Methane is a weaker, not stronger greenhouse gas
By Gary Novak
Here is simple math which shows that methane is weaker than carbon dioxide as a greenhouse gas. In fact, none of the greenhouse gases can produce heating, because the distance between unsaturated molecules is extreme--like one inch between each methane molecule which supposedly does the heating, and almost one millimeter between each carbon dioxide molecule.
Climatology is so fraudulent that the claims are often the opposite of the obvious truth. The claimed "potency" of methane is an example.
The fake logic is that since methane absorbs more radiation than CO2, it is a stronger (more potent) greenhouse gas. Adding real numbers shows the opposite.
Throughout this subject, fakes use a rudimentary logic which does not account for numerous factors. Here, saturation was not accounted for, even though the IPCC says saturation does occur, but the shoulders of the absorption peaks do not saturate. In other words, a small percent of the molecules actually do the heating. Because of saturation, those supposed molecules get thinner, as absorption strength increases.
In 2001, the IPCC (AR3) stated that saturation exists in these terms: "Carbon dioxide absorbs infrared radiation in the middle of its 15 mm band to the extent that radiation in the middle of this band cannot escape unimpeded: this absorption is saturated. This, however, is not the case for the band's wings. It is because of these effects of partial saturation..."
Carbon dioxide absorbs all radiation available to it in the center of its 15 µm band by the time the radiation travels 10 meters near the earth's surface (Heinz Hug). (http://nov79.com/gbwm/hnzh#ten) Where then is the non-saturation occurring? Let's say non-saturation occurs when the radiation goes beyond the top of the
Consider how far apart these molecules are. A CO2 molecule is about 200 picometers across, and nitrogen about the same. The atmosphere is now about 400 ppm CO2 (molar, molecule for molecule). This means there is 500 nm of distance between each CO2 molecule (1/400 ppm x 200 pm = 500 nm). The 0.00059 which does not saturate would have a spacing of 1,700 times that amount (1/0.00059 = 1,700), which is 0.85 mm. The CO2 molecules which absorb more radiation for supposed global warming are 0.85 mm apart. This distance is visible with the naked eye.
Compare these numbers for methane. Methane is said to have a "potency" of something between 20 and 120 times that of CO2. (Residence time reduces it to about half.) Lets calculate a radiation effect of 30 times that of CO2. Instead of the peak molecules absorbing all radiation in 10 meters, it will be 74 meters (10 ÷ 30 x 400 ÷ 1.8 = 74). The shoulder molecules which absorb all radiation in 17 km would be 0.0044 times total methane (74 m/17 km = 0.0044).
The size of a methane molecule is about 400 pm, but only the nitrogen size is relevant at 200 pm. The atmosphere is about 1.8 ppm methane. The distance between each methane molecule is about 111 microns (1/1.8 ppm x 200 pm = 111 µm). The 0.0044 which does not saturate would have a spacing of 230 times that much (1/0.0044 = 230), which is 26 mm (1 inch). Does one inch between each molecule which adds heat create a potent greenhouse gas?
Even though these gases are uniformly distributed in the atmosphere, the ones which absorb at edge wavelengths have unusually stretched bonds.
The reason for this absurd result is that there are very few methane molecules in the atmosphere. Since they absorb infrared radiation strongly, very few of those molecules are going to be unsaturated. Very few molecules out of very few molecules results in a lot of space between each one.
The fakes didn't notice this, because they use word salad in place of science.
For "potency" test compare 1 x 1019 molecules for CO2 and methane. In one gram of air there are 2.10 x 1022 molecules (80% N2 at 28 mw and 20% O2 at 32 mw). CO2 and methane each are 476 ppm (1 x 1019 ÷ 2.10 x 1022 = 476 ppm). The distance between each molecule of CO2 or methane is 420 nm (1/476 ppm x 200 pm = 420 nm).
The saturation distance for CO2 is 8.4 meters (400 ppm ÷ 476 ppm x 10 m = 8.4 m). The effective shoulder molecules for CO2 is 8.4 m ÷ 17 km = 0.00049 times the center molecules. The distance between shoulder molecules is 1 ÷ 0.00049 x 420 nm = 0.85 mm.
The saturation distance for methane is 8.4 m ÷ 30 = 0.28 m. The effective shoulder molecules for methane is 0.28 m ÷ 17 km = 1.65 x 10-5 times the center molecules. The distance between the shoulder molecules is 1 ÷ 1.65 x 10-5 x 420 nm = 26 mm.
This potency test shows that the rate analysis for adding each molecule of the greenhouse gas is exactly the same as the original distance analysis, which is 0.85 mm between each CO2 molecule on the assumed effective shoulders and 26 mm for methane. Methane shows a distance 31 times greater between molecules than CO2, even when the same amount of increase is made for both and starting with the same concentration for both. More distance between effective molecules of methane means less heat is added to the atmosphere as the concentration of methane increases. So methane is not a more potent greenhouse gas than CO2.
Even though methane absorbs radiation more strongly than CO2, there are less effective molecules supposedly unsaturated on the shoulders, which results in less supposed heat increase upon additions.
Even when the unsaturated distance is considered to be the 17 km to the top of the troposphere, doubling the amount of greenhouse gas reduces the distance of absorption by half, which is 8.5 km. Reducing the distance is not increasing the heat.
Global warming takes Earth to darkness