Uranium rose to 79.05 USD/Lbs on June 27, 2025, up 0.70% from the previous day. Over the past month, Uranium's price has risen 9.87%, but it is still 7.81% lower than a year ago, according to trading on a contract for difference (CFD) that tracks the benchmark market for this commodity. Uranium - values, historical data, forecasts and news - updated on June of 2025.

Graph and download economic data for Global price of Uranium (PURANUSDM) from Jan 1990 to Apr 2025 about uranium, World, and price.

In December 2024, the global average price per pound of uranium stood at roughly 60.22 U.S. dollars. Uranium prices peaked in June 2007, when it reached 136.22 U.S. dollars per pound. The average annual price of uranium in 2023 was 48.99 U.S. dollars per pound. Global uranium production Uranium is a heavy metal, and it is most commonly used as a nuclear fuel. Nevertheless, due to its high density, it is also used in the manufacturing of yacht keels and as a material for radiation shielding. Over the past 50 years, Kazakhstan and Uzbekistan together dominated uranium production worldwide. Uranium in the future Since uranium is used in the nuclear energy sector, demand has been constantly growing within the last years. Furthermore, the global recoverable resources of uranium increased between 2015 and 2021. Even though this may appear as sufficient to fulfill the increasing need for uranium, it was forecast that by 2035 the uranium demand will largely outpace the supply of this important metal.

99 Global import shipment records of Uranium U3o8 with prices, volume & current Buyer's suppliers relationships based on actual Global export trade database.

The Triuranium Octoxide (U3O8) market is experiencing significant growth, driven by the increasing demand from nuclear power generation and military applications. While precise market size figures for 2025 are not provided, based on industry reports and considering typical CAGR values for this sector, we can estimate the 2025 market size to be around $15 billion USD. Assuming a conservative Compound Annual Growth Rate (CAGR) of 5% over the forecast period (2025-2033), the market is projected to reach approximately $23 billion USD by 2033. This growth is fueled by several factors. The ongoing expansion of nuclear power plants globally, particularly in Asia and parts of Europe, necessitates a substantial increase in U3O8 supply. Furthermore, advancements in nuclear technology and the development of safer reactor designs contribute to this escalating demand. The market segmentation reveals that In Situ Leach Mining (ISL) dominates the extraction methods, reflecting its cost-effectiveness and environmental advantages. Nuclear power generation remains the primary application, although military applications continue to be a significant market segment. However, the market faces challenges. Geopolitical instability in key uranium-producing regions and fluctuating uranium prices create uncertainty for both producers and consumers. Environmental regulations concerning uranium mining and waste disposal are also restrictive and increasingly stringent, placing pressure on companies to adopt sustainable practices. Despite these restraints, the long-term outlook for the U3O8 market remains positive. The global shift towards cleaner energy sources, along with the increasing reliance on nuclear power as a stable and reliable baseload power source, will continue to drive demand for U3O8 in the coming years. The competitive landscape is characterized by a mix of state-owned enterprises and private companies, with leading players such as Kazatomprom, Cameco, and Orano dominating the market.

Global demand for uranium was forecasted to reach 240 million pounds of U3O8 by 2035. While demand will be growing constantly, supply of uranium was expected to drop over time. It was forecasted that new assets will be required to fill that supply gap.

This analysis presents a rigorous exploration of financial data, incorporating a diverse range of statistical features. By providing a robust foundation, it facilitates advanced research and innovative modeling techniques within the field of finance.

UWE:TSXV U3O8 Corp.

Financial data:

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Machine learning features:

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• Macroeconomic data (e.g., GDP, unemployment rate, interest rates, consumer spending, building permits, consumer confidence, inflation, producer price index, money supply, home sales, retail sales, bond yields)

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Additional Notes:

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• Regular updates are recommended to maintain the accuracy and relevance of the data

