Uranium rose to 71.75 USD/Lbs on July 11, 2025, up 0.35% from the previous day. Over the past month, Uranium's price has risen 2.87%, but it is still 16.72% 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 July 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.

The average annual price for one pound of uranium was 48.99 U.S. dollars in 2023. This is the highest annual average since 2011, and comes in the wake of greater fuel demand as the global economy began recovering from the coronavirus pandemic as well as the energy crisis.

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Uranium Market Size 2025-2029

The uranium market size is forecast to increase by USD 2.18 billion at a CAGR of 8.2% between 2024 and 2029.

The market is characterized by the rising adoption of uranium in nuclear weapons and nuclear reactors, presenting significant growth opportunities. This is due to the escalating reliance on renewable energy, and the rise in uranium mining initiatives. Uranium's role as a primary fuel source in nuclear energy generation continues to expand, driven by the increasing demand for clean energy and the depletion of conventional energy resources. However, the market faces substantial challenges due to the high initial and production costs of uranium. These costs, coupled with the volatility in uranium prices, pose significant challenges for market participants.
Additionally, investments in research and development of advanced nuclear technologies, such as small modular reactors and nuclear fusion, could offer potential solutions to the high production costs and supply constraints, positioning these companies at the forefront of the evolving market landscape. To capitalize on the growth opportunities and navigate these challenges effectively, companies must focus on optimizing production costs, exploring alternative sources of uranium, and collaborating with industry peers to share best practices and resources. The market is witnessing significant growth due to the increasing adoption of uranium in nuclear weaponry and nuclear reactors.

What will be the Size of the Uranium Market during the forecast period?

Explore in-depth regional segment analysis with market size data - historical 2019-2023 and forecasts 2025-2029 - in the full report.
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The market is characterized by a complex interplay of factors, including nuclear emergency response, fusion power research, and nuclear weapons proliferation and disarmament. Small modular reactors and advanced reactors are gaining traction as solutions for nuclear energy security, while radioactive tracer and isotope production are essential in various industries, from agriculture to medical imaging. Nuclear fuel reprocessing and spent fuel management are critical aspects of nuclear arms control and non-proliferation efforts. Breeder reactors and nuclear forensics contribute to nuclear security, while radiation therapy, protection, and nuclear medicine imaging advance healthcare applications.
Nuclear energy sustainability is a pressing concern, with the need for effective radioactive waste storage and transportation solutions. The Nuclear Security Summit underscores the importance of addressing nuclear terrorism risks. Nuclear magnetic resonance is a versatile technology with applications in various sectors, from materials science to medical research. Additionally, the production cost of uranium and the prices in the market significantly influence the profitability of nuclear power plants.

How is this Uranium Industry segmented?

The uranium industry research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD million' for the period 2025-2029, as well as historical data from 2019-2023 for the following segments.

End-user

  Energy
  Military
  Others


Source

  Primary
  Secondary


Application

  Industrial counterweights
  Radiation shielding
  Medical isotopes


Geography

  North America

    US
    Canada
    Mexico


  Europe

    Germany
    Russia
    Ukraine


  APAC

    Australia
    China
    India


  Rest of World (ROW)

By End-user Insights

The energy segment is estimated to witness significant growth during the forecast period. Uranium plays a crucial role in nuclear power generation, supplying fuel for electricity production in power plants around the world. The global shift towards cleaner energy sources and the rising awareness of carbon footprint reduction have fueled the demand for nuclear power. Nuclear power economics have gained significance, leading to increased investment in uranium production and conversion to uranium hexafluoride for enrichment. Uranium mining continues to be a critical aspect of the industry, with safety, regulation, and sustainability being key considerations. Nuclear power plants require stringent safety measures, including radiation detection and shielding, to ensure reliable operation. Nuclear fuel services provide essential support, from fabrication and licensing to decommissioning and waste management.

Uranium oxide is used in fuel assemblies, while uranium metal is essential for nuclear engineering and innovation. Nuclear power infrastructure development, including construction and technology advancements, continues to drive market growth. Despite the challenges of nuclear power regulation and the presence of nuclear weapons, the industry remains committed to nuclear power safety and security. Uranium enr

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.

Uranium Energy (YCA): The Sun's Yellow Cake, or Just a Fool's Gold Investment?

