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New York, United States
1-10 Employees
1982
The product of uranium mining is U3O8 in a powder form, or yellowcake. The nuclear fuel market is composed of uranium in various forms comprising a complex supply chain. The U3O8 is shipped to a conversion facility, where it becomes UF6 which is a crystalline solid at room temperature. Joe McCourt is the President and co-founder of NYNCO. Einbund is a lawyer admitted to the Bar of the State of New York.
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Featured
Nuclear Fuel Supply Chain
... Nuclear Fuel Supply ...
Roswell, United States
11-50 Employees
1994
Special Products: UxC Training Seminar Nuclear Power Outlook UxC Requirements Model Uranium Suppliers Annual UxC's Policy Watch. UxC's next Nuclear Fuel Training Seminar is scheduled for June 24-27, 2024 in Atlanta, Georgia. UxC announces new Nuclear Fuel Market Webinars for clients. UxC released a video during the WNFM virtual event in June 2021 discussing recent achievements and activities. Since 2020, UxC has been publishing annual editions of its Conversion & Enrichment Supplier Assessments (CESA) report. UxC has prepared a new special report to provide an overview of the zirconium alloy market for the nuclear industry entitled Nuclear Grade Zirconium Alloy Market Outlook. UxC, the industry leader in global nuclear market analysis, is pleased to announce a new report titled Small, Advanced and Micro-Reactor Assessments (SAMRA). In March 2013, UxC issued a new special report on the SMR Market Outlook (SMO).
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Featured
Global Nuclear Fuel Inventories
... UxC: Global Nuclear Fuel ...
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Featured
Bei Advanced Nuclear Fuels in Lingen im Emsland. Jobs & Karriere
... Bei Advanced Nuclear Fuels in Lingen im Emsland. Jobs & ...
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Featured
Posiva Solutions - Selection, characterisation and monitoring of DGR site
... Posiva Solutions provides tailored services in final disposal of spent nuclear fuel. ...
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Featured
Storage Technologies | NAC International
... Pioneering Transportable Nuclear Fuel ...
Virginia, United States
11-50 Employees
1992
Lightbridge Corporation is a publicly-traded company headquartered in Reston, Virginia. We’re advancing state-of-the-art fuel technology with the potential to transform the safety, economics and efficiency of nuclear power plants. Lightbridge Fuel™ also offers the lowest cost to add reliable electricity to the grid. As the world’s population rises, so does our energy consumption. Our global challenge is meeting the demand without emitting significantly more carbon emissions. The world can only achieve its energy and climate goals if nuclear power is a major part of the solution. The increased flow rate operates with the same difference in outlet and inlet temperature while extracting more heat from the core. Our innovative new fuel design can help meet the world’s growing energy and climate needs by using existing reactors to generate cheaper and safer zero-emission electricity.
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Featured
Lightbridge Corporation (LTBR)
... Lightbridge Corporation is a nuclear fuel technology development company focused on addressing the world’s climate and energy needs. ...
San Diego, United States
11-50 Employees
1975
Remote Ocean Systems is an industry leader in the design and manufacturing of reliable, high-tech equipment and systems for the most severe oceanographic, nuclear, and military markets since 1975. Deep water products for the ROV, research, & oil and gas markets. ROS offers a wide variety of cameras to meet your specific needs. ROS provides a wide range of lighting products to meet the most extreme harsh environment conditions. We offer 2-axis pan & tilts and single axis rotators for a wide range of payloads and torque requirements. ROS products can be configured and combined in a wide variety of ways to meet your specific application requirements.
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Featured
Cameras - Nuclear Fuel Pool Equipment - Remote Ocean Systems
... Robustly designed and manufactured nuclear fuel pool inspection cameras. Heat and radiation tolerant equipment for power plants and ships. ...
Stoke Poges, United Kingdom
1001-5000 Employees
1970
Urenco is an international supplier of enrichment services and fuel cycle products for the civil nuclear industry, serving utility customers worldwide who provide low carbon electricity through nuclear generation. We are the only company in the world to operate enrichment facilities in four countries. We provide safe, cost-effective and reliable uranium enrichment services and fuel cycle products for power generation within a framework of high environmental, social responsibility and corporate governance standards. We are unique in the global enrichment market in having four enrichment facilities in four different countries. We are committed to leading the way in responsible uranium stewardship and have several subsidiaries dedicated to overseeing our work in this area. Urenco ChemPlants operates our Tails Management Facility in the UK, which deconverts the by-product of enrichment into a more stable form for long term storage for future enrichment or final disposal, and Urenco Nuclear Stewardship, also based in the UK, is responsible for the management of nuclear materials, decommissioning and recycling. Our stable isotopes business (Urenco Stable Isotopes) in the Netherlands draws on our expertise and capabilities in centrifuge technology to produce a variety of stable isotopes for medical, industrial and research applications. We are currently working towards providing support to our customers to fuel nuclear new builds, including the next generation of reactors.