Uranium mining in Australia began in 1954 at Rum Jungle in the Northern Territory and Radium Hill in South Australia. The first mining of uranium for electricity generation in nuclear reactors began in 1976, at Mary Kathleen in Queensland. Australia is now the world's second largest producer. In 2004, Canada accounted for 29% of world production, followed by Australia with approximately 22%. Australia's output came from three mines: Ranger, which produced 5138 tonnes of U3O8 (11% of world production), Olympic Dam (4370 t, 9%) and Beverley (1084 t, 2%). Exports have increased steadily to a record level of 9648 tonnes of U3O8 in 2004, valued at A$411 million. Australia's uranium sector is based on world-leading resources and high and increasing annual output. Our resources are generally amenable to low-cost production with minimal long-term environmental and social impacts. Around 85 known uranium deposits, varying in size from small to very large, are scattered across the Australian continent (McKay & Miezitis 2001). After five decades of uranium mining, Australia still has the world's largest uranium resources recoverable at low-cost (less than US$40/kg U, or US$15/lb U3O8). In April 2005, these remaining low-cost resources amounted to 826 650 t U3O8 (= 701 000 t U), or roughly 40% of world resources in this category. Australia's total remaining identified resources in all cost categories amount to 1 347 900 t U3O8.

In 2022, Kazakhstani mining company Kazatomprom was the world's largest producer of uranium by a large margin. Kazatomprom's uranium production amounted to 11,373 metric tons of uranium that year.

BEVERLEY, uranium mineralisation hosted by confined, valley fill fluviatile sands of the lower "upper unit" of the Miocene Namba Formation in the informally named South and Central channels. The deposit was discovered in 1969 after systematic... BEVERLEY, uranium mineralisation hosted by confined, valley fill fluviatile sands of the lower "upper unit" of the Miocene Namba Formation in the informally named South and Central channels. The deposit was discovered in 1969 after systematic drilling away from the Mount Painter Complex. Four ore lenses occur in sand bodies in an inferred NE-trending half graben within the Paralana to Wertaloona Structural Zone, and within a palaeo-drainage about 500 m wide (Beverley Corridor Palaeochannel). Mineralisation is sub-parallel to the Poontana Fault. The Poontana Fault zone is a near-vertical fault that lies immediately to the west of the ore body. Vertical movement along the fault zone appears to have taken place during sedimentation and this appears to have controlled the distribution of the sediments and palaeochannels. The sand lenses formed a pressure aquifer with three palaeochannels comprising the Beverley aquifer. The aquifer is isolated from the Great Artesian Basin groundwater ~150m below, and the small aquifers of the Willawortina Formation above used for stock watering. The mineralisation is located within 3 main orebodies, north, central, and south, in oxidation interfaces trending NNE for ~4 km. Mineralisation occurs at an average depth of 107 m within 4 sand bodies, each up to 10 m thick within a 40 m wide palaeochannel. The ore bodies are overlain by 110-140 m of well clay-bound sands and gravels, and thinner clays. Impermeable, plastic clay and silt separate the aquifer from the underlying Great Artesian Basin. The principal ore mineral is coffinite, an uraniferous hydrosilicate. The uranium was derived by the primary leaching of Proterozoic basement rocks in the Mount Painter uranium field which hosts small uranium deposits in hematite-rich breccias. The total resource was estimated at 7.7 million tonne (Mt) @ 0.27% U3O8 for a contained uranium oxide value of ~21,000 tonne of U3O8 (Heathgate Resources website, 2006). Heathgate Resources Pty Ltd acquired the deposit in 1990, and received Commonwealth and State environmental clearances in April 1999. It was Australia's first uranium mine using in situ leach (ISL) techniques, and was opened in February 2001. Anticipated full production was 1000 tonne/year of U3O8. Production for the period 2001-14 was 8824 tonne U3O8 (includes production of 25 tonne from Pepegoona, ie Beverley North ). Production was suspended December 6 2013 as resources became depleted. The 2018 PEPR records remaining resource is depleted at UOC sales price of US$40/Ib. At US$40/Ib some consideration could be given to mining orebody extensions not yet mined. In 2008 the Beverley Uranium Mine Extension was approved. Near mine exploration continued with uranium mineralisation identified extending east of the mining lease (Beverley East), and also to the south in an area known as Deep South. Satellite deposits at Pepegoona and Pannikan commenced production in 2010, and 2011 respectively, with Pannikan shut down on 16 July 2013, and Pepegoona on 28 January 2014

The Geological Branch estimates that there is a small zone of high-grade ore in the Main Eastern Prospect containing 14,000 - 24,000 tons, averaging between 5 and 10lb. U3O8 per long tonne. The Geological Branch estimates that there is a small zone of high-grade ore in the Main Eastern Prospect containing 14,000 - 24,000 tons, averaging between 5 and 10lb. U3O8 per long tonne.