Financial data:

• Historical daily stock prices (open, high, low, close, volume)

• Fundamental data (e.g., market capitalization, price to earnings P/E ratio, dividend yield, earnings per share EPS, price to earnings growth, debt-to-equity ratio, price-to-book ratio, current ratio, free cash flow, projected earnings growth, return on equity, dividend payout ratio, price to sales ratio, credit rating)

• Technical indicators (e.g., moving averages, RSI, MACD, average directional index, aroon oscillator, stochastic oscillator, on-balance volume, accumulation/distribution A/D line, parabolic SAR indicator, bollinger bands indicators, fibonacci, williams percent range, commodity channel index)

Machine learning features:

• Feature engineering based on financial data and technical indicators

• Sentiment analysis data from social media and news articles

• 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)

Potential Applications:

• Stock price prediction

• Portfolio optimization

• Algorithmic trading

• Market sentiment analysis

• Risk management

Use Cases:

• Researchers investigating the effectiveness of machine learning in stock market prediction

• Analysts developing quantitative trading Buy/Sell strategies

• Individuals interested in building their own stock market prediction models

• Students learning about machine learning and financial applications

Additional Notes:

• The dataset may include different levels of granularity (e.g., daily, hourly)

• Data cleaning and preprocessing are essential before model training

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

Enriched Uranium Market Outlook

The global enriched uranium market is projected to grow significantly from an estimated market size of USD 10.8 billion in 2023 to USD 17.6 billion by 2032, reflecting a compound annual growth rate (CAGR) of approximately 5.5% during this period. This growth trajectory is fueled by an increasing demand for nuclear energy as a reliable and less carbon-intensive power source, which is driving the need for enriched uranium. Additionally, advancements in nuclear technology and a concerted global effort to reduce greenhouse gas emissions bolster the market's expansion. The strategic importance of enriched uranium in both energy production and national security further contributes to its growing market demand.

One of the primary growth factors behind the enriched uranium market is the global shift towards sustainable and low-carbon energy sources. As countries strive to meet international climate commitments and reduce reliance on fossil fuels, nuclear power emerges as a viable alternative. Enriched uranium, being the primary fuel for nuclear reactors, is integral to this shift. The operational efficiency of nuclear power plants, along with their ability to produce significant amounts of energy with minimal environmental impact, makes them attractive to both developed and developing nations. This growing adoption of nuclear energy worldwide significantly boosts the demand for enriched uranium.

Technological advancements in the nuclear sector are also a crucial driver of market growth. Innovations such as next-generation reactors, which offer enhanced safety features and higher efficiency, require enriched uranium for fuel. These reactors are designed to utilize uranium more effectively, reducing waste and increasing output. Furthermore, developments in uranium enrichment technologies, like laser enrichment and centrifuge methods, have made the enrichment process more efficient and cost-effective, thus supporting market expansion. As these technological developments continue to progress, they provide a strong impetus for the enriched uranium market.

Another significant factor contributing to market growth is the geopolitical landscape. Nations are increasingly prioritizing energy security and independence, wherein enriched uranium plays a strategic role. This is particularly evident in countries that lack substantial fossil fuel resources and rely on nuclear power to ensure a stable energy supply. Additionally, the military applications of enriched uranium, particularly in defense and strategic deterrence, further drive demand. The dual-use nature of enriched uranium, serving both civilian and military purposes, underscores its importance and stimulates market growth.

Regionally, the Asia Pacific stands out as a rapidly growing market for enriched uranium, driven by the expansion of nuclear power infrastructure in countries like China and India. These nations are investing heavily in nuclear technology to support their robust energy needs and reduce carbon emissions. North America and Europe also remain significant contributors to the market, with the U.S. and France being key players due to their extensive nuclear power networks. The Middle East & Africa and Latin America, while smaller markets, are exploring nuclear energy as part of their long-term energy strategies, potentially increasing their demand for enriched uranium.

Product Type Analysis

In the enriched uranium market, the segmentation by product type includes low-enriched uranium (LEU) and highly enriched uranium (HEU). Low-enriched uranium, which contains a lower concentration of uranium-235 isotope, is predominantly used in nuclear power generation. This segment represents a major portion of the market as it serves the widespread demand for civilian nuclear energy. The global emphasis on transitioning to clean energy sources and reducing carbon emissions is expected to spur the demand for LEU significantly. Furthermore, advancements in reactor designs that require LEU ensure its pivotal role in the nuclear fuel cycle, thus bolstering market growth.

On the other hand, highly enriched uranium, which has a higher concentration of uranium-235, is mainly used in military applications, including nuclear weapons and naval propulsion. While its market size is smaller compared to LEU due to stringent regulations and limited applications, HEU remains strategically vital. Countries continue to prioritize their defense capabilities, which drives demand for HEU despite international non-proliferation efforts. Additionally, research reactors, which often require HEU for their oper

Yellow Cake predicted to experience steady growth with moderate risk. Favorable market conditions, increasing demand for uranium, and a strong track record of dividend payments support positive predictions. However, fluctuations in the uranium market and macroeconomic factors pose potential risks to investors.

