Fusion energy pilot plant unveiled
Fusion energy pilot plant unveiled Tokamak Energy has revealed early
Business and Tech Consulting
We’ll guide you to the emerging opportunities in the fusion industrial landscape
The combination of the ever-rising demand for energy and its impact on the environment prompts the need for the development of sustainable energy production technologies and practices. This need drives the research, investment, and development of carbon-neutral or carbon-friendly technologies, such as thermonuclear fusion.
Nuclear fusion based energy production presents an alternative nuclear energy source, the same process powering the stars. Harnessing this power has been an ongoing research effort for over 70 decades, showing exciting results and an ever-growing momentum to demonstrate such capabilities in the near future. Find out more about the landscape, approaches and challenges still ahead.
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Nuclear fusion is the most widespread energy source in the universe, powering stars.
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Any fusion reactor concept needs to contain and confine the fuel, which is a hot plasma.
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Any fusion power plant requires the development of unique technologies and methods specific to its design
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The fusion industrial landscape is a new and dynamically evolving ecosystem of multiple players
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Any fusion reactor enters a very competitive energy production market, featuring with advantages such as environmentally friendly technologies
About possible fusion reactions and terrestrial conditions of the fuel for ignition and burn.
Various bottleneck and showstopper technologies like fuel production, neutron shielding, heat resistance…
About the role and interactions of research institutes, fusion projects, private sector and regulators.
About supply chain resilience, impact of regulation as well as means to reduce CAPEX and OPEX.
Fusion energy pilot plant unveiled Tokamak Energy has revealed early
The combination of the ever-rising demand for energy and its impact on the environment prompts the need for the development of sustainable energy production technologies and practices. This need drives the research, investment, and development of carbon-neutral or carbon-friendly technologies, such as thermonuclear fusion.
Nuclear fusion is the most widespread energy source in the universe, powering stars. The process occurs when two or more light atomic nuclei combine to form a new one, releasing considerable energy. Solar fusion requires large temperatures in the range of 10 million ⁰C and pressures of 10 billion times atmospheric pressure. Generating a similar process under terrestrial conditions requires a different approach than that of the stars, generating even harsher conditions, presenting a challenge to any reactor concept.
Any fusion reactor concept needs to contain and confine the fuel, which is a hot plasma. There are several competing reactor concepts available in different stages of maturity.
There are multiple different approaches in between these two concepts. All approaches feature common and unique challenges arising from their concept.
Any fusion reactor concept needs to contain and confine the fuel, which is a hot plasma. There are several competing reactor concepts available in different stages of maturity. The most widespread approach, magnetically confines the fuel and requires long-duration burns with good insulation and lower fuel density. Another successful approach inertially confines the fuel, resulting in short, intensive, explosive bursts and high fuel densities. There are multiple different approaches in between these two concepts. All approaches feature common and unique challenges arising from their concept.
Any fusion power plant requires the development of unique technologies and methods specific to its design, such as:
Each reactor concept features unique R&D challenges, specific to its design philosophy, such as magnet, vacuum, cryogenic or laser technologies
The final participants in this landscape are governmental entities focused on developing a regulatory framework.
The combination of the ever-rising demand for energy and its impact on the environment prompts the need for the development of sustainable energy production technologies and practices. This need drives the research, investment, and development of carbon-neutral or carbon-friendly technologies, such as thermonuclear fusion.
based energy production presents an alternative nuclear energy source, the same process powering the stars. Harnessing this power has been an ongoing research effort for over 70 decades, showing exciting results and an ever-growing momentum to demonstrate such capabilities in the near future. Find out more about the landscape, approaches and challenges still ahead.
energy production presents an alternative nuclear energy source, the same process powering the stars. Harnessing this power has been an ongoing research effort for over 70 decades, showing exciting results and an ever-growing momentum to demonstrate such capabilities in the near future. Here, you can find out more about the approaches and challenges still ahead.
Nuclear fusion is the most widespread energy source in the universe, powering stars. The process occurs when two or more light atomic nuclei combine to form a new one, releasing considerable energy.
Solar fusion requires large temperatures in the range of 10 million ⁰C and pressures of 10 billion times atmospheric pressure. Generating a similar process under terrestrial conditions requires a different approach than that of the stars, generating even harsher conditions, presenting a challenge to any reactor concept. Read more
Any fusion reactor concept needs to contain and confine the fuel, which is a hot plasma. There are several competing reactor concepts available in different stages of maturity.
