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Cambridge, United Kingdom
1-10 Employees
2020
We believe in delivering high quality consulting and support, on time and to budget, using committed and enthusiastic consultants who will go that extra mile to ensure clients’ needs are met.
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Featured
Nuclear. Energy. Defence.
... Nuclear. Energy. Defence. ...
Brussels, Belgium
1-10 Employees
2023
Our mission: reduce the volume and lifetime of radioactive waste, lower the final energy cost, and maintain the stringent safety and security standards of nuclear energy production, by boldly investing in promising early-stage startups in NATO countries. We are convinced that nuclear energy can lead to more dignity and equality among people, in a healthier environment.We are determined to protect the planet from further degradation through a more sustainable consumption of its natural resources and by taking urgent action on climate change.We are acutely aware of the importance to look at these new ventures through the prism of economic feasibility and long-term profitability.Last but not least, we are active promoters of the peaceful use of new technologies, and in favor of the abolishment of atomic weapons. We are firmly backed by a strong network of international specialists. Hence the energy sector is responsible for the overwhelming majority of greenhouse gas emissions.This is an opportunity: decarbonising energy production is the most efficient lever to mitigate climate change. New technological perspectives are opening up, from digitalisation to small modular reactors, from the production of heat and hydrogen all the way to nuclear fusion. We believe both in the power of collective intelligence, and in the sparkle of singular persons. We see venture capital as a catalyst to turn innovators into entrepreneurs.We are also acutely aware that the great power of nuclear energy comes with great responsibility. Yet we believe in the importance of a strong sectorial focus - ours is nuclear energy.
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Early-stage VC fund 100% dedicated to nuclear technology
... Our mission: reduce the volume and lifetime of radioactive waste, lower the final energy cost, and maintain the stringent safety and security standards of nuclear energy production, by boldly investing in promising early-stage startups around the globe. ...
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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The Changing Geopolitics of the Nuclear Energy Market – Russia
... UxC: The Changing Geopolitics of the Nuclear Energy Market – ...
Wilmington, United States
1-10 Employees
2007
Power plants built 20 years ago weren't optimized to achieve the operational goals of today and physics and financial challenges of the near-future. GE Hitachi Nuclear Energy (GEH) is a world-leading provider of advanced reactors, fuel, and nuclear services. GEH combines GE’s design expertise and history of delivering reactors, fuels, and services globally with Hitachi’s proven experience in advanced modular construction to offer customers around the world the technological leadership required to effectively enhance reactor performance, power output, and safety. We build on our legacy, boldly innovating to provide reliable carbon-free power to the world. GEH’s core leadership includes experts with a wealth of national and international knowledge of the nuclear energy industry. Join us as we build our legacy, boldly innovating to provide carbon-free power to the world. GEH is committed to providing safe nuclear technology and culture. Learn more about how GEH is leading industry standards for nuclear safety.
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Nuclear Parts | GE Hitachi Nuclear Energy
... Nuclear Parts | GE Hitachi Nuclear Energy ...
Sofia, Bulgaria
1-10 Employees
Therefore, our services are the most diverse and include the study of new challenges or new approaches to the implementation of applicable international experience, development of programs, training, development of analytical support tools or information platforms, and others. Our expert professionals are ready to deliver tailor-made practical solutions, fast. The services we offer depend on the specific needs of our clients and the challenges they face. Our company’s combined experience helps us offer support to clients in various conventional, nuclear, and renewable energy knowledge fields, including:. To ensure access to the international best practices, our experts regularly provide services to the International Atomic Energy Agency, including in the development of guides and tools, expert missions, training courses, and webinars.
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Conventional And Nuclear Energy | Selmeda Ltd. | Bulgaria
... Selmeda Ltd. offers specialized services in the area of conventional energy, nuclear energy, renewables, waste, analysis and research. ...
Paris, France
1-10 Employees
Traxys Management, Optiver, and other investors acquire all interests in Traxys Group held by Carlyle Group and affiliates of Louis M. Traxys subsequently expanded its aluminum, nickel, tin and specialty metals trading teams in the U.S., Europe and Asia. Traxys management increased its investment stake in the company as part of the acquisition transaction. In 2008, Traxys along with its private equity partners Pegasus and RCF acquired Molycorp, the owner of Mountain Pass Mine, the only rare-earth mining and processing facility in the United States. Traxys and its partners subsequently sponsored the public offering of Molycorp in 2010. Traxys sold substantially all of its interests in Molycorp by 2013. Established in 2003 with the merger of the trading division of Sogem with Considar, the Traxys platform is the result of capitalizing on a hundred years of strategic opportunities to become a forward-thinking leader in an industry steeped in tradition. The acquisition of Cometals significantly expanded Traxys industrial minerals trading franchise.
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Nuclear Energy
... As the world's energy needs evolve, nuclear energy has the ability to burn cleaner fuel to facilitate mass ...