If I were to boil the thesis down to a few bullets, I’d say: Uranium is an essential input for nuclear reactors with no substitute. Following the Fukushima disaster, there was a massive supply glut as reactors were taken offline due to safety concerns Now a supply crunch is looming, with a current market deficit of ~40m lbs Nuclear power plants usually contract uranium supplies several years out before their inventory gets run down. Due to the oversupply coming out of the previous cycle, however, they have been purchasing additional supply needs in the spot market instead of contracting years in advance. 13f filings indicate that the power plants’ coverage rates (contracted lbs of uranium supply / lbs of uranium required) are beginning to trend below 100%, indicating utilities have less locked-in supply than they need to keep running their reactors, at a time when market supply is tightening (note utilities typically look to maintain coverage ratios well above 100% to ensure no unforeseen shortfalls) Global demand for uranium is increasing, with ~56 new reactors under construction an a further 99 in planning currently. Nuclear power currently generates ~10% of the world’s electricity but with the closure of coal and fossil fuel power plants due to ESG considerations, nuclear energy is increasingly being seen as the only viable way to make up up the lost energy capacity. Putting all of this together, a fundamental supply/demand imbalance for an essential commodity with price insensitive buyers and ESG tailwinds makes the bull case extremely compelling. But a picture is worth a thousand words, so some historic charts probably best provide a sense of the future upside expected in the next cycle. Using the data of form 8k, at the peak of the previous uranium bull market in 2007 (when there was no supply deficit) the uranium spot price reached ~$136/lb after a run up from ~$15/share at the start of 2004 (~9x increase). Today the current price is ~$42/lb with the view that the price will reach new highs in this coming cycle: Many uranium investors, based on the majority of form 10q, focus on the miners rather than the commodity as being the way to play the new uranium bull market, as these are more levered to price increases in the underlying commodity. The share price for Canadian-based Cameco Corporation (CCO / CCJ, the second largest uranium producer in the world) increased from USD $3/share to $55/share ( ~18x bagger) during the previous bull market from ~2004 – 2007: While Cameco’s performance was impressive, it was not the biggest winner during the previous uranium bull market. Australian miner Paladin Energy ($PALAF) went from AUD $0.01 to AUD $10.70 (~1000x! ) between late 2003 and the market peak in Q1 2007, according to their stock price in Google Sheets: Similar multibagger returns for uranium stocks will be seen again if a new bull market in uranium materializes in the coming 2-3 years when utilities’ uranium supply falls to inoperable levels & they begin contracting again for new supplies. Based on SEC form 4, Paladin in particular is expected to be big winner in any new bull market, as it operates one of the lowest cost uranium mines in the world, the Langer Heinrich mine in Namibia, which was a fully producing mine before being idled in the last bear market. As such, it is a ready-to-go miner rather than a speculative prospect, and so is in a position to immediately capitalise on an uptick in uranium prices and a new contracting cycle with utilities. Given the extent of the structural supply/demand imbalance (which again wasn’t present during the previous bull market) combined with utilities likely becoming forced purchasers of uranium at almost any price, market commentators are forecasting the uranium spot price to reach highs of up to $150/lb, thus enabling the producers to contract at price levels 3x+ the current spot price, driving a massive increase in profitability and cash flows. With some very interesting dynamics and the sprott uranium trust acting as a catalyst, I think the uranium market has the potential to offer a really unique and asymmetric return over the next 2 years. To reproduce this analysis, use this guide on how to get stock price in Excel. You will also need high-quality stock data, I recommend you check out Finnhub Stock Api Cheers!

Global demand for uranium is forecast to reach *** 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.

Uranium Prices: 35 years of historical data from 1990 to 2025.

Uranium Hexafluoride Market Outlook

The global uranium hexafluoride market size is projected to grow from $2.5 billion in 2023 to $4.3 billion by 2032, registering a compound annual growth rate (CAGR) of 6.4% during the forecast period. This growth is primarily driven by the increasing demand for nuclear energy as countries across the globe aim to achieve carbon neutrality and reduce reliance on fossil fuels. The substantial development in nuclear technology and the construction of new nuclear power plants are also contributing significantly to the market's expansion. Furthermore, advancements in nuclear fuel cycle technologies and the rise in investments for uranium enrichment processes are fueling the demand for uranium hexafluoride globally.

