The history of the oil shale industry started in ancient times. The modern industrial use of oil shale for oil extraction dates to the mid-19th century and started growing just before World War I because of the mass production of automobiles and trucks and the supposed shortage of gasoline for transportation needs. Between the World Wars oil shale projects were begun in several countries. [2]
After World War II, the oil shale industry declined due to increased accessibility to conventional crude oil. [lower-alpha 1] As of 2010, oil shale was commercially used in Estonia, China and Brazil, while several countries are considering to start or restart commercial use of oil shale. [2]
Humans have used oil shale as a fuel since prehistoric times, since it generally burns without any processing. [3] It was also used for decorative purposes and construction. Britons of the Iron Age used to polish and form oil shale into ornaments. [4] Around 3000 BC, "rock oil" was used in Mesopotamia for road construction and making architectural adhesives. [5]
As a decorative material, oil shale was also used over the Greek, Roman, Byzantine, Umayyad and Abbasid periods to decorate mosaics and floors of the palaces, churches and mosques. [6] [7]
Shale oil was used for medical and military purposes. Mesopotamians used it for medical purposes and for caulking ships, Mongols used to cap their arrows with flaming oil shale. [5] In the 10th century, the Arabian physician Masawaih al-Mardini (Mesue the Younger) described a method of extraction of oil from "some kind of bituminous shale". [8] In the early 14th century, the first use of shale oil was recorded in Switzerland and Austria. [9] [10] In 1350, a knight Berthold von Ebenhausen was awarded a right to exploit the Seefeld oil shale in Tyrol. Oil shale was used for production of shale oil using an early retorting method of heating the crushed oil shale put in crucibles. [11] The healing properties of a mineral oil distilled from oil shale were noted in 1596 by the personal physician of the Duke of Württemberg Frederick I. [5]
In Skåne, the Swedish alum shale dating from the Cambrian and Ordovician periods was used for extracting potassium aluminium sulfate by roasting it over fire as early as 1637. [12] In Italy, shale oil was used to light the streets of Modena at the turn of the 17th century. [5] The British Crown granted a patent in 1694 to three persons named Martin Eele, Thomas Hancock and William Portlock who had "found a way to extract and make great quantities of pitch, tarr, and oyle out of a sort of stone." [5] [9] [13] [14] Shale oil was produced by extracting Shropshire oil shale. [15] Later sold as Betton's British Oil, the distilled product was said to have been "tried by divers persons in Aches and Pains with much benefit." [16] In 1781, Archibald Cochrane, 9th Earl of Dundonald, registered a patent for an extraction process to produce tar, pitch and oil from coal and bituminous shales, using masonry retorts and wooden condensers. [17]
In Russia Peter the Great initiated an investigative program of Ukhta oil shale in 1697. Data on physical and chemical properties of Ukhta oil shale was published by a correspondent member of the Russian Academy Tertii Bornovolokov in 1809. [18] In 1769, Peter Simon Pallas described oil shale of the Volga Region. [19] In the 1830s Germain Henri Hess investigated Baltic oil shales with resulting determination of the semicoking process product yields. [18]
Oil shale in Australia was referred to for the first time by François Péron, et al., in Voyage de Découverte aux Terres Australes [20] which was published in Paris in 1807, describing what was probably torbanite from the Newnes deposit. [21]
The modern industrial use of oil shale for oil extraction started in France, where oil shale commercial mining began in Autun in 1837. [23] The shale oil production started in 1838 by using Selligue process, invented by Alexander Selligue. [17] [24] In 1846 the Canadian physician and geologist Abraham Gesner invented a process for retorting an illuminating liquid from coal, bitumen and oil shale. [25] [26] In 1847 the Scottish chemist James Young prepared "lighting oil," lubricating oil and wax from cannel coal and since 1862 from torbanite. [27] In 1850 he patented the process of retorting and refining shale oil and purifying paraffin wax from it. [25] [28] [29] Commercial scale shale oil extraction from lamosite started in 1859 by Robert Bell in Broxburn, West Lothian. [17] After the expiry of Young's patent in 1862 many small shale oil works were opened. [30] By 1865, there were about 120 shale oil works in Scotland. [14] In 1866 Young established Young's Paraffin Light and Mineral Oil Company at Addiewell. Other notable shale oil companies were the Broxburn Oil Company established in 1878 and the Pumpherston Oil Company established in 1892. [30]