Los Angeles, United States
1-10 Employees
Is thorium the solution to climate change? It might be. A thorium-powered molten salt nuclear reactor is the cheapest, most reliable, and safest energy we could... Copyright © 2023 Rock Logic with Sean Kenny.
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Rock Logic with Sean Kenny - Nuclear Energy is the Future!
... Rock Logic with Sean Kenny - Nuclear Energy is the Future! ...
Mumbai, India
251-500 Employees
1983
The regulatory authority of AERB is derived from the rules and notifications promulgated under the Atomic Energy Act and the Environment (Protection) Act, 1986. The Mission of the AERB is to ensure the use of ionizing radiation and nuclear energy in India does not cause undue risk to the health of people and the environment. AERB also administers the provisions of Factories Act, 1948 for ensuring industrial safety in the units of the Department of Atomic Energy that are under the purview of the Board. AERB has a Chairman, an Executive Director and Directors/Heads of various Divisions/Directorates. AERB has a mechanism to check its effectiveness and quality assurance in its activities and a process by which it improves its systems through its own experience feedback and international regulatory practices. AERB is supported in its functions by a number of committees. Members of all the AERB committees are recognized experts with long experience in the relevant fields and come from DAE units, various Governmental organizations, academic institutes and industry. In 1987, AERB constituted a Committee known as Licensing and Appellate Committee.
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SRI Highlights | AERB - Atomic Energy Regulatory Board
... The mission of the AERB is to ensure the use of ionising radiation and nuclear energy in India does not cause undue risk to the health of people and the environment. ...
Cambridge, United Kingdom
51-100 Employees
1953
Munro Building Services is a leading ‘complete solution’ provider of Mechanical and Electrical Installation and Maintenance Services, working in both the public and private sectors. Munro is a leading ‘complete solution’ provider of Mechanical and Electrical Installation Services. Providing a fully integrated M&E Project Management service through teams of highly skilled and experienced technical staff and engineers. Munro Maintenance provides a dedicated Planned, Preventative and Reactive Maintenance Service tailored to meet customer requirements. Our technical teams delivers sustainable maintenance solutions whilst looking after our customers and their assets.
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Nuclear & Energy
... Nuclear & Energy - Munro Building ...
Bromsgrove, United Kingdom
1-10 Employees
We are more than 80,000 strong across 100+ countries around the world. We are more than 80,000 strong across more than 100 countries around the world. That is our singular mission at GE Vernova: continuing to electrify the world while simultaneously working to help decarbonize it. Cambridge offers a dynamic environment, steeped in the education, talent and innovation that will be core components of our work with customers to decarbonize power generation and lead the energy transition. Today is a momentous day for GE Vernova, completing our spin-off to now stand as an independent, publicly traded company. With a relentless passion for innovation and a diverse portfolio of leading technologies, GE Vernova is continuing to electrify the world while simultaneously decarbonizing it. Over 130 years of experience with 80,000+ employees globally.
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GE Hitachi Nuclear Energy supplier information
... GEH Supplier Information | GE Hitachi Nuclear Energy ...
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 Energy
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 192 |
| Amount of suitable service providers | 190 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 1953 |
| Youngest suiting company | 2023 |
Nuclear energy is a form of power derived from the process of nuclear fission or fusion within the nuclei of atoms. This energy release occurs when the nucleus of an atom, either splits apart (fission) or combines with another nucleus (fusion), unleashing a significant amount of energy in the form of heat. This heat is then used to generate steam, which drives turbines connected to generators, ultimately producing electricity. The most common method of harnessing nuclear energy, as of now, involves the fission of uranium or plutonium isotopes in nuclear reactors. A pivotal aspect of nuclear energy is its high energy density compared to traditional fossil fuels, meaning a small amount of nuclear fuel can produce a vast amount of electricity. This characteristic, coupled with its low greenhouse gas emissions during electricity generation, positions nuclear energy as a critical component in the global mix of energy sources aimed at mitigating climate change. However, challenges such as radioactive waste management, nuclear proliferation concerns, and the high costs associated with nuclear power plant construction and decommissioning continue to influence its role and impact within the energy sector. Despite these challenges, the continuous advancements in reactor technology and safety protocols underscore nuclear energy's potential in providing a stable, low-carbon power generation solution, contributing significantly to achieving global sustainable energy goals.
1. High Energy Density
Nuclear energy boasts a significantly higher energy density compared to fossil fuels and renewable sources. This means a small quantity of nuclear fuel can produce a vast amount of energy, making nuclear power plants highly efficient in terms of the energy yield from the fuel used.
2. Low Greenhouse Gas Emissions
Once operational, nuclear power plants emit negligible amounts of greenhouse gases compared to coal-fired power plants and natural gas facilities. This attribute contributes substantially to efforts aimed at mitigating climate change by reducing the carbon footprint associated with energy production.