The growing emphasis on clean energy sources is a significant factor propelling the uranium hexafluoride market. With global energy demands on the rise and the pressing need to reduce carbon emissions, nuclear power is garnering attention as a sustainable alternative to traditional energy sources. Uranium hexafluoride, a critical component in the nuclear fuel cycle, is essential for producing enriched uranium, which serves as fuel for nuclear reactors. Countries like China and India, with their ambitious nuclear power expansion plans, are significantly boosting the demand for uranium hexafluoride. Moreover, as more countries aim to achieve net-zero emissions, nuclear energy is expected to play a pivotal role, further bolstering the market.

Another growth factor is the technological advancements in uranium enrichment processes. Innovations in enrichment technologies not only enhance efficiency but also reduce the environmental impact of uranium processing. Technologies such as laser isotope separation and gas centrifuge enrichment are gaining traction due to their cost-effectiveness and lower environmental footprint compared to traditional methods. These advancements are expected to drive the demand for enriched uranium hexafluoride, thereby positively impacting market growth. Additionally, the ongoing research and development activities aimed at improving nuclear fuel cycles and enhancing the safety of nuclear reactors are likely to create lucrative opportunities in the uranium hexafluoride market.

The increasing investments in nuclear energy infrastructure are also stimulating market growth. Governments and private sector entities are allocating substantial resources to develop robust nuclear energy facilities. These investments are crucial for expanding nuclear power capacity and securing a stable supply of nuclear fuel, including uranium hexafluoride. The construction of new nuclear power plants and the refurbishment of existing ones are leading to a heightened demand for uranium hexafluoride. Additionally, geopolitical factors such as energy security concerns and the need for energy independence are compelling nations to invest in nuclear energy, which in turn propels the growth of the uranium hexafluoride market.

The role of Nuclear Fuel Tubes is critical in the overall nuclear fuel cycle, as they serve as the containment for nuclear fuel pellets within a reactor. These tubes are designed to withstand extreme conditions, including high temperatures and radiation, ensuring the safe and efficient operation of nuclear reactors. The demand for high-quality nuclear fuel tubes is increasing alongside the growth of nuclear power plants, as they are essential for maintaining reactor integrity and performance. Manufacturers are focusing on developing advanced materials and designs to enhance the durability and efficiency of these tubes, which are crucial for the safe containment of nuclear fuel. As the nuclear industry continues to expand, the innovation in nuclear fuel tube technology will play a significant role in supporting the reliability and sustainability of nuclear power generation.

Regionally, the uranium hexafluoride market is witnessing varied growth rates, with the Asia Pacific region emerging as a key player. The region's rapid industrialization and urbanization are driving energy demands, prompting countries like China and India to invest heavily in nuclear power projects. North America and Europe are also significant contributors to the market, with both regions focusing on modernizing their nuclear power infrastructure and adopting advanced nuclear technologies. While the Middle East and Africa and Latin America are currently smaller markets, their potential for growth remains substantial, especially as countries in these regions explore nuclear energy options to diversi

Nuclear Energy Index rose to 37.72 USD on July 11, 2025, up 1.75% from the previous day. Over the past month, Nuclear Energy Index's price has risen 4.31%, and is up 20.90% compared to the same time last year, according to trading on a contract for difference (CFD) that tracks the benchmark market for this commodity. This dataset includes a chart with historical data for Nuclear Energy Index.

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.

Uranium Royalty Corp. (UROY): Will the King of Nuclear Energy Power its Way to Success?

Financial data:

• Historical daily stock prices (open, high, low, close, volume)

• Fundamental data (e.g., market capitalization, price to earnings P/E ratio, dividend yield, earnings per share EPS, price to earnings growth, debt-to-equity ratio, price-to-book ratio, current ratio, free cash flow, projected earnings growth, return on equity, dividend payout ratio, price to sales ratio, credit rating)

• Technical indicators (e.g., moving averages, RSI, MACD, average directional index, aroon oscillator, stochastic oscillator, on-balance volume, accumulation/distribution A/D line, parabolic SAR indicator, bollinger bands indicators, fibonacci, williams percent range, commodity channel index)

Machine learning features:

• Feature engineering based on financial data and technical indicators

• Sentiment analysis data from social media and news articles

• 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)

Potential Applications:

• Stock price prediction

• Portfolio optimization

• Algorithmic trading

• Market sentiment analysis

• Risk management

Use Cases:

• Researchers investigating the effectiveness of machine learning in stock market prediction

• Analysts developing quantitative trading Buy/Sell strategies

• Individuals interested in building their own stock market prediction models

• Students learning about machine learning and financial applications

Additional Notes:

• The dataset may include different levels of granularity (e.g., daily, hourly)

• Data cleaning and preprocessing are essential before model training

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

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

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.