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Featured
Our role in the nuclear fuel cycle
... Our role in the nuclear fuel ...
Amsterdam, Netherlands
11-50 Employees
2016
We are a firm supporter and member of the Ten Principles of the United Nations Global Compact–committing to meet fundamental responsibilities in the areas of human rights, labour, environment and anti-corruption and work towards long-term successes in these areas. We are an equal opportunity employer, seeking to actively practice and promote diversity, equity and inclusion. We are in the business of transforming commodities in space (logistics), in time (storage and financing) and in form (processing) to meet our customer's needs. We are committed to accelerate the development of the nascent battery value chain by delivering comprehensive financing, processing and logistics solutions to meet our customers needs. We are building a professional and reliable business that will continue to grow and expand for many years—meeting the needs of our customers and contributing to global energy sustainability and security. At WMC, we believe that responsible ownership leads to business success. We contribute to a zero-carbon economy through our product and service offerings. Nickel metal, Nickel Sulfate and Mixed Hydroxide Product.
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Featured
Nuclear Fuel Materials
... Nuclear Fuel ...
Charlotte, United States
11-50 Employees
1867
Consolidated B&W and BWXT operations under the name The Babcock & Wilcox Company. BWXT completes acquisition of GE Hitachi Nuclear Energy Canada, Inc. BWXT awarded $18.8 million contract from NASA to initiate conceptual designs for a nuclear thermal propulsion reactor. BWXT completes acquisition of Cunico and Dynamic Controls, Ltd. Discover how we are merging innovation with infrastructure. It is the longest continuously published engineering text of its kind in the world, now in its 42nd edition. First central electrical station in the US, operated by the Brush Electric Light Company in Philadelphia, is powered by four 73-horsepower B&W boilers. Marine boiler business is launched with the installation of a new boiler built for Stephen Wilcox’s steam yacht Reverie.
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Featured
BWX Technologies, Inc. | People Strong, Innovation Driven
... BWX Technologies, Inc. is a leading supplier of nuclear components and fuel to the U.S. government, also providing components and services to the commercial nuclear power industry. ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Nuclear Fuel
| Country with most fitting companies | United States |
| Amount of fitting manufacturers | 57 |
| Amount of suitable service providers | 62 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1867 |
| Youngest suiting company | 2016 |
Nuclear fuel is a material that can sustain nuclear fission or fusion reactions, thereby producing energy in the form of heat. This heat is then typically used to generate electricity in nuclear power plants. The most common type of nuclear fuel used in fission reactors is uranium-235 or plutonium-239, contained within fuel rods assembled into fuel assemblies. These elements are chosen for their ability to easily split when struck by a neutron, releasing a considerable amount of energy, additional neutrons, and fission products. The role of nuclear fuel within the energy sector is pivotal, as it provides a dense source of energy that can generate large amounts of electricity without the carbon dioxide emissions associated with fossil fuels. This makes it a significant option for addressing global energy demands while combating climate change. However, the use of nuclear fuel also brings challenges, including the potential for nuclear accidents, the need for secure transportation and storage of radioactive materials, and the long-term management of nuclear waste. The development and refinement of nuclear fuel technologies continue to focus on enhancing safety, efficiency, and sustainability, with research into alternative fuels like thorium and advancements in reactor designs aiming to further mitigate the risks and environmental impacts associated with nuclear power.
1. High Energy Density
Nuclear fuel possesses an exceptionally high energy density compared to fossil fuels and renewable energy sources. A small amount of nuclear fuel can produce a massive amount of energy, making it a highly efficient option for meeting large-scale energy demands without the need for extensive physical space.
2. Low Greenhouse Gas Emissions
Despite concerns about radioactive waste, nuclear power generates electricity with minimal greenhouse gas emissions. This characteristic makes it a more environmentally friendly option than coal, oil, and natural gas, helping to combat climate change by reducing the carbon footprint associated with power generation.
3. Reliability
Nuclear power plants operate at a high capacity factor, meaning they can produce a steady amount of electricity almost 24/7, independent of weather conditions. This reliability contrasts with renewable sources like solar and wind, which can be intermittent and require backup systems to ensure a consistent energy supply.
4. Long-term Availability
With advancements in nuclear technology, such as breeder reactors and thorium reactors, the availability of nuclear fuel can be significantly extended. These technologies can utilize alternative materials or recycle spent fuel, offering a long-term solution to energy needs far beyond the limitations of current fossil fuel reserves.