3. Reliability
Nuclear power plants operate 24/7, except during maintenance or refueling periods. They provide a stable, continuous supply of electricity, unaffected by weather or climate conditions, making them more reliable than many renewable energy sources that depend on sunlight or wind.
4. Long-term Solution
With advancements in nuclear technology, such as breeder reactors and fusion reactors, the potential for nuclear energy as a long-term solution is expanding. These technologies promise more efficient use of fuel and lower radioactive waste, enhancing nuclear energy's sustainability.
While evaluating the different suppliers make sure to check the following criteria:
1. Regulatory Compliance
Ensure the supplier strictly adheres to international and national regulatory frameworks for nuclear energy to maintain safety and legality.
2. Technology and Innovation
Assess the supplier's commitment to technology and innovation in nuclear energy, including advancements in reactor design and waste management.
3. Environmental Impact
Consider the supplier's policies and practices regarding minimizing environmental impact, including emissions and waste handling.
4. Safety Record
Review the supplier's safety record, including incident management and preventive measures against accidents.
5. Financial Stability
Verify the financial stability of the supplier to ensure long-term viability and support for nuclear energy projects.
6. Experience and References
Look for suppliers with proven experience in the nuclear energy sector and check references from previous projects to gauge reliability and performance.
7. After-Sales Support
Evaluate the extent of after-sales support offered, including training, maintenance, and access to spare parts.
Nuclear energy, renowned for its robust output and reliability, serves as a pivotal resource across multiple B2B sectors. In the realm of electricity generation, it stands out for its ability to provide a continuous and stable power supply. Unlike renewable sources that may fluctuate based on weather conditions, nuclear power offers a consistent energy flow, essential for industries requiring uninterrupted operations, such as manufacturing and data centers. Another significant use case is in the field of medical isotopes production. These isotopes, crucial for diagnostic imaging and cancer treatment, are predominantly produced in nuclear reactors. The healthcare industry, therefore, relies on nuclear technology for creating these vital components, facilitating advancements in medical diagnosis and therapeutics. Desalination processes also benefit from nuclear energy, particularly in regions facing freshwater scarcity. Nuclear reactors can power desalination plants, transforming seawater into potable water. This application is crucial for industries situated in arid areas, where access to freshwater is limited, ensuring a sustainable water supply for industrial and agricultural use. Lastly, the maritime sector is exploring nuclear energy as a means to power large vessels. Given the global push towards reducing carbon emissions, nuclear-powered ships offer a cleaner alternative to traditional fossil fuels, promising a significant reduction in the maritime industry's environmental footprint.
Nuclear energy, as a mature technology, is generally categorized at a high Technology Readiness Level (TRL), specifically within the range of TRL 7 to TRL 9. This classification stems from its extensive deployment worldwide, with numerous reactors operating as stable, base-load power sources. At TRL 7, systems demonstrate operational capability in an environment akin to actual conditions, which for nuclear energy, refers to the successful long-term operation of reactors under commercial conditions. Progressing to TRL 8 and 9, the focus shifts to the actual system completed and qualified through test and demonstration (TRL 8) and, ultimately, to the system proven and ready for full commercial deployment (TRL 9). Nuclear energy occupies this high TRL due to significant technical advancements in reactor design, safety mechanisms, and fuel efficiency over decades. These include the development of Generation III and III+ reactors that offer enhanced safety features, such as passive cooling systems, and the ongoing research into Generation IV reactors, aimed at further improving efficiency, waste management, and safety. Additionally, the rigorous regulatory frameworks governing nuclear power generation have driven technological and operational standards that support this high level of readiness, ensuring nuclear energy remains a cornerstone in the mix of global energy sources.
In the Short-Term, the focus is on enhancing the safety and efficiency of existing nuclear reactors. Innovations such as Small Modular Reactors (SMRs) are gaining traction, offering more flexible deployment options and reduced initial investment costs. These reactors are designed for easier integration with renewable energy sources, signaling a shift towards more hybrid energy systems. Additionally, advancements in fuel technology are expected to improve the burn-up rate, reducing waste and extending fuel life. Mid-Term developments are poised to introduce next-generation reactors, including Generation IV designs that promise significant improvements in safety, efficiency, and waste management. Among these, molten salt reactors stand out for their potential in burning long-lived actinides from spent fuel, effectively addressing the critical issue of nuclear waste. Furthermore, these innovations aim to exploit thorium as a more abundant and safer fuel option, potentially revolutionizing nuclear fuel cycles and sustainability. Looking into the Long-Term, the horizon is marked by the pursuit of nuclear fusion technology. Unlike current fission processes, fusion offers a virtually limitless and cleaner energy source, with water and lithium as primary fuel sources. The successful commercialization of fusion reactors could dramatically reduce the environmental impact of energy production, offering a cleaner, abundant source of power. However, achieving a net energy gain remains a significant challenge, with substantial research and development underway to make fusion a practical reality.
