The BREST fast reactor with nitride fuel and lead coolant is being developed as a reactor of new generation, which has to meet a set of requirements placed upon innovative reactors, namely efficient use of fuel resources, nuclear, radiation and environmental safety, proliferation resistance, radwaste treatment and economic efficiency. Mixed uranium-plutonium mononitride fuel composition allows supporting in BREST reactor CBR~l. It is not required to separate plutonium to produce "fresh" fuel. Coarse recovered fuel purification of fission products is allowed (residual content of FPs may be in the range of 10 2 -10 3 of their content in the irradiated fuel). High activity of the regenerated fuel caused by minor actinides is a radiation barrier against fuel thefts. The fuel cycle of the BREST-type reactors "burns" uranium-238, which must be added to the fuel during reprocessing.
Plutonium is not extracted during reprocessing being a part of fuel composition, thus exhibiting an important nonproliferation feature.
The radiation equivalence between natural uranium consumed by the BREST NPP closed system and long-lived high-level radwaste is provided by actinides (U, Pu, Am) transmutation in the fuel and long-lived products (I, Tc) transmutation in the blanket. The high-level waste must be stored for approximately 200 years to