The following content is sponsored by the Skyharbour Resources
The Next Generation of Uranium Deposits
Government policies are shifting in favor of nuclear energy as countries try to reduce carbon emissions.
Unlike coal, oil, or gas, nuclear power plants produce little to no CO2. As a result, nuclear is the second largest source of low-carbon electricity in the world, behind hydropower.
In this infographic from Skyharbour Resources, we look closely at the next generation of uranium deposits necessary to power up the nuclear sector.
The Uranium Supply Squeeze
Roughly 440 nuclear reactors operating worldwide generate around 10% of the world’s electricity annually.
In the United States, for example, nuclear energy provides 52% of carbon-free electricity, and in the European Union, it accounts for 43%. In three European countries, the share of nuclear energy in the electricity mix exceeds 50%.
RankCountryNuclear Share of Electricity Mix
#1France 70.6%
#2Slovakia 53.1%
#3Ukraine 51.2%
#4Hungary 48.0%
#5Bulgaria 40.8%
#6Belgium 39.1%
#7Slovenia 37.8%
#8Czechia 37.3%
#9Armenia 34.5%
#10Finland 33.9%
#11Switzerland 32.9%
#12Sweden 29.8%
#13South Korea 29.6%
#14Spain 22.2%
#15Russia 20.6%
#16Romania 19.9%
#17United States 19.7%
#18Canada 14.6%
#19United Kingdom 14.5%
#20Germany 11.3%
All of the world’s nuclear reactors are powered by uranium. They require approximately 67,500 tonnes of uranium annually. However, the uranium market has been in a growing deficit since 2015, with the widening demand-supply gap being filled by civil stockpiles and secondary sources.
The World Nuclear Association expects a 27% increase in demand between 2021 and 2030.
In addition, the recent energy crisis following Russia’s invasion of Ukraine has led investors to the uranium market, betting on nuclear energy to shift away from fossil fuels. In this scenario, new uranium mines are expected to come online in the next decade to meet the demand.
The World’s Richest Uranium Region
Canada is the world’s second-largest producer of uranium, accounting for roughly 13% of total global output.
The country’s Athabasca Basin has the highest-grade uranium deposits in the world, with grades that are 10 to 100 times greater than the global average. The Northern area covers almost a quarter of Saskatchewan and a small portion of Alberta.
The region— sometimes described as the “Persian Gulf of uranium” — is home to Cameco’s Cigar Lake, the world’s richest uranium mine.
According to the Fraser Institute, Saskatchewan ranks #2 as one of the top mining jurisdictions in the world. The province appears only behind Western Australia regarding geologic attractiveness, government policy, and attitudes toward exploration investment.
In recent years, many uranium companies have made uranium discoveries in the basin, with Skyharbour Resources among them. The company holds an extensive portfolio of fifteen uranium exploration projects, ten of which are drill-ready, covering 450,000 hectares of mineral claims.
The U.S. Nuclear Future
While the Biden administration is urging lawmakers to pass a $4.3 billion plan to purchase enriched uranium from domestic producers, the country’s production is still considered small in scale.
For this reason, Athabasca Basin and companies like Skyharbour Resources are expected to play a key role in the U.S.’ nuclear future.
Skyharbour Resources is becoming an industry leader in high-grade Canadian uranium exploration needed for nuclear power and clean energy.
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