While evaluating the different suppliers make sure to check the following criteria:
1. Regulatory Compliance
Ensure the supplier adheres to international and local nuclear safety and regulatory standards, including environmental and security regulations.
2. Quality of Nuclear Fuel
Assess the quality and performance of the nuclear fuel, including its efficiency, reliability, and lifespan in reactor conditions.
3. Supply Chain Stability
Evaluate the supplier's ability to provide consistent and reliable deliveries, considering their supply chain's resilience to geopolitical and market fluctuations.
4. Technical Support and Service
Determine the level of technical support and after-sales service offered, including assistance with fuel handling, storage, and technical troubleshooting.
5. Cost-effectiveness
Analyze the total cost of procurement, including the price of nuclear fuel, transportation, and any additional services, to ensure it aligns with budgetary constraints.
6. Innovation and Technological Advancement
Consider suppliers who invest in research and development to improve nuclear fuel technology, offering more efficient, safer, and environmentally friendly alternatives.
Nuclear fuel finds extensive application in the energy sector, primarily for electricity generation. Commercial nuclear power plants utilize enriched uranium fuel to produce a continuous source of power. This process involves nuclear fission, where atomic nuclei split to release considerable energy, essential for powering industries, cities, and homes. It represents a reliable, low-carbon energy source, making it a vital component in the energy mix of many countries striving for sustainability and energy independence. Beyond energy production, nuclear fuel plays a crucial role in maritime propulsion, especially within military applications. Naval vessels, including submarines and aircraft carriers, often rely on nuclear reactors as their power source. This allows these vessels to operate at high speeds for extended periods without refueling, providing strategic advantages in terms of operational range and endurance. In the field of medicine, nuclear fuel-derived isotopes are indispensable. These isotopes, produced through nuclear reactions, are critical for diagnostic imaging and cancer treatment. For example, technetium-99m, generated from uranium, is widely used in medical diagnostic procedures. Its ability to provide clear images of the body's internal structures makes it a cornerstone in modern medicine, aiding in the early detection and treatment of various conditions. Lastly, research and development sectors leverage nuclear fuel for high-energy physics experiments and in the development of advanced materials. Nuclear reactors serve as sources of neutrons and other particles needed in cutting-edge scientific research. This supports the development of new materials with unique properties, contributing to technological advances across various industries.
Nuclear fuel, as an integral component of the nuclear energy sector, predominantly stands at Technology Readiness Level (TRL) 9, indicating that it is in the operational phase, having been fully tested and validated in actual mission conditions. This high TRL is a testament to decades of extensive research, development, and deployment activities that have refined the production, utilization, and management of nuclear fuel. The technical sophistication of nuclear fuel lies in the meticulous design and optimization of fuel assemblies, ensuring they meet the stringent requirements for efficiency, reliability, and safety. Advanced materials engineering has led to the development of fuel pellets and cladding that can withstand extreme conditions of temperature and pressure, while minimizing the risk of radiation release. Furthermore, the evolution of nuclear fuel technology, including the exploration of alternative fuels like thorium and advancements in spent fuel reprocessing, continues to address challenges associated with nuclear waste and resource scarcity. The attainment of TRL 9 reflects not only the maturity of nuclear fuel technology but also the industry's commitment to ongoing innovation and improvement, ensuring it remains a cornerstone of sustainable energy production.
In the Short-Term, advancements in nuclear fuel technology are anticipated to focus on enhancing fuel efficiency and safety. Research into accident-tolerant fuels (ATF) is poised to yield materials that can withstand higher temperatures and more extreme conditions, reducing the risk of meltdowns in nuclear reactors. These developments are expected to be integrated into existing nuclear plants over the next few years, improving their operational safety margin and efficiency. For the Mid-Term outlook, the sector is likely to witness significant strides in the development of advanced fuels, such as Thorium-based fuel and High-Assay Low-Enriched Uranium (HALEU), which offer the promise of more efficient, cleaner, and safer nuclear power. These innovations will facilitate longer fuel cycles and reduced nuclear waste, addressing some of the critical challenges facing nuclear energy. Deployment of these technologies in reactors is anticipated to begin within the next decade, marking a pivotal shift towards more sustainable nuclear energy solutions. Looking into the Long-Term, the horizon is set for the emergence of revolutionary nuclear fuel technologies, including the potential realization of fusion energy. Research and development efforts are expected to culminate in the practical application of fusion reactors, which would provide an almost limitless source of energy without the high-level radioactive waste associated with current fission reactors. Though this breakthrough is likely several decades away, its implications for energy production and environmental preservation are profound, heralding a new era in clean, abundant power generation.
