Uranium mining in Utah

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Mi Vida uranium mine near Moab UraniumMineUtah.JPG
Mi Vida uranium mine near Moab

Uranium mining in Utah, a state of the United States, has a history going back more than 100 years. Uranium mining started as a byproduct of vanadium mining about 1900, became a byproduct of radium mining about 1910, then back to a byproduct of vanadium when the radium price fell in the 1920s. Utah saw a uranium boom in the late 1940s and early 1950s, but uranium mining declined in the 1980s. Since 2001 there has been a revival of interest in uranium mining, as a result of higher uranium prices.

Contents

Uravan mineral belt

Mine waste dumps (gray-green rock) at Shinarump Mine, 10 mi (16 km) northwest of Moab Shinarump Mine Waste Rock.jpg
Mine waste dumps (gray-green rock) at Shinarump Mine, 10 mi (16 km) northwest of Moab

Mining of uranium-vanadium ore in southeast Utah goes back to the late 19th century, at the northern end of the Uravan mineral belt (see Uranium mining in Colorado ), where it crosses into Grand County, Utah. Uranium occurs in the Salt Wash member of the Morrison Formation of Jurassic age. Because much of the value depended on the vanadium content, the only economic ore minerals were carnotite and tyuyamunite. Following World War II buying for nuclear weapons programs made uranium valuable for its own sake, and attracted hundreds of prospectors to southeast Utah. [3]

Lisbon Valley

Geologic map of the Lisbon Valley area with key uranium mines numbered. The Mi Vida Mine is a red number 68. USGS Geologic Map of the Lisbon Valley uranium mines.png
Geologic map of the Lisbon Valley area with key uranium mines numbered. The Mi Vida Mine is a red number 68.

Uranium was discovered in sandstone of the Chinle Formation in Lisbon Valley, San Juan County in 1913, and some carnotite was mined on a small scale for vanadium in 1917, 1940, and 1941. In the uranium mining boom of 1948, mining began in sandstone of the Permian Cutler Formation. Then in 1952, Charles Steen drilled into a rich 70-foot-thick (21 m) uraninite orebody in the Triassic Chinle Formation; that type of deposit became the largest producer in the district. Ore is distributed along 15 mi (24 km) of outcrop on the southwest side of the Lisbon valley anticline. The district produced 49 million pounds (22 kt) of U3O8 (uranium oxide) through 1965. [4]

The Rio Algom Uranium Mill operated from 1972 to 1988. [5]

On November 4, 2016, a historical marker commemorating the Lisbon Valley's uranium heritage and noting Charlie Steen's discovery was dedicated on the Anticline Overlook road off U.S. 191. The marker was funded entirely by private donations. Artist Michael Ford Dunton created an arch to frame the historical marker and the view to the location of the Mi Vida mine, seven miles (11 km) to the east of the marker. [6]

White Canyon and Monument Valley districts

Geologic Cross Section through Monument Valley and White Canyon showing key geologic features. Colorado Plateau Geologic Cross Section.png
Geologic Cross Section through Monument Valley and White Canyon showing key geologic features.

Uranium associated with copper mineralization at the White Canyon district was identified in 1920, but production did not begin until 1946. The geology is similar to that of the Monument Valley uranium district 40 mi (64 km) to the south which straddles the Utah/Arizona state line (see Uranium mining in Arizona ). Uranium occurs in the Shinarump Member [7] of the Triassic Chinle Formation. Primary ore minerals are uraninite and coffinite. Through 1965, the White Canyon district produced 10 million pounds (4.5 kt) of U3O8. [8]

In 2009 White Canyon Uranium opened the Daneros underground mine, 40 miles west of Blanding in the White Canyon District, trucking ore to Denison Mines's White Mesa Mill. Daneros was the first new uranium mine permitted in Utah since the 1980s. In 2011 Denison took over White Canyon Uranium. [9] In 2012 Energy Fuels acquired the Daneros mine from Denison. [10] Energy Fuels produced from the Daneros mine until October 2012, at which time the mine was placed on standby, care, and maintenance. [11]

Marysvale district

At the Marysvale district, in Piute and Sevier counties, uranium occurs in hydrothermal veins in igneous rocks (quartz monzonite, latite porphyry, and aplite). Primary uranium minerals are uraninite and umohoite, with associated gangue minerals pyrite, fluorite, quartz, and adularia. [12]