There are multiple different approaches in between these two concepts. All approaches feature common and unique challenges arising from their concept. Read more
Any fusion power plant requires the development of unique technologies and methods specific to its design, such as:
Each reactor concept features unique R&D challenges, specific to its design philosophy, such as magnet, vacuum, cryogenic or laser technologies... Read more
The fusion industrial landscape is a new and dynamically evolving ecosystem of multiple players:
The final participants in this landscape are governmental entities focused on developing a regulatory framework. Read more
Any fusion reactor enters a very competitive energy production market, featuring with advantages such as environmentally friendly technologies and fuel abundance albeit some disadvantages in the form of high CAPEX and OPEX.
Both of the latter require significant lowering to improve the market competitiveness of planned fusion power plants by:
If you are an investor looking to get a foothold in fusion or broaden your portfolio, here are some examples.
If you are a start-up or established company focused on fusion, here are some examples.
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PhD in Plasma and nuclear physics with over a decade of experience in the field of fusion palsmas.
Business development and consultancy with over a decade of experience in:
We utilize a pool of a dozen consultants on standby ranging from: plasma, nuclear and ICF physicists, chief engineers for fusion reactors, DEMO design specialist, neutron shielding and safety experts and a few high-ranking retired scientists from the US, UK and EURO fusion.
Our company plans to provide technological, business and financial consulting services related to fusion industry and technology. The reason for all three is that in the currently explosively growing and developing fusion industry, companies are almost exclusively technologically focused, but the part of technology-related business development/marketing is considered a less developed feature. Therefore, in addition to developing a software solution focusing on specific fusion technology trends, we combine them by compiling their cost structure and presenting marketing opportunities to make the service comprehensive.
Potential customers can be companies planning to invest in the fusion industry, to whom we can provide crutches with the aforementioned service, and technology companies that need more marketing/business development and financial legs.
Overall, we see that in relation to the industry, in addition to the rapid development, there is also a “dilution,” i.e., many unusable/futureless solutions or other technological/entrepreneurial initiatives, which is why we would like to help provide greater transparency and advice to the relevant actors.
We aim to be the guide in today's industry and landscape of fusion.
We aim to connect market and governmental players and other research parties to ensure the advancement of the industry.
By fusing know-how and combining relevant experiences, we ensure that we find the right opportunities and define projects for investors and other interested parties.
By establishing a transparent, controlled and structured environment, we aim to build, in every case, a fitting project for the clients which will meet their predefined goals.
About our company: Our company plans to provide technological, business and financial consulting services related to fusion industry and technology. The reason for all three is that in the currently explosively growing and developing fusion industry, companies are almost exclusively technologically focused, but the part of technology-related business development/marketing is considered a less developed feature. Therefore, in addition to developing a software solution focusing on specific fusion technology trends, we combine them by compiling their cost structure and presenting marketing opportunities to make the service comprehensive.
Potential customers can be companies planning to invest in the fusion industry, to whom we can provide crutches with the aforementioned service, and technology companies that need more marketing/business development and financial legs.
Overall, we see that in relation to the industry, in addition to the rapid development, there is also a "dilution," i.e., many unusable/futureless solutions or other technological/entrepreneurial initiatives, which is why we would like to help provide greater transparency and advice to the relevant actors.
Our company plans to provide technological, business and financial consulting services related to fusion industry and technology.
Potential customers can be companies planning to invest in the fusion industry, to whom we can provide crutches with the aforementioned service, and technology companies that need more marketing/business development and financial legs.
Asztalos Örs
PhD in Plasma and nuclear physics with over a decade of experience in the field of fusion palsmas. His main activities are focused on:
Farkas Csongor
Business development and consultancy with over a decade of experience in:
Consultant
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Consultant
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Consultant
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Fusion energy pilot plant unveiled Tokamak Energy has revealed early design details of its fusion energy pilot plant, which aims to be a key part
Fusion energy pilot plant unveiled Tokamak Energy has revealed early design details of its fusion energy pilot plant, which aims to be a key part
An increasing interest in ITER and fusion Located not far from the city centre, the round, modern structure of the Baku Stadium usually hosts thousands
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