In the United States early oil-shale industry concentrated on the eastern oil shale deposits. [31] An oil distillery was built in 1855 at Breckinridge County, Kentucky to produce oil from locally mined cannel coal. By the following year it was producing 600 to 700 US gallons per day (2.3 to 2.6 m3/d). In 1860, there were 55 companies in the United States extracting oil from locally mined cannel coal. [32] Commercial-scale shale oil extraction, other than cannel coal processing, began at shale oil retorts using the Devonian oil shale along the Ohio River Valley in 1857. [24] However, the discovery of cheap and abundant petroleum in the same region, starting with the Drake Oil Well at Titusville, Pennsylvania in 1859, put the American oil shale industry out of business by 1860. [33] [34] The largest deposit, Green River Formation, was accidentally discovered in 1874 but not utilized until beginning of the 20th century. [14]
In 1857, oil shale industry started in Germany. [35] In Canada, the Craigleith Shale Oil Works started to retort oil shale of the Ordovician Whitby Formation near Collingwood, Ontario, on Lake Huron in 1859. [36] [37] In 1861 it became economically infeasible due to the discovery of petroleum nearby. [33]
In Australia, the first oil shale mine was commenced in 1865 at American Creek, Mount Kembla in New South Wales. At the same year, the first shale oil was produced by the Pioneer Kerosene Works at American Creek. [21] [38] A number of other mines and shale oil plants were opened in New South Wales; however, in the beginning of the 20th century they were closed due to the import of cheaper crude oil. [39]
In Austria, oil shale was used in 1840–1882 for production of asphalt mastic, naphtha and asphalt tar. [40] In Sweden, the first attempt to extract oil from alum shale was made in 1864. [41] Shale oil production started in the 1890s and lasted few years. [41] [42] In Brazil, oil shale was first exploited in 1884 in Bahia. [43] In 1900 shale oil extraction industry was initiated also in New Zealand. [33]
In 1894, the Pumpherston retort (also known as the Bryson retort) was invented, which is considered as a separation of the oil shale industry from the coal industry. [44] It stayed in use until 1938. [45]
Operations during the 19th century focused on the production of kerosene, lamp oil, and paraffin wax; these products helped supply the growing demand for lighting that arose during the Industrial Revolution. [46] Fuel oil, lubricating oil and grease, and ammonium sulfate were also produced. [47]
The oil shale industry expanded immediately before World War I because of limited access to conventional petroleum resources and the mass production of automobiles and trucks, which accompanied an increase in gasoline consumption. [48] Oil shale production in Scotland peaked in 1910–1912 with more than three million tonnes. [14] That time Scottish shale oil industry contributed 2% of global oil production. [30] After that, production declined with exception of the period of World War II. [14] In 1919, five survived shale oil companies (Young's Paraffin Light & Mineral Oil Company, Broxburn Oil Company, Pumpherston Shale Oil Company, Oakbank Oil Company, and James Ross & Company Philpstoun Oil Works), were merged into Scottish Oils, a subsidiary of Anglo-Persian Oil Company. [30] [49] [50] [51]
In the United States the government started to create the Naval Petroleum and Oil Shale Reserves in 1909. [52] The reserves were seen as a possible emergency source of fuel for the military, particularly the Navy. [48] The government reserved the Roan Plateau near Rifle, Colorado which later became a federal demonstration and test site. [48] First attempt to produce oil from the western deposits was made in Nevada by local businessman Robert Catlin by acquiring oil-shale properties in the 1890s and erecting the first retorts in 1915 and 1916. Although the attempt was commercially unsuccessful, in 1917 he incorporated Catlin Shale Products Company which made several unsuccessful attempts to sold shale oil products until it was dissolved in 1930. [31] The first attempts to exploit the Green River Formation deposit was made by establishment of The Oil Shale Mining Company in 1916. [31] In 1917, they erected the first commercial retort at the head of Dry Creek, near De Beque, Colorado. [53] However, also these attempts were unsuccessful and by 1926 the company had lost its property. [31] In addition, companies like Cities Service, Standard Oil of California, Texaco and Union started their oil shale operations in 1918–1920. [31] In 1915–1920 about 200 companies were established to exploit oil shale and at least 25 shale oil retorting processes reached to the pilot-plant stage. Discoveries of the large quantities of petroleum in eastern Texas ended the oil-shale boom. [34] One of technological achievements before World War II was invention of the N-T-U retort. In 1925, the NTU Company built a test plant at Sherman Cut near Casmalia, California. [54] [55] In 1925–1929, the retort was also tested by the United States Bureau of Mines in their Oil Shale Experiment Station at Anvil Point in Rifle, Colorado. [31] [54] [56]
