RU95115126A - SYSTEM OF PROTECTION OF THE PROTECTIVE SHELL OF THE REACTOR INSTALLATION OF A WATER-WATER TYPE - Google Patents

Claims (16)

1. The protection system of the protective shell of the reactor plant of the water-water type, containing a containment zone 1, a reactor 2, a support farm 3, located under the nozzle zone 4 of the reactor vessel, thermal insulation 5 of the cylindrical part of the reactor vessel, metal structure 6 dry protection, air supply pipelines 7, large details of protection of the bottom of the reactor vessel, subreactor room 9, rotation mechanism 10 for inspection of the reactor vessel, manhole 11 with external 12 and internal 13 hermetic doors connected to the service room 14, cable passage ki 15 for supplying electric energy to the subreactor room, characterized in that at the outlet of the air supply pipelines to the subreactor room, taking into account the profile of the rotation mechanism for examining the reactor vessel, at least one restrictor grid 16 is installed that performs protective functions on the subreactor floor premises, taking into account the profile of the rotation mechanism for inspection of the reactor vessel, drainage 17 is installed in the form of perforated pipes, perforated channels, I-beams, perforated box-shaped structures and other on the installed drainage, taking into account the profile of the rotation mechanism for inspection of the reactor vessel, a support structure 18 in the form of a lattice or perforated sheet is installed on the installed support structure, taking into account the profile of the rotation mechanism for inspection of the reactor vessel and taking into account the opening of the internal pressure door, close to the walls of the subreactor room installed elastic-plastic air compensators 19, in the form of a bellows, sets of springs, springs, profiled plates and other structures of the hull type, located under-reactor of the perimeter of the room, covering the entire side surface and bonded together by welding, bolts or other means. dry heat-resistant elements 20, consisting of at least one water-tight flexible-plastic shell, and porous, granular and other filler filling the remaining volume of the subreactor, are installed on the installed supporting structure, taking into account the profile of the rotation mechanism for inspecting the reactor vessel to large-sized details of protection of the bottom of the reactor vessel with the repetition of their profile with a minimum clearance to large-sized protection details of 150 mm and close to the elastic-plastic air compensators , on the manhole door, between the pressure doors, close to the walls and ceiling of the manhole and with a technological gap to the pressure doors, heat-resistant refractory elements 24 are installed in the form of rectangular or other profiled elements, 25 v pipes are installed in the cable penetrations for supplying electricity to the subreactor room in the form of forged, bent, boring and other types of elbows, bounded by a radius of bending, with free ends of at least 200 mm in length, extending from the outer surface of the concrete shaft wall, and one pa the felling designed to drain the coolant from the concrete shaft is made in the form of a bend, the long end of which is lowered to the floor level of the concrete shaft with the condition of normal opening of the internal pressure door, flanges are made on the free ends of the installed pipes on the outside of the concrete shaft wall for connecting and sealing the supply pipelines coolants and coolant removal from a concrete mine.  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 drainage in the form of perforated pipes, perforated channels, I-beams, perforated box structures and other profiles is made with limiters in the form of welded, bolted and other joints between drainage elements.  3. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that on the bent ends of the pipes located within the containment zone, perforation is performed.  4. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that at the long end of the nozzle, lowered to the floor level of the concrete shaft, perforation is performed, and the perforation zone is not more than 100 mm  5. The protection system of the protective shell of the reactor plant of the water-water type according to claims 3 and 4, characterized in that at the ends of the nozzles located within the hermetic zone, a nozzle 28 is installed that performs a protective function.  6. The protection system of the protective shell of the reactor installation according to claim 5, characterized in that the perforation is made on the nozzle.  7. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that the dry heat-resistant elements are filled with various types of fillers: low-melting and refractory to control the speed of distribution of the corium throughout the volume of the subreactor room.  8. The protection system of the protective shell of the reactor installation according to claim 7, characterized in that the dry heat-resistant elements filled with refractory fillers are laid below the exit level of the air supply pipelines to the subreactor room, and the dry heat-resistant elements filled with low-melting fillers are stacked above this level.  9. The protection system of the protective shell of the reactor installation according to claim 1, characterized in that the dry heat-resistant elements are made with a flexible plastic, hard-durable, articulated or other type of frame. 10. The protection system of the protective shell of the reactor installation according to claim 1, characterized in that the dry heat-resistant elements are made of at least one external tensile strength, heat-resistant to a temperature of at least 400 ^o C, the shell, and at least one internal elastic-plastic, water tight, heat-resistant to a temperature of at least 400 ^o C, the shell.  11. The protection system of the protective shell of the reactor installation according to claim 1, characterized in that the inner shell is made in the form of at least two independent inner shells located close to each other and occupying the entire inner volume of the outer shell.  12. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that the elastic-plastic air compensators are made in the form of cylindrical sectors.  13. The protection system of the protective shell of the reactor installation according to claim 9, characterized in that the elastic-plastic air compensators are installed around the perimeter of the subreactor room without gaps.  14. The protection system of the protective shell of the reactor installation according to claim 10, characterized in that the elastic-plastic air compensator is made in the form of an arched structure that transmits normal (radial) pressure to the side surfaces of the compensator.  15. The protection system of the protective shell of the reactor installation according to claim 1, characterized in that the compensators are equipped with elastic mechanical and pneumatic elements designed for elastic deformation at relatively small shock loads, and elements designed for plastic deformation at high shock loads.  16. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that between the sectors of the elastic-plastic air compensators located between the outlets of the air supply pipelines, protective devices are installed in the form of perforated boxes or gratings to prevent blocking of channels when displacements of elements of the protection system during water hammer, steam or hydrogen explosions.