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[[Image:PTT flame 1.jpg|right|thumbnail|300px|Gas flare at Star Refinery, [[Map Ta Phut]], [[Thailand]]]]
[[Image:Biogasholder and flare.JPG|right|thumbnail|300px|[[Biogas]] holder with lightning protection rods and back-up gas vent stack]]
[[Image:MiRO7.jpg|right|thumb|300px|A gas flare at the [[Stanlow Refinery]], [[Ellesmere Port]], [[Cheshire]], [[England]]]]


A '''gas flare''', alternatively known as a '''flare stack''', is an elevated vertical conveyance found accompanying the presence of [[oil well]]s, [[gas well]]s, [[oil rig|rigs]], [[oil refinery|refineries]], [[chemical plant]]s, [[natural gas]] plants, and [[landfill]]s.
They are used to eliminate waste gas which is otherwise not feasible to use or transport. They also act as safety systems for non-waste gas and is released via [[relief valve|pressure relief valve]] when needed to ease the strain on equipment. They protect gas processing equipment from being overpressured. Also in case of an emergency situation, the flare system helps burn out the total reserve gas.<ref>{{cite book|author=John J McKetta, Editor|title=Encyclopedia of Chemical Processing and Design|publisher=Marcel Dekker|year=1985|isbn=0-8247-2491-7|page=144}}</ref><ref>{{cite book|author=Milton R. Beychok|title=[[Fundamentals of Stack Gas Dispersion]]|edition=Fourth edition|publisher=self-published |year=2005|isbn=0-9644588-0-2}} [http://www.air-dispersion.com air-dispersion.com] See Chapter 11, ''Flare Stack Plume Rise''.</ref><ref>[http://aiche.confex.com/aiche/s06/techprogram/P40539.HTM A Proposed Comprehensive Model for Elevated Flare Flames and Plumes], David Shore, Flaregas Corporation, [[AIChE]] 40th Loss Prevention Symposium, April 2006.</ref>
However, flaring poses the serious problem of wasting energy uselessly. Flaring basically consists in burning precious resources instead of using them. It also plays a role in the increase of CO<sub>2</sub> emissions.
== Function ==
On [[drilling rig|oil production rigs]], in [[oil refinery|refineries]] and [[chemical plant]]s, its primary purpose is to act as a safety device to protect vessels or pipes from over-pressuring due to unplanned upsets. Pressure control valves are set at predetermined pressures to release excess gas,  thus allowing continued operation during upset conditions. Whenever plant equipment items are over-pressured, the pressure relief valves on the equipment automatically release gases (and sometimes liquids as well) which are routed through piping runs called ''flare headers'' to the flare stacks. The gases and/or liquids are separated in a flare knock out drum with the gas piped to the flare stacks for burning or for lighter gases venting. The size and brightness of the resulting flame depends upon how much flammable material was released. Typically there may be more than one flare system handling high pressure gas, low pressure gas, sour or corrosive gas, cold gas and wet gas. Vents (unignited flares) are used typically on gas plants for emergency gas disposal and are designed to operate in an emergency at sonic velocity. Flare gas recovery systems are occasionally used to collect low flows of waste gas and return it to the Process Plant as opposed to burning the gas. Steam can be injected into the flame to reduce the formation of black smoke. The injected steam does however make the burning of gas sound louder, which can cause complaints from nearby residents. Compared to the emission of black smoke, it can be seen as a valid trade off. In order to keep the flare system functional, a small amount of purge gas flows  continuously, whilst there are continuously  burning pilots, so that the system is always ready for its primary purpose of burning as an over-pressure safety system. Enclosed ground flares are engineered to eliminate toxic and corrosive components, reduce smoke, and contain the flame within the enclosure. Burn pits are used to dispose of waste hydrocarbon liquids and are increasingly being designed out due to their unacceptable dirty appearance.
