RITM-200 | |
---|---|
Generation | Generation III+ reactor |
Reactor concept | Pressurized water reactor |
Reactor types | RITM-200 RITM-400 project |
Status | operational |
Main parameters of the reactor core | |
Fuel (fissile material) | 235U (LEU) |
Fuel state | Solid |
Neutron energy spectrum | Thermal |
Primary control method | Control rods |
Primary moderator | Water |
Primary coolant | Liquid (light water) |
Reactor usage | |
Primary use | Generation of electricity and propulsion |
Power (thermal) | RITM-200: 175 MWth RITM-400: 315 MWth |
Power (electric) | RITM-200: 55 MWe RITM-400: 120 MWe |
The RITM-200 is an integrated Generation III+ pressurized water reactor developed by OKBM Afrikantov and designed to produce 55 MWe. The design is an improvement of KLT-40 reactor. It uses up to 20% enriched uranium-235 and can be refueled every 10 years for a 60 year planned lifespan in floating power plant installation.[1] If installed in a stationary power plant the fuel cycle is 6 years.
The RITM-200 has a compact integrated layout placing equipment within the steam generator casing, halving system weight compared to earlier designs and improving ability to operate in rolling and pitching seas.[2]
It powers the Project 22220 icebreakers, the first of which went critical in October 2019.[3]
In November 2020 Rosatom announced plans to place a land-based RITM-200N[4] SMR in isolated Ust-Kuyga town in Yakutia.[5] The reactor will replace current coal and oil based electricity and heat generation at half the price.[6] Technical design for this type of RITM-200 core should be finished in 2022.