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Quantitative reports of methane leaks often use the [[standard cubic foot]] (scf) of the [[United States customary system]]. Applied to natural gas, a complex mixture of uncertain proportions, and depending on pressure and temperature conditions, the accuracy of calculations converting scf to metric units of mass is subject to limitations. A conversion figure given is 5 x 10<sup>4</sup> scf of natural gas as {{convert|1.32|short ton}}.<ref>{{cite web |title=Conversion of volume of natural gas to mass of natural gas |url=https://cimarron.com/conversion-of-volume-of-natural-gas-to-mass-of-natural-gas/ |website=Cimarron |date=12 January 2021}}</ref>
Quantitative reports of methane leaks often use the [[standard cubic foot]] (scf) of the [[United States customary system]]. Applied to natural gas, a complex mixture of uncertain proportions, and depending on pressure and temperature conditions, the accuracy of calculations converting scf to metric units of mass is subject to limitations. A conversion figure given is 5 x 10<sup>4</sup> scf of natural gas as {{convert|1.32|short ton}}.<ref>{{cite web |title=Conversion of volume of natural gas to mass of natural gas |url=https://cimarron.com/conversion-of-volume-of-natural-gas-to-mass-of-natural-gas/ |website=Cimarron |date=12 January 2021}}</ref>


For detection sensitivity, quantitative criteria are typically stated in units of standard cubic feet per hour (scf/h, "skiff", US), or thousand standard cubic feet per day (Mscf/d); or with metric units kilograms per hour (kg/hr), cubic meters per day (m3/d).<ref>{{cite web |title=Understanding Methane Detection Sensitivity {{!}} Bridger Photonics |url=https://www.bridgerphotonics.com/blog/understanding-methane-detection-sensitivity |website=www.bridgerphotonics.com}}</ref>
For detection sensitivity, quantitative criteria are typically stated in units of standard cubic feet per hour (scf/h, "skiff", US), or thousand standard cubic feet per day (Mscf/d); or with metric units kilograms per hour (kg/hr), cubic meters per day (m3/d).<ref>{{cite web |title=Understanding Methane Detection Sensitivity, Bridger Photonics |url=https://www.bridgerphotonics.com/blog/understanding-methane-detection-sensitivity |website=www.bridgerphotonics.com}}</ref>

To describe the mass balance of methane in the atmosphere, mass rates are described in units of Tg/yr, i.e. [[teragram]]s per year where a teragram is 10<sup>6</sup> tonnes (megagrams).<ref>{{cite book |last1=Khalil |first1=M. A. K. |title=Atmospheric Methane: Sources, Sinks, and Role in Global Change |date=29 June 2013 |publisher=Springer Science & Business Media |isbn=978-3-642-84605-2 |page=173 |url=https://books.google.co.uk/books?id=tbXtCAAAQBAJ&pg=PA173 |language=en}}</ref>


== References ==
== References ==

Revision as of 09:04, 24 August 2023

Methane plume over Turkmenistan, 2020 image from the Sentinel-5 Precursor satellite

A methane leak comes from an industrial facility or pipeline and means a significant natural gas leak: the term is used for a class of methane emissions. Satellite data enables the identification of super-emitter events that produce methane plumes. Over 1,000 methane leaks of this type were found worldwide in 2022.[1] As with other gas leaks, a leak of methane is a safety hazard: coalbed methane in the form of fugitive gas emission has always been a danger to miners. Methane leaks also have a serious environmental impact. Natural gas can contain some ethane and other gases, but from both the safety and environmental point of view the methane content is the major factor.

As a greenhouse gas and climate change contributor, methane ranks second, following carbon dioxide. Fossil fuel exploration, transportation and production is responsible for about 40% of human-caused methane emissions.[1] Smaller leaks than can be spotted from space comprise a long tail of emissions. They can be identified from planes flying at 900 meters (3,000 ft).[2] According to Fatih Birol of the International Energy Agency, "Methane emissions are still far too high, especially as methane cuts are among the cheapest options to limit near-term global warming".[1]

Examples of methane leaks

Individual methane leaks as reported are specific events, with a large quantity of gas released. An example followed the 2022 Nord Stream pipeline sabotage. Following early reports that the escape might exceed 105 tonnes, The International Methane Emissions Observatory of the United Nations Environment Programme analysed the release. In February 2023 it put the mass of methane gas in the range 7.5 to 23.0 x 104 tonnes. In terms of overall human-made methane emissions, these figures are under 0.1% of the annual total.[3][4]

Satellite data detection has shown that methane super emitter sites in Turkmenistan, USA and Russia are responsible for the biggest number of events from fossil fuel facilities. Equipment failures are normally responsible for the releases, which can last for weeks.[5]

The Aliso Canyon gas leak of 2015 has been quantified as at least 1.09 x 105 tonnes of methane.[6]

Spain's Technical University of Valencia, in a study published in 2022, found that a super emitter event at a gas and oil platform in the Gulf of Mexico released around 4 x 104 tonnes of methane during a 17-day time period in December 2021.[7] Another major event in 2022 was a leak of 427 tonnes an hour in August, near Turkmenistan's Caspian coast and a major pipeline.[5]

Units

Quantitative reports of methane leaks often use the standard cubic foot (scf) of the United States customary system. Applied to natural gas, a complex mixture of uncertain proportions, and depending on pressure and temperature conditions, the accuracy of calculations converting scf to metric units of mass is subject to limitations. A conversion figure given is 5 x 104 scf of natural gas as 1.32 short tons (1.20 t).[8]

For detection sensitivity, quantitative criteria are typically stated in units of standard cubic feet per hour (scf/h, "skiff", US), or thousand standard cubic feet per day (Mscf/d); or with metric units kilograms per hour (kg/hr), cubic meters per day (m3/d).[9]

To describe the mass balance of methane in the atmosphere, mass rates are described in units of Tg/yr, i.e. teragrams per year where a teragram is 106 tonnes (megagrams).[10]

References

  1. ^ a b c Carrington, Damian (6 March 2023). "Revealed: 1,000 super-emitting methane leaks risk triggering climate tipping points". The Guardian.
  2. ^ "In Plane Sight: How to measure methane leaks". Climate Investment. 30 November 2021.
  3. ^ McVeigh, Karen; Oltermann, Philip (28 September 2022). "Nord Stream gas leaks may be biggest ever, with warning of 'large climate risk'". The Guardian.
  4. ^ "UNEP finds Nord Stream gas leak may be the highest methane emission event, but still a drop in the ocean". UNEP - UN Environment Programme. 20 February 2023.
  5. ^ a b "How secretive methane leaks are driving climate change". UNEP. 19 July 2022.
  6. ^ "Aliso Canyon Natural Gas Leak, California Air Resources Board". ww2.arb.ca.gov.
  7. ^ "Methane emissions detected over offshore platform in the Gulf of Mexico". www.esa.int.
  8. ^ "Conversion of volume of natural gas to mass of natural gas". Cimarron. 12 January 2021.
  9. ^ "Understanding Methane Detection Sensitivity, Bridger Photonics". www.bridgerphotonics.com.
  10. ^ Khalil, M. A. K. (29 June 2013). Atmospheric Methane: Sources, Sinks, and Role in Global Change. Springer Science & Business Media. p. 173. ISBN 978-3-642-84605-2.
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