Silver Reef district

Uranium minerals were noted by 1881 in the silver mines at the Silver Reef/Harrisburg district, at Silver Reef, Washington County. No uranium was extracted until 1950, when a small shipment was made. The uranium occurs as carnotite along with copper mineralization and the silver mineral chlorargyrite in the Chinle Formation. [13] Uranium production has been minor.[ citation needed ]

Yellow Chief mine

Uranium was mined from tuffaceous conglomerate and sandstone of the Miocene Spor Mountain Formation at the Yellow Chief mine in the Thomas Range of Juab County. The uranium ore minerals were beta-uranophane, weeksite, and Schröckingerite. [14]

Bingham Canyon copper mine

The Bingham Canyon Mine in Salt Lake County, a large porphyry copper mine, recovered 120,000 to 150,000 lb (54,000 to 68,000 kg) of uranium oxide each year from 1978 through 1989, as part of its copper mining operation. [15]

Recent activity

White Mesa Mill sign, January 2019 White Mesa Mill sign, January 2019.jpg
White Mesa Mill sign, January 2019

All of Utah’s numerous uranium mines closed prior to 2000 due to low uranium prices.[ citation needed ]

In late 2006, Denison Mines reopened the Pandora mine in the La Sal mining district of southeastern Utah. [16] Denison Mines received all the required permits from the state of Utah and the US Bureau of Land Management to reopen its Tony M uranium mine in the Henry Mountains. The Henry Mountains Complex (including the Tony M mine) has an indicated resource of 12.8 million pounds (5,800 tonnes) of uranium at a grade of 0.27% U3O8. [17]

In 2012 Energy Fuels Inc. acquired all of Denison Mines uranium properties located in the United States, including the White Mesa Mill. The White Mesa Mill, located near Blanding, Utah, is the only conventional uranium (and vanadium) mill operating in the United States. [18] [19]

The Pandora mine and Henry Mountains Complex, in addition to the Beaver and Daneros mines, were placed on standby, care and maintenance by Energy Fuels in the fall of 2012. [20]

See also

Related Research Articles

<span class="mw-page-title-main">Uraninite</span> Uranium-rich oxide mineral

Uraninite, also known as pitchblende, is a radioactive, uranium-rich mineral and ore with a chemical composition that is largely UO2 but because of oxidation typically contains variable proportions of U3O8. Radioactive decay of the uranium causes the mineral to contain oxides of lead and trace amounts of helium. It may also contain thorium and rare-earth elements.

<span class="mw-page-title-main">Carnotite</span> Radioactive mineral

Carnotite is a potassium uranium vanadate radioactive mineral with chemical formula K2(UO2)2(VO4)2·3H2O. The water content can vary and small amounts of calcium, barium, magnesium, iron, and sodium are often present.

<span class="mw-page-title-main">Coffinite</span> Uranium-bearing silicate mineral

Coffinite is a uranium-bearing silicate mineral with formula: U(SiO4)1−x(OH)4x.

<span class="mw-page-title-main">Yellowcake</span> Uranium concentrate powder

Yellowcake is a type of uranium concentrate powder obtained from leach solutions, in an intermediate step in the processing of uranium ores. It is a step in the processing of uranium after it has been mined but before fuel fabrication or uranium enrichment. Yellowcake concentrates are prepared by various extraction and refining methods, depending on the types of ores. Typically, yellowcakes are obtained through the milling and chemical processing of uranium ore, forming a coarse powder that has a pungent odor, is insoluble in water, and contains about 80% uranium oxide, which melts at approximately 2880 °C.

<span class="mw-page-title-main">Uranium mining</span> Process of extraction of uranium ore from the ground

Uranium mining is the process of extraction of uranium ore from the ground. Over 50 thousand tons of uranium were produced in 2019. Kazakhstan, Canada, and Australia were the top three uranium producers, respectively, and together account for 68% of world production. Other countries producing more than 1,000 tons per year included Namibia, Niger, Russia, Uzbekistan, the United States, and China. Nearly all of the world's mined uranium is used to power nuclear power plants. Historically uranium was also used in applications such as uranium glass or ferrouranium but those applications have declined due to the radioactivity of uranium and are nowadays mostly supplied with a plentiful cheap supply of depleted uranium which is also used in uranium ammunition. In addition to being cheaper, depleted uranium is also less radioactive due to a lower content of short-lived 234
U and 235
U than natural uranium.

