RU95115125A - SYSTEM OF PROTECTION OF THE PROTECTIVE SHELL OF THE REACTOR INSTALLATION OF A WATER-WATER TYPE - Google Patents

Claims (14)

1. The protection system of the protective shell of the reactor installation of the water-water type, containing a pressure zone 1, a reactor 2, a support of the annular tank 3, located under the zone of the nozzles of the reactor vessel, thermal insulation of the vessel 4, annular tank 5, air supply pipelines 6, subreactor room 7, technological corridor 8, well 9, pumping pump 10, characterized in that at the outlet of the air supply pipelines 6 to the subreactor room 7, taking into account the heat insulation profile of the apparatus body 4, at least one grating is installed 11, drainage 12 in the form of perforated pipes, perforated channels, I-beams, perforated box-shaped structures and other profiles is installed on the floor of the subreactor room 7 under the thermal insulation of the apparatus body 4 and in the technological corridor 8, on the floor of the subreactor room 7 into the holes made in the bottom of the heat insulation of the case apparatus 4, taking into account the installed drainage 12, supports 13 are installed, on installed supports 13 above the bottom of the insulation of the apparatus 4 with a gap that takes into account thermal and elastic elongations insulation of the apparatus body 4, a support structure 14 is installed in the form of a lattice or perforated sheet, on the installed support structure 14, taking into account the heat insulation profile of the apparatus body 4 with a minimum clearance to the side surfaces of the heat insulation of the apparatus body 4, taking into account its thermal expansion and mechanical vibrations, dry heat-resistant are installed elements 15 consisting of at least one water-tight flexible plastic sheath 16 and porous, granular and other filler 17 filling the remaining inside the heat insulation of the apparatus 4, the volume to the bottom of the reactor vessel 2 with the profile being repeated with a minimum gap to the outer surface of the bottom of 150 mm, to the installed drain 12 taking into account the heat insulation profile of the apparatus 4 close to the walls of the subreactor room 7 sectorially between the outlets of the air supply pipelines 6 are installed elastoplastic air compensators 18, located to the annular tank 5, in the form of a bellows, sets of springs, springs, profiled plates and other structures of the hull type, located about the perimeter of the subreactor room 7, covering the side surface and fastened together by welding, bolts or other methods with a gap for the passage of air between the insulation of the apparatus 4 and the elastoplastic air compensators 18 of at least 300 mm, a support structure is installed on the drainage 12 installed in the technological corridor 8 19 in the form of a lattice or perforated sheet, installed on a supporting structure 19 installed in the technological corridor 8 at a distance of not less than 100 mm from the walls and not less than 500 mm from the ceiling heat-resistant refractory elements 20 are provided in the form of rectangular or other profiled elements, supports 21 are installed on the floor of the well 9, taking into account the profile of the pipeline of the pumping pump 10, on the installed supports 21, taking into account the profile of the pipeline of the pumping pump 10, a support structure 22 is installed in the form of a grating, perforated sheet or a frame made of pipes, box-shaped structures and other profiles, to an installed supporting structure 22, taking into account the profile of the pipeline of the pumping pump 10 and taking into account the profile of the installed in the technological corridor 8 of heat-resistant refractory elements 20, elastoplastic air compensators 23 are installed in the form of a bellows, sets of springs, springs, profiled plates and other housing-type structures, and elastoplastic air compensators 23 are installed on the installed profile of the pumping pump 10 with a gap of at least 500 mm supporting structure 24 in the form of a lattice, perforated sheet or frame made of pipes, box-shaped structures and other profiles, the passage section of which is not less e the free passage cross-sectional area in the technological corridor, on the supporting structure 24 installed above the elastoplastic air compensators 23, taking into account the profile of the pumping pump 10 with gaps with a total area of not less than the remaining free cross-sectional area, dry heat-resistant elements 15, consisting of at least at least one water-tight flexible plastic sheath 16 and porous, granular and other filler 17 filling the well 9, taking into account its profile and Given the technological flow area of the corridor 8, the inlet 9 into the well with the profile pipe of the drain pump 10 is set for at least two piping 25 supplying the cooling water.  2. The protection system of the protective shell of the water-type reactor plant according to claim 1, characterized in that the drainage 12 in the form of perforated pipes, perforated channels, I-beams, perforated box structures and other profiles is made with limiters 26 in the form of welded, bolted and other connections between drainage elements 12.  3. 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 15 installed at different heights in the sub-reactor room 7 are filled with various types of fillers, low-melting and refractory.  4. The protection system of the protective shell of the reactor installation according to claim 1, characterized in that the dry heat-resistant elements 15 are made with a flexible, hard-strength, articulated or other type of frame 27. 5. The protection system of the protective shell of the reactor installation according to claim 1, characterized in that the dry heat-resistant elements 15 are made with at least one external tensile strength heat-resistant to a temperature of at least 400 ^o C shell 16 and at least one internal elastoplastic, water tight, heat resistant to a temperature of at least 400 ^o C shell 28.  6. The protection system of the protective shell of the reactor plant according to claim 1, characterized in that the inner shell 28 is made in the form of at least two independent inner shells located adjacent to one another and occupying the entire inner volume of the outer shell 16.  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 elastoplastic air compensators 18 installed around the perimeter of the subreactor room 7 are made in the form of cylindrical sectors.  8. The protection system of the protective shell of the reactor installation according to claim 1, characterized in that the elastoplastic air compensators 18 are installed around the perimeter of the subreactor room 7 without gaps.  9. 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 elastoplastic air compensators 18 located between the outlets of the air supply pipelines 6, protective devices 29 are installed in the form of perforated boxes or gratings.  10. The protection system of the protective shell of the reactor installation according to claim 1, characterized in that the elastoplastic air compensator 18 is made in the form of an arched structure that transfers normal (radial) pressure to the side surfaces of the compensator, thereby transferring the load to other rigidly connected elastoplastic air compensators through the side surfaces by surprise.  11. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that the elastoplastic air compensators 23 installed in the well 9 are made in the form of parallelepipeds.  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 elastoplastic air compensators 23 installed in the well 9 are made in the form of short sections crumpled in the direction of the acting force.  13. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that the support structure 22 installed in the well 9 is made with wide-profile passage sections.  14. The protection system of the protective shell of the reactor plant of the water-water type according to claim 1, characterized in that the support structures 22 and 24 are installed in the well 9 on the supports 21 and on the elastoplastic air compensators 23 in the form of crushable, destructible or breakable elements.