Energy Fuels Sees Uranium Demand Boosting Shares. (UUUU)

Financial data:

• Historical daily stock prices (open, high, low, close, volume)

• Fundamental data (e.g., market capitalization, price to earnings P/E ratio, dividend yield, earnings per share EPS, price to earnings growth, debt-to-equity ratio, price-to-book ratio, current ratio, free cash flow, projected earnings growth, return on equity, dividend payout ratio, price to sales ratio, credit rating)

• Technical indicators (e.g., moving averages, RSI, MACD, average directional index, aroon oscillator, stochastic oscillator, on-balance volume, accumulation/distribution A/D line, parabolic SAR indicator, bollinger bands indicators, fibonacci, williams percent range, commodity channel index)

Machine learning features:

• Feature engineering based on financial data and technical indicators

• Sentiment analysis data from social media and news articles

• 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)

Potential Applications:

• Stock price prediction

• Portfolio optimization

• Algorithmic trading

• Market sentiment analysis

• Risk management

Use Cases:

• Researchers investigating the effectiveness of machine learning in stock market prediction

• Analysts developing quantitative trading Buy/Sell strategies

• Individuals interested in building their own stock market prediction models

• Students learning about machine learning and financial applications

Additional Notes:

• The dataset may include different levels of granularity (e.g., daily, hourly)

• Data cleaning and preprocessing are essential before model training

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

Uranium 2020: Resources, Production and Demand Table 1.2a. Identified resources (recoverable)(as of 1 January 2019, tonnes U, rounded to nearest 100 tonnes).* Secretariat estimate. (a) Not reported in 2019 responses, data from previous Red Book. (b) Assessment partially made within the last five years.(c) Assessment not made within the last five years. (d) In situ resources were adjusted by the Secretariat to estimate recoverable resources using recovery factors provided by countries or estimated by the Secretariat. (e) Cost data not provided, therefore resources are reported in the <USD 260/kgU category. (f) Updated to report recoverable resources.(g) Totals related to cost ranges <USD 40/kgU and <USD 80/kgU should be regarded with some caution since certain countries do not report low-cost resource estimates, mainly for confidentiality concerns, whereas othercountries that have never, or not recently hosted uranium mining, may be underestimating mining costs.

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.

EL8 ELEVATE URANIUM LTD

Financial data:

• Historical daily stock prices (open, high, low, close, volume)

• Fundamental data (e.g., market capitalization, price to earnings P/E ratio, dividend yield, earnings per share EPS, price to earnings growth, debt-to-equity ratio, price-to-book ratio, current ratio, free cash flow, projected earnings growth, return on equity, dividend payout ratio, price to sales ratio, credit rating)

• Technical indicators (e.g., moving averages, RSI, MACD, average directional index, aroon oscillator, stochastic oscillator, on-balance volume, accumulation/distribution A/D line, parabolic SAR indicator, bollinger bands indicators, fibonacci, williams percent range, commodity channel index)

Machine learning features:

• Feature engineering based on financial data and technical indicators

• Sentiment analysis data from social media and news articles

• 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)

Potential Applications:

• Stock price prediction

• Portfolio optimization

• Algorithmic trading

• Market sentiment analysis

• Risk management

Use Cases:

• Researchers investigating the effectiveness of machine learning in stock market prediction

• Analysts developing quantitative trading Buy/Sell strategies

• Individuals interested in building their own stock market prediction models

• Students learning about machine learning and financial applications

Additional Notes:

• The dataset may include different levels of granularity (e.g., daily, hourly)

• Data cleaning and preprocessing are essential before model training

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

Data was compiled from published sources by US Geological Survey geoscientists Mark J. Mihalasky, Susan M. Hall and Robert A. Zielinski. This dataset was provided to the U.S. Energy Information Administration in February of 2019 to facilitate updating of national uranium resource distribution maps. Some sedimentary phosphate deposits contain trace uranium. Historically when uranium prices were high enough, this uranium was extracted as part of the phosphate mining process. In 2019 no uranium is being commercially extracted as part of phosphate mining in the United States. The location of uraniferous phosphate deposits within the United States is shown on this layer.Details and location information is from:DeVoto, R.H.; Stevens, D.N. (eds.), 1979, Uraniferous phosphate resources and technology and economics of uranium recovery from phosphate resources, United States and free world; GJBX-110(79), Volume 1, 724 p. Volume 2, 50 p. plus plates.

4823 Global import shipment records of Uranium with prices, volume & current Buyer's suppliers relationships based on actual Global export trade database.