During World War I, the German Army produced shale oil from the Jordan oil shale at the Yarmouk area to operate the Hejaz Railway. [6] [57] In 1915 an oil shale industry was established in Switzerland. [9] [33] About 1920, a small mall shale oil extraction plant was opened at Kinnekulle, Sweden. [58] In 1922, a small shale oil extraction plant was opened in Puertollano, Spain. [58]
The year 1916 is considered the beginning of the Estonian oil shale industry. [59] when a group of geologists, led by Nikolay Pogrebov, was sent to Estonia to organise the mining of oil shale and its transportation to Saint Petersburg (then known as Petrograd). In June 1916, the first tonnes of oil shale were mined at Pavandu and delivered to Saint Petersburg Polytechnical University for large-scale experiments. [60] In 1917, Russian paleontologist Mikhail Zalessky named kukersite oil shale after the Kukruse settlement. [61] Continuous mining activities started shortly after. [62] Initially, oil shale was used primarily in the cement industry, for firing in locomotive furnaces, and as a household fuel, followed by shale oil and power production. [63] As of 1925, all locomotives in Estonia were powered by oil shale. [64] The first experimental oil shale processing retorts were built in 1921, using the method developed by Julius Pintsch AG. [63] [65] In 1924, the Tallinn Power Plant was the first power plant in the world to employ oil shale as its primary fuel. [63] [66] In 1939 Estonia mined 1.453 million tonnes of oil shale and produced 181,000 tonnes of shale oil, including 22,500 tonnes of oil that were suitable gasoline equivalents. [67] Almost half of Estonian produced shale oil was exported accounting for 8% of country's total export. [68]
In China, the extraction of oil shale began in 1926 under the Japanese rule. [69] The commercial-scale production of shale oil began in 1930 in Fushun, Manchuria, with the construction of the "Refinery No. 1" operating Fushun-type retorts. [70] In Russia, Kashpirskoye oil shale near Syzran in the Volga region was mined and processed in 1919–1924 and again starting from 1929. [19] Leningradslanets opened the Kirov oil shale mine in 1934 in Slantsy, Leningrad Oblast and shale oil production started in 1939. Saratov and Syzran power stations in Russia started to use oil shale as fuel. [19] In South Africa different attempts of using oil shale were made since beginning of century. In 1903 the Transvaal Oil Shale Syndicate investigated oil shale at Kikvorschfontein. In 1919–1931 the African Oil Corporation investigated oil shale at Kromhoek and Goedgevonden. In 1935, The South African Torbanite Mining and Refining Company, a joint venture of Anglo-Transvaal Consolidated Investment Company and Burmah Oil opened shale oil plant at Ermelo in 1935. [71]
Between the World Wars oil shale projects were also in restarted in Brazil and, for a short time, in Canada. [43]
In 1939–1945, a shale oil pilot plant operated in Morocco. [72] In Australia shale oil production restarted shortly before World War II. In 1937, the National Oil Proprietary was created. The Glen Davis Shale Oil Works became operational at Glen Davis, New South Wales in 1940 as the main facility in the country. [40] [73] In addition, in 1940–1952, three N-T-U retorts were operated at Marangaroo, New South Wales. [54] [74] [75]
In Sweden, Svenska skifferolje AB (Swedish Shale Oil Company) was formed in 1940. [76] It exploited one of the earliest in-situ processes–underground gasification by electrical energy (Ljungström method)–between 1940 and 1966 at Kvarntorp. [77]
During the German occupation of Estonia, Estonia's oil shale industry was merged into a company named Baltische Öl GmbH. This entity was subordinated to Kontinentale Öl , a company that had exclusive rights to oil production in German-occupied territories. [67] [78] The primary purpose of the industry was production of oil for the German Army. [78]
In Germany shale oil extraction started at the Dotternhausen cement factory in 1940. [79] Later the Operation Desert (Unternehmen Wüste) was launched for the oil extraction from Swabian Alb oil shale deposits (Posidonia Shale). However, out of ten planned shale-oil extraction plants only four became operational. The used modified in-situ process was primitive with extremely low oil recovery and it was hard to control. [80]
