FIELD: industrial power engineering; reactors for heat and power generation. SUBSTANCE: energy is generated by fusion of elementary particles and their antiparticles as result of impact deformation fields built up in material due to effect of extremely deep penetration of finely dispersed powder flow with particle size of 10 mcm and greater into target during their acceleration to speeds as high as 1000 m/s and more. Particles are accelerated to speed at which crater-forming bursts are recorded on target surface whereupon particle speed is reduced until bursts disappear. Particle flow organized is coaxial with respect to target and is fanned out. Reactor implementing this method has pressurized powder-particles charging bin with batcher, casing that functions at the same time as coolant jacket, coolant chamber, pressurized working chamber made in the form of cylindrical target and closed at butt ends with end plates, main target in the form of heat-transfer ribs, central tubular post, main accelerator, annular deflector with slits, centrifugal pre-accelerator assembly in the form of ribbed disk, device for cleaning inner wall of cylindrical target, inlet nozzle, and outlet nozzle for coolant. EFFECT: facilitated energy production and enhanced excess energy generation efficiency. 5 cl, 26 dwg
