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Private Enterprise for Nuclear Industry
Scientific Development “Science and Innovations”

Implemented projects within the framework of the EOTP


EOTP includes projects in priority areas of science and technology development of ROSATOM (PASTD) and exploratory research.

PASTD are the basic areas of science and technology development of the nuclear industry to get a new innovative product and achieve unique scientific results.



EOTP project results.


Healthcare

EOTP-YaM-232 Project

Research work and construction of a toroidal remote radiation therapy complex

Result: Basic units of the domestic complex of remote radiotherapy based on a 6 MeV electron linear accelerator have been constructed to improve the quality and affordability of radiotherapy for cancer patients in the Russian Federation.

Environment

EOTP-VNE-331 Project

Development of equipment for the monitoring of tritium radionuclides content in atmospheric air in various physical and chemical forms at the level of global background*.

Result: A full-fledged full-size sample (FFFSS) of equipment for the monitoring of tritium content in atmospheric air in various physical and chemical forms in a wide range of activities (design documentation, qualified procedure for measuring tritium content in atmospheric air in oxidized and non-oxidized forms in a wide range of activities).

Internal layout of the tritium radionuclide monitoring complex

Stand-alone power generation

EOTP-VNE-185 Project

Development of a radioisotope power supply module for intermittent duty electronic devices

Result: A radioisotope power supply module for intermittent duty electronic devices, designed as a hybrid assembly comprising betavoltaic cells with radioisotope beta sources and semiconductor converters assembled in a battery, an integrated circuit, and an energy storage device.

A metal-ceramic body for the hybrid assembly has been designed and manufactured within the 1st stage of the project

Digital technologies

EOTP-MT-70 Project

Development of a digital twin of accelerated ex-vessel and in-vessel testing of candidate materials

Result: Three digital twins of pilot facilities (benches, devices) have been made up for:

  • in-vessel tests in the fast neutron spectrum (in a sodium reactor);
  • accelerated ex-vessel tests (ion irradiation);
  • in-vessel tests in heavy liquid metal coolant (lead).

Results of digital twin simulation

Future

Area of controlled nuclear fusion and plasma technologies

EOTP-UTP-54 Project

Constructing and testing of a laboratory model of a powerful plasma space engine.

Result: Creation of a science and technology and design foundation for a new product for the industry – a powerful space electrodeless plasma rocket engine