Eldorado Mine (Northwest Territories)

The Eldorado Mine is a defunct mine located in Port Radium, Northwest Territories, Canada. Radium, uranium and silver were extracted from the mine during several working periods between 1932 and 1982. Uranium from Eldorado was used in the Manhattan Project. The Eldorado Mine is also known as Port Radium, a name adopted for use at this specific site after 1942. The name Port Radium had previously referred to the post office and wireless radio station at Cameron Bay.

Eldorado Mine
A miner hauling silver and radium ore from the Eldorado, c. 1930
Location
Eldorado
LocationPort Radium
TerritoryNorthwest Territories
CountryCanada
Coordinates66.085°N 118.038°W / 66.085; -118.038
Production
ProductsRadium, Uranium, Silver, Copper
History
Discovered1930
Opened1932
Active1932-1940
1942-1960
1975-1982
Closed1982
Owner
CompanyEcho Bay Mines Ltd
Year of acquisition1975

History

Location of Port Radium, Great Bear Lake, Canada

During a field trip along the east arm of Great Bear Lake in August 1900, James McIntosh Bell of the Geological Survey of Canada noted evidences of iron, copper, uranium and cobalt in the vicinity of Echo Bay. Thirty years later, on May 16, 1930, prospector Gilbert LaBine discovered high-grade pitchblende and silver at this site. His company was then known as Eldorado Gold Mines Limited (later renamed Eldorado Mining and Refining Limited).[1]

Eldorado started off as a radium mine in 1932, extracting radium from pitchblende. Radium ores were highly valued at the time because the price of radium salts, used in cancer treatment and then monopolized by Belgium, was US$70,000 per gram. The first concentration plant was a big erection at the site by Allis-Chalmers of Canada in 1933–1934,[2] with a radium refinery built at Port Hope, Ontario. Concentrates and cobbed material were shipped by barge and airplane to rail head at Fort McMurray, Alberta, then by train to Port Hope.

In 1940 the mine closed because of the expansion of European markets for radium. In 1939, at the beginning of World War II, ore from Eldorado had been used in the first chain reaction experiments, and as soon as the scientists had found out that these ores contained a rich store of uranium oxide and were useful as a source of nuclear energy. Gilbert LaBine's company was able to secure a contract with the United States military early in 1942. The Eldorado Mine at Port Radium was secretly expropriated and transferred to the Canadian Government in 1943-1944 and renamed Eldorado Mining and Refining Limited. Uranium ore from the mine was used in the atomic bomb developments of 1945.[3]

Uranium mining continued after World War II. The mine was expensive to operate and grade of the ore was declining, so new technology was brought in to make the isolated mine profitable. The discarded tailings were dredged from the bay when new machinery was installed to recover the uranium content. The underground workings were deepened and the crown corporation sought out additional deposits of uranium across Canada. But in 1960 the original Eldorado Mine was exhausted and closed.

In 1975 the Eldorado Mine was dewatered by Echo Bay Mines Limited to recover old silver and copper minerals. All activity ceased in 1982 and Eldorado Mine and the Port Radium settlement was burned and demolished. In 1999 the Canadian Government signed a commitment with the Deline Dene Band of Sahtu people to have the estimated 1.7 million tonnes of radioactive mine tailings at Port Radium cleaned up. This work was completed in 2007 and monitoring is ongoing.

Geology

The Early Proterozoic Echo Bay Group consists of tuffs, flow rocks, argillite, quartzite, and dolomitic limestone. Uranium ore deposits occur within veins and stockworks which cut through this group, mainly along four parallel fault zones aligned roughly southwest-northeast from Great Bear Lake. The age of uranium mineralization is about 1,400 Ma.[4]

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References

  1. Bothwell 1984.
  2. Bond 2011, chapters 71–84.
  3. Bond 2011, chapter 82.
  4. Heinrich, E. Wm. (1958). Mineralogy and Geology of Radioactive Raw Materials. New York: McGraw-Hill Book COmpany, Inc. pp. 275–279.

Bibliography

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