In 1944 the United States adopted the Synthetic Liquid Fuels Program with goal to establish a liquid fuel supply from domestic oil shale. The Bureau of Mines started mining studies and development of the gas combustion retort process at Anvil Point. [34] In 1943 Mobil Oil built a pilot shale oil extraction plant and in 1944 Union built an experimental oil shale retort. In 1945 Texaco started shale oil refining study. [31]
Although the Estonian, Russian and Chinese oil shale industries continued to grow after World War II, most other countries abandoned their projects due to high processing costs and the availability of cheaper petroleum. [2] [23] The shale oil extraction in Australia was discontinued in 1952 due to ceasing of government funding, in France in 1957, in Britain and South Africa in 1962, and in Sweden and Spain in 1966. [76] [81] In Germany only Rohrbach Zement (now part of Holcim) in Dotternhausen continued using oil shale for cement, power and thermal energy production. [82]
After World War II, the Soviet occupation regime restored the oil shale industry in Estonia. In 1945, the first tunnel kiln was restored and by the end of the 1940s four tunnel kilns had been restored. German prisoners of war contributed most of the labour. [83] In addition to tunnel kilns a number of Kiviter-type retorts and the first Galoter-type retort were built in the 1950s. [63] Since 1948, Estonian-produced oil shale gas was used in Leningrad (Saint Petersburg) and in northern Estonia cities as a substitute for natural gas. [68] [84] [85] During the 1950s, unsuccessful tests of oil shale underground gasification were conducted at Kiviõli. [86] [87] [88] In 1946–1952, uranium compounds were extracted from Graptolitic argillite oil shale in Sillamäe. [89] [90] [91] In 1949, the Kohtla-Järve Power Plant – the first power plant in the world using pulverized oil shale at an industrial scale – was commissioned in Estonia. [63] The world's two largest oil shale-fired power stations – Balti Power Plant and Eesti Power Plant (known as the Narva Power Plants) – were opened in 1965 and in 1973. [92] In 1965, 510 million cubic metres (18×10 9 cu ft) of oil shale gas were produced and 16.5 million tonnes of oil shale were mined in Estonia. [93]
In Russia, the Slantsy oil shale gas extraction plant was built for supplying oil shale gas to Leningrad and the first unit of the Slantsy oil-shale-fired power plant were commissioned in 1952. [84] [94] Since 1955 until 2003, the plant also produced shale oil using Kiviter technology. [95]
In China, the "Refinery No. 2" of Fushun began its production in 1954 and in 1959, the maximum annual shale oil production increased to 780,000 tonnes. [70] [96] [97] The produced shale oil was used for producing light liquid fuels. [97] In 1961, China was producing one third of its total oil production from oil shale. [23] Afterwards the shale oil production decreased due to the discovery of Daqing oil field and increased production of the cheaper conventional petroleum. [97]
In 1951, the United States Department of Defense became interested in oil shale as an alternative resource for producing a jet fuel. [98] The United States Bureau of Mines continued its research program at Anvil Point until 1956. [34] It opened a demonstration mine which operated at a small scale. [48] From 1949 to 1955 it also tested the gas combustion retort. [99] In 1964 the Avril Point demonstration facility was leased by Colorado School of Mines and was used by Mobil-led consortium (Mobil, Humble, Continental, Amoco, Phillips and Sinclair) for further development of that type of retort. [31] [34] In 1953, Sinclair Oil Corporation developed an in-situ processing method using existing and induced fractures between vertical wells. [100] In the 1960s, a proposal known as Project Bronco, was suggested for a modified in situ process which involved creation of a rubble chimney (a zone in the rock formation created by breaking the rock into fragments) using a nuclear explosive. [101] This plan was abandoned by the Atomic Energy Commission in 1968. [52] Companies developing experimental in-situ retorting processes also included Equity Oil, ARCO, Shell Oil and the Laramie Energy Technology Center. [31]
