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Difference between revisions of "Fugitive emissions"

(Created page with "'''Fugitive emissions''' are emissions of gases or vapors from pressurized equipment due to leaks and other unintended or irregular releases of gases, mostly from industri...")
 
 
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'''Fugitive emissions''' are emissions of gases or vapors from pressurized equipment due to [[leak]]s and other unintended or irregular releases of gases, mostly from industrial activities. As well as the economic cost of lost commodities, fugitive emissions contribute to [[air pollution]] and [[climate change]]. A detailed inventory of [[greenhouse gas]] emissions from upstream Petroleum industry activities in Canada for the year 2000 estimated that fugitive equipment leaks had a global warming potential equivalent to the release of 17 million metric tonnes of [[carbon dioxide]], or 12 per cent of all greenhouse gases emitted by the sector.<ref>{{Cite document | last = Clearstone Engineering | year =1994 | title = A National Inventory of Greenhouse Gas (GHG), Criteria Air Contaminant (CAC) and Hydrogen Sulphide (H2S) Emissions by the Upstream Oil and Gas Industry, Volume 1, Overview of the GHG Emissions Inventory | pages = v | publisher = Canadian Association of Petroleum Producers | url = http://www.capp.ca/default.asp?V_DOC_ID=763&PubID=86220 | accessdate =2008-12-10 | postscript = <!--None-->}}</ref> Venting of natural gas, [[Gas flare|flaring]], accidental releases and storage losses accounted for an additional 38 per cent.  
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'''Fugitive emissions''' are emissions of gases or vapors from pressurized equipment due to leaks and other unintended or irregular releases of gases, mostly from industrial activities. As well as the economic cost of lost commodities, fugitive emissions contribute to [[air pollution]] and [[climate change]]. A detailed inventory of [[greenhouse gas]] emissions from upstream Petroleum industry activities in Canada for the year 2000 estimated that fugitive equipment leaks had a global warming potential equivalent to the release of 17 million metric tonnes of [[carbon dioxide]], or 12 per cent of all greenhouse gases emitted by the sector.<ref>{{Cite document | last = Clearstone Engineering | year =1994 | title = A National Inventory of Greenhouse Gas (GHG), Criteria Air Contaminant (CAC) and Hydrogen Sulphide (H2S) Emissions by the Upstream Oil and Gas Industry, Volume 1, Overview of the GHG Emissions Inventory | pages = v | publisher = Canadian Association of Petroleum Producers | url = http://www.capp.ca/default.asp?V_DOC_ID=763&PubID=86220 | accessdate =2008-12-10 | postscript = <!--None-->}}</ref> Venting of natural gas, [[Gas flare|flaring]], accidental releases and storage losses accounted for an additional 38 per cent.  
  
 
Fugitive emissions present other risks and hazards. Emissions of [[volatile organic compounds]] such as benzene from [[Refinery|oil refineries]] and chemical plants pose a long term health risk to workers and local communities. In situations where large amounts of flammable liquids and gases are contained under pressure, leaks also increase the risk of fire and explosion.
 
Fugitive emissions present other risks and hazards. Emissions of [[volatile organic compounds]] such as benzene from [[Refinery|oil refineries]] and chemical plants pose a long term health risk to workers and local communities. In situations where large amounts of flammable liquids and gases are contained under pressure, leaks also increase the risk of fire and explosion.

Latest revision as of 19:53, 21 August 2015

Fugitive emissions are emissions of gases or vapors from pressurized equipment due to leaks and other unintended or irregular releases of gases, mostly from industrial activities. As well as the economic cost of lost commodities, fugitive emissions contribute to air pollution and climate change. A detailed inventory of greenhouse gas emissions from upstream Petroleum industry activities in Canada for the year 2000 estimated that fugitive equipment leaks had a global warming potential equivalent to the release of 17 million metric tonnes of carbon dioxide, or 12 per cent of all greenhouse gases emitted by the sector.[1] Venting of natural gas, flaring, accidental releases and storage losses accounted for an additional 38 per cent.

Fugitive emissions present other risks and hazards. Emissions of volatile organic compounds such as benzene from oil refineries and chemical plants pose a long term health risk to workers and local communities. In situations where large amounts of flammable liquids and gases are contained under pressure, leaks also increase the risk of fire and explosion.

Leaks from pressurized process equipment generally occur through valves, Pipe_flanges, mechanical seals, or related equipment. Fugitive emissions also occur at evaporative sources such as waste water treatment ponds and storage tanks. Because of the huge number of potential leak sources at large industrial facilities and the difficulties in detecting and repairing some leaks, fugitive emissions can be a significant proportion of total emissions. Though the quantities of leaked gases may be small, gases that have serious health or environmental impacts can cause a significant problem.

To minimize and control leaks at process facilities operators carry out regular leak detection and repair activities. Routine inspections of process equipment with gas detectors can be used to identify leaks and estimate the leak rate in order to decide on appropriate corrective action. Proper routine maintenance of equipment reduces the likelihood of leaks.

Because of the technical difficulties and costs of detecting and quantifying actual fugitive emissions at a site or facility, and the variability and intermittent nature of emission flow rates, bottom-up estimates based on standard emission factors are generally used for annual reporting purposes.

New technologies are under development that could revolutionize the detection and monitoring of fugitive emissions. One technology, known as differential absorption (DIAL), can be used to remotely measure concentration profiles of hydrocarbons in the atmosphere up to several hundred meters from a facility. DIAL has been used for refinery surveys in Europe for over 15 years. A pilot study carried out in 2005 using DIAL found that actual emissions at a refinery were fifteen times higher than those previously reported using the emission factor approach. The fugitive emissions were equivalent to 0.17% of the refinery throughput.[2]

Portable gas leak imaging cameras are also a new technology that can be used to improve leak detection and repair, leading to reduced fugitive emissions. The cameras use infrared imaging technology to produce video images in which invisible gases escaping from leak sources can be clearly identified.

See also

References

  1. Template:Cite document
  2. Chambers, Allan; Tony Wootton; Jan Moncrieff; Philip McCready (August 2008). "Direct Measurement of Fugitive Emissions of Hydrocarbons from a Refinery". Journal of the Air & Waste Management Association 58 (8): 1047–1056.  Category:Pages using citations with accessdate and no URL

External links