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the energy of the present
Radioisotope Thermoelectric Generator EVA
the energy of the present
Our radioisotope generator EVA will provide the delivery of clean energy that can be used in a multitude of different areas.
Nuclear energy is actually safe and reliable, and we are ready to demonstrate this!
Description of the problem that the project aims to address or mitigate
Nuclear energy is actually safe and reliable, and we are ready to demonstrate this!
Description of the problem that the project aims to address or mitigate
EVA will be able to unlock the true potential of nuclear energy, thus allowing the world to-fundamentally re-evaluate it.
Nuclear energy is actually safe and reliable, and we are ready to demonstrate this!
global problem
The world needs clean and accessible energy,
accessible energy, and R&D LABORATORY "ATOM WAY" UK LTD is ready to offer a solution to this problem
The world needs clean and
Our radioisotope generator EVA will provide the delivery of clean energy that can be used in a multitude of different areas.
and R&D LABORATORY "ATOM WAY" UK LTD is ready to offer a solution to this problem
going to work?
How is it
RTG EVA operates on the principle of radioactive isotopes usage.
RTG EVA is a device with power capacity of 1 MWt/h that will be used to convert the heat generated by radioactive decay into electricity.
Thermoelectric converters consist of materials called thermocouples, which have different properties at different temperatures.
When isotopes decay, they release heat which is then used to heat thermoelectric converters that convert thermal energy into electrical energy.
R&D LABORATORY "ATOM WAY" UK LTD is exploring the potential and possibilities for generator applications, including key innovations, in order to create a generator ready for commercial and industrial use in the near future.
When one junction of the thermocouple is heated and the other remains cold, a temperature difference is created, which leads to the appearance of an electrical voltage.
Advantages
PTGs do not require a fuel source or engine, which means they have no moving parts that can fail or require maintenance. Additionally, PTGs can continue to operate for decades without the need for component replacement.
PTGs provide high energy density in small volumes and masses. They can generate electricity for extended periods of time using a small volume of radioactive fuel.
PTGs can operate in extreme environments such as space or remote and inaccessible regions of the Earth, where solar panels and other sources of energy cannot be used.
PTGs are not dependent on weather conditions or time of day, so they can run 24 hours a day and provide constant power.
PTGs are safe to use and do not pose an environmental or health hazard if used in accordance with regulatory standards and norms.
Our modular design, combined with the latest advanced technologies of component manufacturing, allows us to build the first prototype in less than 3 years.
We plan to use modular design for simplicity and speed of assembly, and each module will be mass produced in factory conditions using the latest advanced manufacturing methods. This approach will make it easy to transport them by road, rail, air, or space transport for further on-site installation.
potential uses of RTG EVA
areas of application
Main possibilities and
and potential uses of RTG EVA
Main possibilities
Energy sector / Research laboratories / Industrial enterprises / Military bases and complexes / Government sector / Private commercial use / Electric vehicle charging stations / Remote settlements / Agriculture and food industry enterprises / Telecommunication companies / Healthcare facilities / Airports Space bases / Energy sector / Research laboratories / Industrial enterprises / Military bases and complexes / Government sector / Private commercial use / Electric vehicle charging stations / Remote settlements / Agriculture and food industry enterprises / Telecommunication companies / Healthcare facilities / Airports Space bases /
clients
Potential clients
Customers will be able to buy energy through power purchase agreements (PPA), direct sales of units or rental.
geography
Global roadmap
Antarctica
The first RTG EVA 2028
California
Company office
London
R&D Laboratory
Cape Town
Company office
We are a team of young scientists and engineers from various parts of the world who have come together to work for R&D LABORATORY "ATOM WAY" UK LTD.
Team
our team
cooperation
employees from the most prestigious universities and research laboratories around the world, as well as our partner from CERN.
Founder & CEO
Co-Founder & Head of scientific and technical team
Energy Engineer
Nuclear Engineer /
Automation systems
Automation systems
Mechanical Engineer
Regulatory Affairs Specialist
We are supported by current laboratory
current laboratory employees from the most prestigious universities and research laboratories around the world, as well as our partner from CERN.