Unocal Corporation started the development of the Union process in the late 1940s, when the Union A retort was designed. [102] This technology was tested between 1954 and 1958 at the company-owned tract in the Parachute Creek. [103] [104] This production was finally shut down in 1961 due to cost. [52] [98] In 1957 Texaco built a shale oil extraction pilot plant to develop its own hydroretorting process. [31] In the early 1960s TOSCO (The Oil Shale Corporation) opened an underground mine and built an experimental plant near Parachute, Colorado. It was closed in 1972 because the price of production exceeded the cost of imported crude oil. [23] [105]
Due to the 1973 oil crisis, the oil shale industry restarted in several countries. The United States Navy and the Office of Naval Petroleum and Oil Shale Reserves started evaluations of oil shale's suitability for military fuels, such as jet fuels, marine fuels and a heavy fuel oil. Shale-oil based JP-4 jet fuel was produced until the early 1990s, when it was replaced with kerosene-based JP-8. [98] Seventeen companies led by Standard Oil of Ohio formed the Paraho Development Corporation to develop the Paraho process. Production started in 1974 but was closed in 1978. [34] In 1974 the United States Department of the Interior announced an oil shale leasing program in the oil shale regions of Colorado and Utah. In 1980 the Synthetic Fuels Corporation was established which operated until 1985. [52]
In 1972, the first modified in situ oil shale experiment in the United States was conducted by Occidental Petroleum at Logan Wash, Colorado. [52] Rio Blanco Oil Shale Company, a partnership between Gulf Oil and Standard Oil of Indiana, originally considered using Lurgi–Ruhrgas above-ground retort but in 1977 switch also to the modified in-situ process. [31] [106] In 1985 the company ceased its operations. [107] The White River Shale Corporation, a partnership of Sun Oil, Phillips and Sohio, existed between 1974 and 1986 for developing the tract in the Uintah Basin on the White River area. [108] [109]
In 1977, Superior Oil Company cancelled its Meeker shale oil plant project. Year later Ashland, Cleveland Cliffs and Sohio exited the Colony Shale Oil Project near Parachute, Colorado. Also, Shell exited the Colony project but continued with in-situ test. [52] The United States oil shale industry collapsed when oil prices fell in the early 1980s. On 2 May 1982, known as "Black Sunday", Exxon cancelled the Colony project due to low oil-prices and increased expenses, laying off more than 2,000 workers. [110] [111] In 1986, President Ronald Reagan signed into law the Consolidated Omnibus Budget Reconciliation Act of 1985 which among other things abolished the United States' Synthetic Liquid Fuels Program. [112] The last oil shale retort in the United States, operated by Unocal Corporation, was closed in 1991. [52]
Because of the success of oil shale-based power generation, Estonian oil shale mining peaked in 1980 at 31.35 million tonnes and oil-shale-based power generation peaked at the same year at 18.9 TWh. [92] [113] [114] The largest oil shale mine in the world – the Estonia Mine – was opened in 1972. [115] In 1980 the Narva Oil Plant was commissioned. [63] [116] [117] The industry declined during the two decades that followed this peak. Demand for locally produced electrical power was reduced by construction of nuclear power stations in the Soviet Union, particularly Leningrad Nuclear Power Station. [92]
In Israel, a 0.1 MW pilot oil shale-fired power plant was tested in 1982–1986. A 12.5 MW fluidised-bed demonstration plant in Mishor Rotem became operational in 1989. [118] In Romania, a 990 MW oil shale-fired power plant at Crivina operated in 1983–1988; however, it was decommissioned due to inefficiency and technical problems. [18] [119] In Brazil a 2,400 tons per day semi-works retort (the Irati Profile Plant) was brought on line in 1972, and began limited commercial operation in 1980. A pilot plant that used Petrosix technology started in 1982. It was followed by a demonstration plant in 1984. A commercial retort was brought into service in December 1991. [120] [121]
The global oil shale industry started to grow slightly in the mid-1990s although most of the industries were ceased in Russia. [122] Oil-shale-fired power stations in Slantsy and Syzran were converted to use natural gas and fuel oil. Also, shale-oil producer Zavod Slantsy ceased oil-shale processing. [19] [122] [123] Only Syzran processing plant continued using oil shale for production of ammonium bituminosulfonate. [19]
Existing shale oil extraction plants in Fushun and Moaming, China, were closed in the beginning of 1990s. However, the new shale oil plants in Fushun consist of 220 retorts and the annual capacity has increased up to 350,000 tonnes of shale oil. [124] Several other projects have been developed in various locations. [96] In 2005, China became the largest shale oil producer in the world with an increased number of companies involved in the shale oil extraction. [124]
