Global warming potential: Difference between revisions
Add timespan. Rm the odd gas (these are only examples; its link was broken) |
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GWP is based on a number of factors, including the radiative efficiency (heat-absorbing ability) of each gas relative to that of carbon dioxide, as well as the decay rate of each gas (the amount removed from the atmosphere over a given number of years) relative to that of carbon dioxide [http://www.eia.doe.gov/oiaf/1605/gwp.html]. The [[Intergovernmental Panel on Climate Change]] (IPCC) provides the generally accepted values for GWP, which changed slightly between 1996 and 2001 (eg methane was assessed a value of 21 in 1996). An exact definition of how GWP is calculated is to be found in the IPCC's [http://www.grida.no/climate/ipcc_tar/wg1/247.htm 2001 Third Assessment Report]. |
GWP is based on a number of factors, including the radiative efficiency (heat-absorbing ability) of each gas relative to that of carbon dioxide, as well as the decay rate of each gas (the amount removed from the atmosphere over a given number of years) relative to that of carbon dioxide [http://www.eia.doe.gov/oiaf/1605/gwp.html]. The [[Intergovernmental Panel on Climate Change]] (IPCC) provides the generally accepted values for GWP, which changed slightly between 1996 and 2001 (eg methane was assessed a value of 21 in 1996). An exact definition of how GWP is calculated is to be found in the IPCC's [http://www.grida.no/climate/ipcc_tar/wg1/247.htm 2001 Third Assessment Report]. |
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Note that a substances GWP depends also on the timespan over which the potential is calculated. Thus methane has a potential of 23 over 100 years but 62 over 20 years; conversely SF6 has a GWP of 22,000 over 100 years but 15,100 over 20 years. |
Note that a substances GWP depends also on the timespan over which the potential is calculated. Thus methane has a potential of 23 over 100 years but 62 over 20 years; conversely SF6 has a GWP of 22,000 over 100 years but 15,100 over 20 years. |
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Revision as of 19:20, 30 September 2005
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Global warming potential (GWP) is a measure of how much a given mass of greenhouse gas is estimated to contribute to global warming. It is a relative scale which compares the gas in question to that of the same mass of carbon dioxide whose GWP is one.
GWP is based on a number of factors, including the radiative efficiency (heat-absorbing ability) of each gas relative to that of carbon dioxide, as well as the decay rate of each gas (the amount removed from the atmosphere over a given number of years) relative to that of carbon dioxide [1]. The Intergovernmental Panel on Climate Change (IPCC) provides the generally accepted values for GWP, which changed slightly between 1996 and 2001 (eg methane was assessed a value of 21 in 1996). An exact definition of how GWP is calculated is to be found in the IPCC's 2001 Third Assessment Report.
I agree
Note that a substances GWP depends also on the timespan over which the potential is calculated. Thus methane has a potential of 23 over 100 years but 62 over 20 years; conversely SF6 has a GWP of 22,000 over 100 years but 15,100 over 20 years.
Examples:
100 year horizons:
- carbon dioxide has a GWP of exactly 1 (since it is the baseline unit to which all other greenhouse gases are compared.)
- methane has a GWP of 23.
- nitrogen dioxide has a GWP of 296
- the hydrofluorocarbon HFC-23 has a GWP of 12,000
- sulfur hexafluoride (SF6) has the highest charted GWP of 22,200, used as high voltage insulator.