<span class="mw-page-title-main">Placerville, Colorado</span> Census-designated place in San Miguel County, Colorado, United States

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<span class="mw-page-title-main">Arizona breccia pipe uranium mineralization</span>

During the late 1970s and through the 1980s, Mohave and Coconino County, Arizona, immediately north and south of the Grand Canyon and west of the Navajo Indian Reservation were explored for Arizona breccia pipe uranium mineralization. The search area included the region between the Colorado River and the Utah border known as the “Arizona Strip”.

<span class="mw-page-title-main">Uranium mining in the United States</span> Uranium mining industry in U.S.

Uranium mining in the United States produced 173,875 pounds (78.9 tonnes) of U3O8 in 2019, 88% lower than the 2018 production of 1,447,945 pounds (656.8 tonnes) of U3O8 and the lowest US annual production since 1948. The 2019 production represents 0.3% of the anticipated uranium fuel requirements of the US's nuclear power reactors for the year.

<span class="mw-page-title-main">Copper mining in the United States</span>

In the United States, copper mining has been a major industry since the rise of the northern Michigan copper district in the 1840s. In 2017, the US produced 1.27 million metric tonnes of copper, worth $8 billion, making it the world's fourth largest copper producer, after Chile, China, and Peru. Copper was produced from 23 mines in the US. Top copper producing states in 2014 were Arizona, Utah, New Mexico, Nevada, and Montana. Minor production also came from Idaho, and Missouri. As of 2014, the US had 45 million tonnes of known remaining reserves of copper, the fifth largest known copper reserves in the world, after Chile, Australia, Peru, and Mexico.

<span class="mw-page-title-main">Uranium mining in Colorado</span>

Uranium mining in Colorado, United States, goes back to 1872, when pitchblende ore was taken from gold mines near Central City, Colorado. The Colorado uranium industry has seen booms and busts, but continues to this day. Not counting byproduct uranium from phosphate, Colorado is considered to have the third largest uranium reserves of any US state, behind Wyoming and New Mexico.

<span class="mw-page-title-main">Uranium mining in Wyoming</span>

Uranium mining in Wyoming was formerly a much larger industry than it is today. Wyoming once had many operating uranium mines, and still has the largest known uranium ore reserves of any state in the U.S. At the end of 2008, the state had estimated reserves dependent on price: 539 million pounds of uranium oxide at $50 per pound, and 1,227 million pounds at $100 per pound.

<span class="mw-page-title-main">Uranium ore</span> Economically recoverable concentrations of uranium within the Earths crust

Uranium ore deposits are economically recoverable concentrations of uranium within the Earth's crust. Uranium is one of the most common elements in the Earth's crust, being 40 times more common than silver and 500 times more common than gold. It can be found almost everywhere in rock, soil, rivers, and oceans. The challenge for commercial uranium extraction is to find those areas where the concentrations are adequate to form an economically viable deposit. The primary use for uranium obtained from mining is in fuel for nuclear reactors.

<span class="mw-page-title-main">Uranium mining in Arizona</span>

Uranium mining in Arizona has taken place since 1918. Prior to the uranium boom of the late 1940s, uranium in Arizona was a byproduct of vanadium mining of the mineral carnotite.

<span class="mw-page-title-main">In situ leach</span>

In-situ leaching (ISL), also called in-situ recovery (ISR) or solution mining, is a mining process used to recover minerals such as copper and uranium through boreholes drilled into a deposit, in situ. In situ leach works by artificially dissolving minerals occurring naturally in a solid state. For recovery of material occurring naturally in solution, see: Brine mining.

Uranium mining in New Mexico was a significant industry from the early 1950s until the early 1980s. Although New Mexico has the second largest identified uranium ore reserves of any state in the United States, no uranium ore has been mined in New Mexico since 1998.

The world's largest producer of uranium is Kazakhstan, which in 2019 produced 43% of the world's mining output. Canada was the next largest producer with a 13% share, followed by Australia with 12%. Uranium has been mined in every continent except Antarctica.

<span class="mw-page-title-main">Shinarump Conglomerate</span>

The Shinarump Conglomerate is a geologic formation found in the Four Corners region of the United States. It was deposited in the early part of the Late Triassic period.