== Climatic effects ==
Flaring and venting of [[natural gas]] from oil and gas wells contribution to greenhouse gases has declined by three-quarters in absolute terms since a peak in the 1970s of approximately 110 million metric tons/year of CO<sub>2</sub> and now accounts for 0.5% of all [[human impact on the environment|anthropogenic]] [[carbon dioxide]] emissions.<ref>[http://cdiac.esd.ornl.gov/trends/emis/tre_glob.htm Global, Regional, and National CO<sub>2</sub> Emissions]. In ''Trends: A Compendium of Data on Global Change'', Marland, G., T.A. Boden, and R. J. Andres, 2005, Carbon Dioxide Information Analysis Center, Oak Ridge National Laboratory, U.S. Department of Energy, Oak Ridge, Tennessee.{{Dead link|date=March 2012}}</ref>
Recently, under the [[Kyoto Protocol]], garbage collecting companies in some developing nations have received a carbon bonus for installing combustion devices for the [[methane]] gas produced at their landfills, preventing methane from reaching the atmosphere. When [[landfill gas utilization|burned]], the methane is converted to heat, water and CO<sub>2</sub>. (According to the [[IPCC Third Assessment Report]] report of the [[Intergovernmental Panel on Climate Change|IPCC]], Methane is 23 times more powerful a [[greenhouse gas]] than CO<sub>2</sub>)
== Volume ==
The [[World Bank]] estimates that over 134 [[1000000000 (number)|billion]] cubic metres of natural gas are flared or vented annually, an amount equivalent to more than 20 percent of the United States’ gas consumption or 33 percent of the European Union’s gas consumption per year.<ref>[http://go.worldbank.org/ESORQZPSJ0 The World Bank, ''World Bank, GGFR Partners Unlock Value of Wasted Gas"], ''World Bank'' 14 December 2009. Retrieved 17 March 2010.</ref>
This flaring is highly concentrated: 10 countries account for 70% of emissions, and twenty for 85%. The top ten leading contributors to world gas flaring in 2010, were (in declining order): [[Russia]] (26%), [[Nigeria]] (11%), [[Iran]] (8%), [[Iraq]] (7%), [[Algeria]] (4%), [[Angola]] (3%), [[Kazakhstan]] (3%), [[Libya]] (3%), [[Saudi Arabia]] (3%) and [[Venezuela]] (2%).<ref>[http://web.worldbank.org/WBSITE/EXTERNAL/TOPICS/EXTOGMC/EXTGGFR/0,,contentMDK:22137498~pagePK:64168445~piPK:64168309~theSitePK:578069,00.html Global Gas Flaring reduction, The World Bank], "Estimated Flared Volumes from Satellite Data, 2006-2010." </ref>
== Russian flaring ==
[[Russia]] has announced it will stop the practice of ''gas flaring'' as stated by deputy prime minister Sergei Ivanov on Wednesday September 19, 2007.<ref>[http://news.yahoo.com/s/afp/20070919/sc_afp/russiaclimateenvironmentenergygas_070919174655 News.yahoo.com]</ref> This step was, at least in part, a response to a recent report by the [[National Oceanic and Atmospheric Administration]] (NOAA) that concluded Russia's previous numbers may have been underestimated. The report, which used night time light pollution satellite imagery to estimate flaring, put the estimate for Russia at 50 billion cubic meters while the official numbers are 15 or 20 billion cubic meters. The number for Nigeria is 23 billion cubic meters.<ref>[http://www.boston.com/news/world/europe/articles/2007/06/21/russia_top_offender_in_gas_flare_emissions/ The Boston Globe]: ''Russia top offender in gas-flare emissions.''</ref>
==See also==
*[[Environmental issues in the Niger Delta]] (The Delta is the greatest gas flaring site on Earth.)
*[[Flue-gas stack]]
*[[Relief valve]]
== References ==
<references/>
== External links ==
*[http://www.flaregasrecovery.co.uk/application_gje014.php Flare Gas Recovery - An option to stop flare gas being burned to atmosphere.]
*[http://www.enggcyclopedia.com/calculators/equipment-sizing/flare-stack-sizing-calculator/ Flare Stack sizing calculator]
*[http://www.enviroware.com/modelling-industrial-flares-impacts/ Modelling industrial flares environmental impacts]

