RU97101153A - SYSTEM OF PROTECTION OF THE PROTECTIVE SHELL OF THE REACTOR INSTALLATION OF A WATER-WATER TYPE - Google Patents

Claims (8)

1. The protection system of the protective shell of the reactor installation of the water-water type, containing a containment zone 1, a reactor 2, boxes of steam generators 3, a supporting farm 4, thermal insulation 5 of the cylindrical part of the reactor vessel, dry protection metal structure 6, concrete shaft 7 with a subreactor room 8, characterized in that in the concrete shaft 7, at the floor level of the subreactor room 8, an annular collector 9 is made, the upper part of which is made in the form of a dome with stiffeners 10 dividing the annular collector 9 into sectors and providing tightness between these sectors, connected in its lower part to the subreactor room 8 with wide-profile penetrations 11 for water passage in the form of windows or arches, in the concrete shaft 7, a device is made for supplying the heat carrier 12 to the concrete shaft 7, consisting of at least two channels in the form wells, pipelines or radial slots connecting the boxes of the steam generators 3 and the annular collector 9, in the concrete shaft 7, a device for removing the heat carrier 13 from the concrete shaft 7 is made, consisting of at least two channels in the form of wells, pipes wires or radial slots connecting the upper part of the concrete shaft 7 and the boxes of the steam generators 3, a drain 15 is installed on the floor of the subreactor room 8 in the form of perforated pipes, perforated channels, I-beams or perforated box structures, a basket 14 made of sheets is installed on the installed drain 15 pipes, channels, I-beams or box structures using welded, bolted or riveted joints between the elements of the basket, and the bottom 16 of the basket 14 is made with holes for the passage of heat perforation, and the cylindrical part of the basket 14 is installed with a gap of at least 50 mm to the walls of the subreactor room 8, at the top and bottom of the cylindrical part of the installed basket 14, perforation is made at least 300 mm high, on the bottom 16 of the installed basket 14 close to the cylindrical part of the basket 14 and close to each other, occupying the entire volume of the basket 14, refractory elements 17 are installed with voids in the form of vertical blind holes 18, through vertical holes 19 and horizontal grooves 20 for the passage of the coolant, refractory elements 17 in the form of T-shaped, rectangular, U-shaped or shaped bricks are installed in layers to form channels in the horizontal and vertical directions, on the refractory elements 17 installed in the basket 14 close to the cylindrical wall of the concrete shaft 7 with the profile of the outer surface repeated the bottom of the reactor vessel 2 has a water-tight limiter cap 21 made of sheets, pipes, channels, I-beams or box structures using welded, bolted or riveted joints eny between elements limiter cover 21 with a central opening in the lid, the stopper 21 formed in the range of 0.5-5 m ² for coolant flow, mounted on the cover limiter 21 on the side facing towards the bottom of the reactor body 2, is set not less than three support ribs 23 with a height of 100-450 mm, located radially along the bottom of the reactor vessel 2 and repeating its profile, a safety housing 24 is installed on the installed support ribs 23, made with the profile of the bottom of the reactor vessel 2 repeating and completely covering the bottom and neither the bottom of the cylindrical reactor vessel 2 to a height not lower than the height of the cartridge heads in the core, on the inner side of the installed safety housing 24, facing the bottom of the reactor shell 2, across its entire area close to each other and to the inner surface of the safety housing 24, s by repeating the profile of the bottom and the cylindrical part of the reactor vessel 2, heat-resistant refractory elements 25 are installed, made in the form of T-, Z-, U-shaped, rectangular or shaped plates, on heat-resistant refractory elements 25 and tight to them with a repetition of the bottom profile and the cylindrical part of the reactor vessel 2, with a gap to the outer surface of the bottom and the cylindrical part of the reactor vessel 2, taking into account thermal expansion of the vessel, a cover 26 is installed, made in the form of a solid or perforated thin-walled case, in the form of a grid with in the form of plates or in the form of a corrugated grate, between the end surface of the safety housing 24 and the outer cylindrical surface of the reactor vessel 2 is installed a bellows 27, sealing the space m Between the inner surface of the safety housing 24 and the outer surface of the bottom and the cylindrical part of the reactor vessel 2, at least two breathing pipes 28 are installed in the concrete shaft 7 connecting the boxes of the steam generators 3 with the upper part of the space between the inner surface of the safety housing 24 and the outer surface of the bottom and the cylindrical part reactor vessel 2.  2. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that the axis of the vertical holes 19 on adjacent refractory elements 17 are offset from each other.  3. The protection system of the protective shell of the reactor plant of the water-pressurized type according to claim 2, characterized in that the refractory elements 17 are made of zirconia hydration hardening concrete with neutron absorbers introduced into it.  4. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that the installed cover-limiter 21 is rigidly connected to the cylindrical wall of the basket 14 using welded, bolted or riveted joints. 5. The protection system of the protective shell of the reactor plant of the water-water type according to claim 4, characterized in that the bottom of the installed cover-limiter 21 is made at an angle of inclination to the center of the cover-limiter at least 15 ^o , while the contact surface of the cover-limiter 21 with refractory elements 17 have a funnel inclined to the center of the cap-limiter, the lower section of which is located on the axis of symmetry of the cap-limiter 21, and the upper section is at a radius distance from its axis.  6. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that inside the installed cap-limiter 21 around the Central hole for the passage of coolant with the repetition of the internal profile of the cap-limiter 21, with a gap of at least 50 mm to the inner side of the surface of the cap-limiter 21 facing the bottom of the reactor vessel 2, an air compensator 22 of steam and hydrogen explosions is installed, sealed in water from the side facing the bottom of the reactor vessel 2, and from the side facing ilindricheskoy wall concrete shaft 7.  7. The protection system of the protective shell of the reactor plant of the water-water type according to claim 6, characterized in that the air compensator 22 for steam and hydrogen explosions is made in the form of symmetrically arranged sealed elastic cylindrical sectors.  8. The protection system of the protective shell of the reactor plant of the water-water type according to claim 6, characterized in that at least one hydrodynamic damper 29 is installed in the installed air compensator 22 for steam and hydrogen explosions, made in the form of a perforated sheet, flexible membranes or elastically wound plates.