After decrease in the beginning of 1990s Estonian oil shale production has continuously increased since 1995. Several new processing plants using modified Galoter technology have been built. [82] In 2006, 90 years after major mining had begun, one billion tonnes were mined. [1] [59] Construction of the new 300 MW oil shale-fired power plant began in 2012. [125]
In Australia, the Alberta Taciuk technology was used for a demonstration-scale processing plant at the Stuart Deposit near Gladstone, Queensland, which produced between 2000 and 2004 over 1.5 million barrels (240×10 3 m3) of shale oil. [126] In 2008–2009, the facility was dismantled and a new demonstration plant based on the Paraho II process was opened in September 2011. [126] [127]
In the United States, an oil shale development program was initiated in 2003. [128] The Energy Policy Act of 2005 introduced a commercial leasing program for oil shale and tar sands resources on public lands within the states of Colorado, Utah, and Wyoming. [129] In 2007, leases were awarded to Chevron Shale Oil, EGL Resources (now American Shale Oil), Oil Shale Exploration Company (now Enefit American Oil) and Shell Frontier Oil & Gas, and in 2010 to ExxonMobil, Natural Soda and AuraSource. [130] Several other companies like Red Leaf Resources and TomCo Energy operates on the private leases. [131] However, Chevron closed its Chevron CRUSH project in 2012 and Shell closed its Mahogany Research Project in 2013. [132] [133] [134]
Since 2006 the government of Jordan has signed a number of memorandum of understanding with foreign companies for shale oil production, including with Petrobras, and has signed concession agreements with Shell, Eesti Energia, Karak International Oil and Saudi Arabian International Corporation for Oil Shale Investment. [135] [136] [137] [138] In 2008, the Ministry of Energy and Mineral Resources of Jordan, the National Electricity Power Company of Jordan, and Eesti Energia signed an agreement to build the 460 MW oil shale-fired Attarat Power Plant. [139] [140]
In 2005 Morocco adopted a new strategy and legal framework for oil shale activities. [141] Since then different agreements have been signed with a number of companies, including Petrobras, Total S.A. and San Leon Energy. [72] In April 2010, the 4th Workshop on Regional Cooperation for Clean Utilization of Oil Shale was held in Egypt and later the same month an Oil Shale Cooperation Center was established in Amman by Egypt, Jordan, Morocco, Syria and Turkey. [72] In 2011, Israel closed the Mishor Rotem Power Station. [142]
In 2013, Uzbekistani national oil company Uzbekneftegaz started construction of the shale oil extraction plant on the Sangruntau oil shale deposit. [143]
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(help)Oil shale is an organic-rich fine-grained sedimentary rock containing kerogen from which liquid hydrocarbons can be produced. In addition to kerogen, general composition of oil shales constitutes inorganic substance and bitumens. Based on their deposition environment, oil shales are classified as marine, lacustrine and terrestrial oil shales. Oil shales differ from oil-bearing shales, shale deposits that contain petroleum that is sometimes produced from drilled wells. Examples of oil-bearing shales are the Bakken Formation, Pierre Shale, Niobrara Formation, and Eagle Ford Formation. Accordingly, shale oil produced from oil shale should not be confused with tight oil, which is also frequently called shale oil.
Shale oil is an unconventional oil produced from oil shale rock fragments by pyrolysis, hydrogenation, or thermal dissolution. These processes convert the organic matter within the rock (kerogen) into synthetic oil and gas. The resulting oil can be used immediately as a fuel or upgraded to meet refinery feedstock specifications by adding hydrogen and removing impurities such as sulfur and nitrogen. The refined products can be used for the same purposes as those derived from crude oil.
Viru Keemia Grupp (VKG) is an Estonian holding group of oil shale industry, power generation, and public utility companies.
Oil shale reserves refers to oil shale resources that are economically recoverable under current economic conditions and technological abilities. Oil shale deposits range from small presently economically unrecoverable to large potentially recoverable resources. Defining oil shale reserves is difficult, as the chemical composition of different oil shales, as well as their kerogen content and extraction technologies, vary significantly. The economic feasibility of oil shale extraction is highly dependent on the price of conventional oil; if the price of crude oil per barrel is less than the production price per barrel of oil shale, it is uneconomic.