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<span class="mw-page-title-main">Temple Mountain (Utah)</span> Mountain in the American state of Utah

Temple Mountain is a remote 6,820-foot (2,080 m) mountain and abandoned town, located on the southeast flank of the San Rafael Swell in Emery County, Utah, United States.

<span class="mw-page-title-main">Uranium mining in the Bancroft area</span> History of mining in Bancroft, Canada

Uranium mining around Bancroft, Ontario, was conducted at four sites, beginning in the early 1950s and concluding by 1982. Bancroft was one of two major uranium-producing areas in Ontario, and one of seven in Canada, all located along the edge of the Canadian Shield. In the context of mining, the "Bancroft area" includes Haliburton, Hastings, and Renfrew counties, and all areas between Minden and Lake Clear. Activity in the mid-1950s was described by engineer A. S. Bayne in a 1977 report as the "greatest uranium prospecting rush in the world".

References

  1. Pinch, W. L. (1954). "Geology of the Shinarump No. 1 Uranium Mine, Seven Mile Canyon Area, Grand County, Utah" (PDF). Geological Survey Circular. 336. Retrieved 2020-03-17.
  2. "Shinarump Mine". Mineral Resource Data System (MRDS). USGS. Retrieved 2020-03-17.
  3. R.P. Fischer (1968) The uranium and vanadium deposits of the Colorado Plateau region, in Ore Deposits in the United States, 1933–1967, New York: American Institute of Mining, Metallurgical, and Petroleum Engineers, p.738.
  4. Hiram B. Wood (1969) Geology and Exploitation of Uranium Deposits in the Lisbon Valley Area, Utah, in Ore Deposits of the United States, 1933–1967, v.1, New York: American Institute of Mining Engineers, p.770-799.
  5. Podmore, Zak (2020-11-26). "Ranchers, landowners worry about copper mine's plan". AP NEWS. Retrieved 2020-12-04.
  6. Marcello, Molly (27 October 2016). "New historical marker installed near Lisbon Valley mine site commemorates region's complex uranium heritage". The Times-Independent. Moab, UT. Retrieved 22 November 2016.
  7. "Shinarump Member of Chinle Formation". Colorado River Basin Stratigraphy. USGS. 2006-05-06. Retrieved 2011-01-10.
  8. Roger C. Malan (1969) The Uranium Mining Industry and Geology of the Monument Valley and White Canyon Districts, Arizona and Utah, in Ore Deposits of the United States, 1933–1967, v.1, New York: American Institute of Mining Engineers, p.790-804.
  9. Peters, Douglas C. (2 March 2018). "Updated Report On The Daneros Mine Project, San Juan County, Utah, U.S.A." (PDF). Denver, CO: Energy Fuels Inc. Retrieved 16 May 2019.
  10. "Energy Fuels Inc., 2012 Annual Information Form" (PDF). Archived from the original (PDF) on 2013-10-19.
  11. "Energy Fuels to Focus on Lower Cost Uranium Production". Reuters. Archived from the original on 2015-09-24. Retrieved 2017-07-03.
  12. Paul F. Kerr and others (1957) Marysvale, Utah, Uranium Area, Geological Society of America, Special paper 64.
  13. Frederick Stugard Jr. (1951) Uranium Resources in the Silver Reef (Harrisburg) District, Washington County, Utah, US Geological Survey, Open-File Report 51-41.
  14. David A. Lindsey (1982) Tertiary Volcanic Rocks and uranium in the Thomas range and Northern Drum Mountains, Juab County, Utah, US Geological Survey, Professional Paper 1221.
  15. Technologically enhanced Naturally Occurring Radioactive Materials from Uranium Mining v.1, US Environmental Protection Agency, EPA 402-R-05-007, p.1-17.
  16. R.L. Bon and K.A. Krahulec, Utah, Mining Engineering, May 2007, p.121.
  17. "Henry Mountains Complex". Lakewood, Colorado: Energy Fuels Inc. 27 June 2012. Retrieved 5 December 2020.
  18. "Energy Fuels Inc., 2012 Annual Information Form" (PDF). Archived from the original (PDF) on 2013-10-19.
  19. Associated, Press. "Energy Fuels to buy Utah's White Mesa uranium mill". The Denver Post.
  20. "Energy Fuels to Focus on Lower Cost Uranium Production". Reuters . Archived from the original on 2015-09-24. Retrieved 2017-07-03.
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