher tells Carbon Brief.
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.
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