Environmental impact of the oil shale industry

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File:Kivioli chemical plant.JPG
Kiviõli Oil Shale Processing & Chemicals Plant in Ida-Virumaa, Estonia

Environmental impact of the oil shale industry includes the consideration of issues such as land use, waste management, and water and air pollution caused by the extraction and processing of oil shale. Surface mining of oil shale deposits causes the usual environmental impacts of open-pit mining. In addition, the combustion and thermal processing generate waste material, which must be disposed of, and harmful atmospheric emissions, including carbon dioxide, a major greenhouse gas. Experimental in-situ conversion processes and carbon capture and storage technologies may reduce some of these concerns in future, but may raise others, such as the pollution of groundwater.[1]

Surface mining and retorting

Land use and waste management

Surface mining and in-situ processing requires extensive land use. Mining, processing and waste disposal require land to be withdrawn from traditional uses, and therefore should avoid high density population areas.[2] Oil shale mining reduces the original ecosystem diversity with habitats supporting a variety of plants and animals. After mining the land has to be reclaimed. However, this process takes time and cannot necessarily re-establish the original biodiversity.[2][3] The impact of sub-surface mining on the surroundings will be less than for open pit mines. However, sub-surface mining may also cause subsidence of the surface due to the collapse of mined-out area and abandoned stone drifts.[2]

Disposal of mining wastes, spent oil shale (including semi-coke) and combustion ashes needs additional land use. According to the study of the European Academies Science Advisory Council, after processing, the waste material occupies a greater volume than the material extracted, and therefore cannot be wholly disposed underground. According to this, production of a barrel of shale oil can generate up to 1.5 tons of semi-coke, which may occupy up to 25% greater volume than the original shale.[2] This is not confirmed by the results of the Estonia's oil shale industry. The mining and processing of 1000 million tons of oil shale in Estonia has created about 360-370 million tons of solid waste, of which 90 million tons is a mining waste, 70–80 million tons is a semi-coke, and 200 million tons are combustion ashes.[4]

The waste material may consist of several pollutants including sulfates, heavy metals, and polycylic aromatic hydrocarbons (PAHs), some of which are toxic and carcinogenic.[5][6] To avoid contamination of the groundwater, the solid waste from the thermal treatment process is disposed in an open dump (landfill or "heaps"), not underground. As semi-coke consists of, in addition to minerals, up to 10 % organics that may pose hazard to the environment owing to leaching of toxic compounds as well as to the possibility of self-ignition.[4]

Water management

Mining influences the water runoff pattern of the area affected. In some cases it requires the lowering of groundwater levels below the level of the oil shale strata, which may have harmful effects on the surrounding arable land and forest.[2] In Estonia, for each cubic meter of oil shale mined, 25 cubic meters of water must be pumped from the mine area.[7] At the same time, the thermal processing of oil shale needs water for quenching hot products and the control of dust. Water concerns are particularly sensitive issue in arid regions, such as the western part of the United States and Israel's Negev Desert, where there are plans to expand the oil shale industry.[8] Depending on technology, above-ground retorting uses between one and five barrels of water per barrel of produced shale oil.[1][9][9][10][11][12] In situ processing, according to one estimate, uses about one-tenth as much water.[13]

Water represents the major vector of transfer of oil shale industry pollutants. One environmental issue is to prevent noxious materials leaching from spent shale into the water supply.[2] The oil shale processing is accompanied by the formation of process waters and waste waters containing phenols, tar and several other products, heavily separable and toxic to the environment.[4] A 2008 programmatic environmental impact statement issued by the United States Bureau of Land Management stated that surface mining and retort operations produce 2 to 10 U.S. gallons (7.6 to 38 l; 1.7 to 8.3 imp gal) of waste water per 1 short ton (0.91 t) of processed oil shale.[11]

Air pollution management

Main air pollution is caused by the oil shale-fired power plants, which provide the atmospheric emissions of gaseous products like nitrogen oxides, sulfur dioxide and hydrogen chloride, and the airborne particulate matter (fly ash). It includes particles of different types (carbonaceous, inorganic ones) and different sizes.[14][15] The concentration of air pollutants in flue gas depends primarily on the combustion technology and burning regime, while the emissions of solid particles are determined by the efficiency of fly ash-capturing devices.[14]

Open deposition of semi-coke causes distribution of pollutants in addition to aqueous vectors also via air (dust).[4]

Greenhouse gas emissions

Carbon dioxide emissions from the production of shale oil and shale gas are higher than conventional oil production and a report for the European Union warns that increasing public concern about the adverse consequences of global warming may lead to opposition to oil shale development.[1][2]

Emissions arise from several sources. These include CO2 released by the decomposition of the kerogen and carbonate minerals in the extraction process, the generation of the energy needed to heat the shale and in the other oil and gas processing operations, and fuel used in the mining of the rock and the disposal of waste.[2][14][16] As the varying mineral composition and calorific value of oil shale deposits varies widely, the actual values vary considerably.[2] At best, the direct combustion of oil shales produces carbon emissions similar to those from the lowest form of coal, lignite, at 2.15 moles CO2/MJ,[2] an energy source which is also politically contentious due to its high emission levels.[17][18] For both power generation and oil extraction, the CO2 emissions can be reduced by better utilization of waste heat from the product streams.

In-situ processing

Currently, the in-situ process is the most attractive proposition due to the reduction in standard surface environmental problems. However, in-situ processes do involve possible significant environmental costs to aquifers, especially since in-situ methods may require ice-capping or some other form of barrier to restrict the flow of the newly gained oil into the groundwater aquifers. However, after the removal of the freeze wall these methods can still cause groundwater contamination as the hydraulic conductivity of the remaining shale increases allowing groundwater to flow through and leach salts from the newly toxic aquifer.[10][19]

See also

References

  1. 1.0 1.1 1.2 Bartis, Jim (2006-10-26). "Unconventional Liquid Fuels Overview" (PDF). World Oil Conference. Boston: Association for the Study of Peak Oil & Gas - USA. http://www.aspo-usa.com/fall2006/presentations/pdf/Bartis_J_Boston_2006.pdf. Retrieved 2007-06-28.
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  8. Speckman, Stephen (2008-03-22). "Oil-shale 'rush' is sparking concern". Deseret News. http://deseretnews.com/article/1,5143,695263708,00.html. Retrieved 2008-08-24.
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  12. Luken, Larry (2005-07-09). "Oil Shale Myths". Shale Oil Information Center. http://www.shaleoilinfo.org/library/citizens/lukens2005Jul09.php. Retrieved 2008-04-01.
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  17. "The Greens Won't Line Up For Dirty Brown Coal In The Valley". Australian Greens Victoria. 2006-08-18. Archived from the original on 24 June 2007. http://web.archive.org/web/20070624164045/http://www.vic.greens.org.au/media/media-releases-2006/the-greens-won-t-line-up-for-dirty-brown-coal-in-the-valley. Retrieved 2007-06-28.
  18. "Greenpeace Germany Protests Brown Coal Power Stations". Environment News Service. 2004-05-28. Archived from the original on 30 September 2007. http://web.archive.org/web/20070930203414/http://www.ens-newswire.com/ens/may2004/2004-05-28-02.asp. Retrieved 2007-06-28.
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External links and further reading

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