The oil shale industry is an industry of mining and processing of oil shale—a fine-grained sedimentary rock, containing significant amounts of kerogen, from which liquid hydrocarbons can be manufactured. The industry has developed in Brazil, China, Estonia and to some extent in Germany and Russia. Several other countries are currently conducting research on their oil shale reserves and production methods to improve efficiency and recovery. Estonia accounted for about 70% of the world's oil shale production in a study published in 2005.
Shale oil extraction is an industrial process for unconventional oil production. This process converts kerogen in oil shale into shale oil by pyrolysis, hydrogenation, or thermal dissolution. The resultant shale oil is used as fuel oil or upgraded to meet refinery feedstock specifications by adding hydrogen and removing sulfur and nitrogen impurities.
Oil shale economics deals with the economic feasibility of oil shale extraction and processing. Although usually oil shale economics is understood as shale oil extraction economics, the wider approach evaluates usage of oil shale as a whole, including for the oil-shale-fired power generation and production of by-products during retorting or shale oil upgrading processes.
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.
Oil shale gas is a synthetic non-condensable gas mixture (syngas) produced by oil shale thermal processing (pyrolysis). Although often referred to as shale gas, it differs from the natural gas produced from shale, which is also known as shale gas.
Oil shale in China is an important source of unconventional oil. A total Chinese oil shale resource amounts of 720 billion tonnes, located in 80 deposits of 47 oil shale basins. This is equal to 48 billion tonnes of shale oil. At the same time there are speculations that the actual resource may even exceed the oil shale resource of the United States.
Oil shale in Jordan represents a significant resource. Oil shale deposits in Jordan underlie more than 60% of Jordanian territory. The total resources amounts to 31 billion tonnes of oil shale.
There are two kinds of oil shale in Estonia, both of which are sedimentary rocks laid down during the Ordovician geologic period. Graptolitic argillite is the larger oil shale resource, but, because its organic matter content is relatively low, it is not used industrially. The other is kukersite, which has been mined for more than a hundred years. Kukersite deposits in Estonia account for 1% of global oil shale deposits.
Narva Oil Plant is a commercial scale shale oil retorting facility located in Auvere near Narva, Estonia. The plant produces shale oil from oil shale by using Galoter/Eneffit technology. The facility belongs to Enefit Energiatootmine, a subsidiary of Eesti Energia.
The Kiviter process is an above ground retorting technology for shale oil extraction.
The Galoter process is a shale oil extraction technology for the production of shale oil, a type of synthetic crude oil. In this process, the oil shale is decomposed into shale oil, oil shale gas, and spent residue. Decomposition is caused by mixing raw oil shale with hot oil shale ash generated by the combustion of carbonaceous residue (semi-coke) in the spent residue. The process was developed in the 1950s, and it is used commercially for shale oil production in Estonia. There are projects for further development of this technology and expansion of its usage, e.g., in Jordan and the USA.
The Alberta Taciuk process is an above-ground dry thermal retorting technology for extracting oil from oil sands, oil shale and other organics-bearing materials, including oil contaminated soils, sludges and wastes. The technology is named after its inventor William Taciuk and the Alberta Oil Sands Technology and Research Authority.
Oil shale in Morocco represents a significant potential resource. The ten known oil shale deposits in Morocco contain over 53.381 billion barrels of shale oil. Although Moroccan oil shale has been studied since the 1930s and several pilot plants have extracted shale oil from the local formations, commercial extraction was not underway as of 2011.
Esimene Eesti Põlevkivitööstus was an oil shale company located in Kohtla-Järve, Estonia. It was a predecessor of Viru Keemia Grupp, a shale oil extraction company.
New Consolidated Gold Fields Ltd Estonian Branch was an oil shale company located in Kohtla-Nõmme, Estonia. It was a subsidiary of Consolidated Gold Fields.
Spent shale or spent oil shale is a solid residue from the shale oil extraction process of producing synthetic shale oil from oil shale. It consists of inorganic compounds (minerals) and remaining organic matter known as char—a carbonaceous residue formed from kerogen. Depending on the extraction process and the amount of remaining organic matter, spent shale may be classified as oil shale coke, semi-coke or coke-ash residue, known also as oil shale ash. According to the European Union waste list all these types of spent shale are classified as hazardous waste.