Revision as of 16:16, 1 June 2012

Gas flare at Star Refinery, Map Ta Phut, Thailand
Biogas holder with lightning protection rods and back-up gas vent stack

A gas flare, alternatively known as a flare stack, is an elevated vertical conveyance found accompanying the presence of oil wells, gas wells, rigs, refineries, chemical plants, natural gas plants, and landfills.

They are used to eliminate waste gas which is otherwise not feasible to use or transport. They also act as safety systems for non-waste gas and is released via pressure relief valve when needed to ease the strain on equipment. They protect gas processing equipment from being overpressured. Also in case of an emergency situation, the flare system helps burn out the total reserve gas.[1][2][3]

However, flaring poses the serious problem of wasting energy uselessly. Flaring basically consists in burning precious resources instead of using them. It also plays a role in the increase of CO2 emissions.

Function

On oil production rigs, in refineries and chemical plants, its primary purpose is to act as a safety device to protect vessels or pipes from over-pressuring due to unplanned upsets. Pressure control valves are set at predetermined pressures to release excess gas, thus allowing continued operation during upset conditions. Whenever plant equipment items are over-pressured, the pressure relief valves on the equipment automatically release gases (and sometimes liquids as well) which are routed through piping runs called flare headers to the flare stacks. The gases and/or liquids are separated in a flare knock out drum with the gas piped to the flare stacks for burning or for lighter gases venting. The size and brightness of the resulting flame depends upon how much flammable material was released. Typically there may be more than one flare system handling high pressure gas, low pressure gas, sour or corrosive gas, cold gas and wet gas. Vents (unignited flares) are used typically on gas plants for emergency gas disposal and are designed to operate in an emergency at sonic velocity. Flare gas recovery systems are occasionally used to collect low flows of waste gas and return it to the Process Plant as opposed to burning the gas. Steam can be injected into the flame to reduce the formation of black smoke. The injected steam does however make the burning of gas sound louder, which can cause complaints from nearby residents. Compared to the emission of black smoke, it can be seen as a valid trade off. In order to keep the flare system functional, a small amount of purge gas flows continuously, whilst there are continuously burning pilots, so that the system is always ready for its primary purpose of burning as an over-pressure safety system. Enclosed ground flares are engineered to eliminate toxic and corrosive components, reduce smoke, and contain the flame within the enclosure. Burn pits are used to dispose of waste hydrocarbon liquids and are increasingly being designed out due to their unacceptable dirty appearance.

Climatic effects

Flaring and venting of natural gas from oil and gas wells contribution to greenhouse gases has declined by three-quarters in absolute terms since a peak in the 1970s of approximately 110 million metric tons/year of CO2 and now accounts for 0.5% of all anthropogenic carbon dioxide emissions.[4]

Recently, under the Kyoto Protocol, garbage collecting companies in some developing nations have received a carbon bonus for installing combustion devices for the methane gas produced at their landfills, preventing methane from reaching the atmosphere. When burned, the methane is converted to heat, water and CO2. (According to the IPCC Third Assessment Report report of the IPCC, Methane is 23 times more powerful a greenhouse gas than CO2)

Volume

The World Bank estimates that over 134 billion cubic metres of natural gas are flared or vented annually, an amount equivalent to more than 20 percent of the United States’ gas consumption or 33 percent of the European Union’s gas consumption per year.[5]

This flaring is highly concentrated: 10 countries account for 70% of emissions, and twenty for 85%. The top ten leading contributors to world gas flaring in 2010, were (in declining order): Russia (26%), Nigeria (11%), Iran (8%), Iraq (7%), Algeria (4%), Angola (3%), Kazakhstan (3%), Libya (3%), Saudi Arabia (3%) and Venezuela (2%).[6]

Russian flaring

Russia has announced it will stop the practice of gas flaring as stated by deputy prime minister Sergei Ivanov on Wednesday September 19, 2007.[7] This step was, at least in part, a response to a recent report by the National Oceanic and Atmospheric Administration (NOAA) that concluded Russia's previous numbers may have been underestimated. The report, which used night time light pollution satellite imagery to estimate flaring, put the estimate for Russia at 50 billion cubic meters while the official numbers are 15 or 20 billion cubic meters. The number for Nigeria is 23 billion cubic meters.[8]

See also

References

  1. John J McKetta, Editor (1985). Encyclopedia of Chemical Processing and Design. Marcel Dekker. ISBN 0-8247-2491-7. 
  2. Milton R. Beychok (2005). Fundamentals of Stack Gas Dispersion, Fourth edition. self-published. ISBN 0-9644588-0-2.  air-dispersion.com See Chapter 11, Flare Stack Plume Rise.
  3. A Proposed Comprehensive Model for Elevated Flare Flames and Plumes, David Shore, Flaregas Corporation, AIChE 40th Loss Prevention Symposium, April 2006.
  4. Global, Regional, and National CO2 Emissions. In Trends: A Compendium of Data on Global Change, Marland, G., T.A. Boden, and R. J. Andres, 2005, Carbon Dioxide Information Analysis Center, Oak Ridge National Laboratory, U.S. Department of Energy, Oak Ridge, Tennessee.Template:Dead link
  5. The World Bank, World Bank, GGFR Partners Unlock Value of Wasted Gas", World Bank 14 December 2009. Retrieved 17 March 2010.
  6. Global Gas Flaring reduction, The World Bank, "Estimated Flared Volumes from Satellite Data, 2006-2010."
  7. News.yahoo.com
  8. The Boston Globe: Russia top offender in gas-flare emissions.

External links