We are supported by
Ilia Revo
Alexandr Morozov
Alexander Kachan
Andrei Burov
Andrej Nerezko
Eugeni Bespala
Marketing Manager
Project consultant from the CERN laboratory
Vitalii Okhotnikov
Maxime Gouzevitch
Syed Usman
Konstantin Shchablo
Ivan Trotski
Aliaksandr Dubrouski
Thermoelectric Materials Scientist
Electrical Engineer
Nuclear Physicist / Programmer
Electrical Engineer
Klara Morozova
Rodion Levin
Milan Nacsa
Evgeny Kuvyrkov
Environmental Engineer
Consultant Intellectual Property
Chemist
Materials Engineer / Strength Engineer
Finance Manager
Elena Rjazanova
Founder & CEO
Co-Founder & Head of scientific and technical team
Energy Engineer
Nuclear Engineer / Automation systems
Electrical Engineer
Electrical Engineer
Regulatory Affairs Specialist
Thermoelectric Materials Scientist
Nuclear Physicist / Programmer
Chemist
Materials Engineer / Strength Engineer
Mechanical Engineer
Environmental Engineer
Consultant Intellectual Property
Ilia Revo
Alexandr Morozov
Alexander Kachan
Andrei Burov
Ivan Trotski
Konstantin Shchablo
Syed Usman
Aliaksandr Dubrouski
Eugeni Bespala
Evgeny Kuvyrkov
Milan Nacsa
Rodion Levin
Klara Morozova
Andrej Nerezko
Finance Manager
Marketing Manager
Project consultant from the CERN laboratory
Elena Rjazanova
Vitalii Okhotnikov
Maxime Gouzevitch
cooperation
employees from the most prestigious universities and research laboratories around the world, as well as our partner from CERN.
We are supported by current laboratory
current laboratory employees from the most prestigious universities and research laboratories around the world, as well as our partner from CERN.
We are supported by
2023
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Adress
Suite 17016, 43 Bedford Street, London WC2E 9HA, England (United Kingdom) Company Number 14684449
Space exploration
RTG EVA can be used to power spacecraft, space bases that cannot rely on solar panels during missions to explore distant regions of outer space or the surface of other planets.
Earth exploration
RTG EVA can be used to explore remote and inaccessible regions of the Earth, such as deep canyons, ice fields, or dense jungles, where equipment that uses traditional energy sources cannot be installed.
Scientific research
RTG EVA can be used to power scientific experiments and bases in various scientific fields such as astronomy, geology, meteorology, and ecology.
Emergencies
RTG EVA can be used as a backup energy source in the event of natural disasters or other emergencies.
Archaeological and exploratory work
RTG EVA can be used in archaeological research, for example, to study underground objects or anomalies that cannot be explored using traditional methods.
Industry
RTG EVA can be used in various industries such as oil and gas, mining; it can also be used underwater, on offshore drilling rigs; it can be used to power equipment that operates in remote areas and extreme environments.
Security services
RTG EVA can be used in security services, for example, to power equipment, surveillance systems, and detectors.
Military
RTG EVA can be used in the military to provide power on military bases and power equipment that operates in remote areas and extreme environments such as polar regions, deserts, and mountain ranges.
Description of the problem that the project aims to address or mitigate
Energy is a key driver of economic growth. While humanity is striving to phase out the use of fossil fuels, the world's population continues to grow.
Today, over 800 million people live without electricity, and 2.4 billion use fuels that are harmful to their health and have negative impacts on the environment. This highlights the need for technologies that would guarantee that energy is produced in a more environmentally friendly and efficient way.
Nuclear energy is one of the revolutionary technologies that provides affordable, powerful, and carbon-free energy. Nuclear energy is not only used for electricity generation, but also as a catalyst for the production of goods. By 2035, 10-12 more countries will have adopted nuclear energy, which will increase the number of countries utilizing nuclear power by one-third.
It is expected that by 2025 several small and medium-sized reactors and modular reactors will be in operation, which will at- tract the attention of energy policy specialists. Meanwhile, a vast majority of more than 300 nuclear reactors that have been in operation for over 30 years will be decommissioned over the next 30 years!
Today, over 800 million people live without electricity, and 2.4 billion use fuels that are harmful to their health and have negative impacts on the environment. This highlights the need for technologies that would guarantee that energy is produced in a more environmentally friendly and efficient way.
Nuclear energy is one of the revolutionary technologies that provides affordable, powerful, and carbon-free energy. Nuclear energy is not only used for electricity generation, but also as a catalyst for the production of goods. By 2035, 10-12 more countries will have adopted nuclear energy, which will increase the number of countries utilizing nuclear power by one-third.
It is expected that by 2025 several small and medium-sized reactors and modular reactors will be in operation, which will at- tract the attention of energy policy specialists. Meanwhile, a vast majority of more than 300 nuclear reactors that have been in operation for over 30 years will be decommissioned over the next 30 years!
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