RU2298131C2 - Block-type detachable heat insulation for the equipment with the cylindrical part of its surface - Google Patents

Abstract

FIELD: heat-and-power industry; production of the block-type detachable heat insulation for the equipment with the cylindrical part of its surface.

SUBSTANCE: the invention is pertaining to the field of the heat-and-power engineering, in particular, to the equipment of the atomic power stations, in particular, to the heat insulation of bodies of the large-dimensioned high-temperature equipment (the heat-exchange apparatuses and the high-pressure vessels). The technical result of the invention is the increased efficiency and reliability of the heat insulation of the equipment of the atomic power station. The block detachable heat insulation of the equipment with the cylindrical part of its surface contains the heat-insulating blocks with the fastenings; the heat insulation blocks are located directly on the surface of the heat-insulated equipment, which is free from the installed on the cylindrical part of the surface of the heat-insulated equipment at least, two support rings. At that the heat-insulating blocks and the support rings are tightened to each other by means of the locks.

EFFECT: the invention ensures the increased efficiency and reliability of the heat insulation of the equipment of the atomic power stations.

6 cl, 2 dwg

Description

The invention relates to the field of power engineering, in particular to nuclear power plant equipment, and relates to thermal insulation of large-sized high-temperature equipment cases (heat exchangers and pressure vessels).

The main requirements for thermal insulation used in the pressurized volume of nuclear power plants are:

- reduction of heat loss from equipment to the environment,

- reduction in the amount of emissions of heat-insulating material during mechanical destruction of thermal insulation as a result of an accident, which can clog filter devices and heat exchangers of the emergency cooling system of a nuclear power plant reactor.

- reduction of time for installation and dismantling of thermal insulation during periodic monitoring of metal equipment, as well as welded joints on it.

The last requirement is related to the radiation situation in the pressurized volume of the nuclear power plant and is crucial to reduce the impact of ionizing radiation on the operational and repair personnel of the nuclear power plant during inspection and repair work.

A known design of thermal insulation of a metal shell containing mats of fibrous material and protective metal sheets, pressing them to the insulated shell using fasteners. Moreover, the metal sheets are made in the form of a box covering the mat and have flanges parallel to the box planes on two adjacent sides of the flange, in the area of which the box has at least two flat racks located at right angles to each other and fastened with an insulated sheath, and the plane of the box is made with overhanging at least over one of the flanges and forms with it a nest to hold the side of the adjacent box, without flanging. (RF patent No. 2195604, IPC ⁷ F 16 L 59/00, publ. December 27, 2001).

The disadvantage of this design of thermal insulation of the metal shell is that the mat and the box are secured to the sheath by welding, which makes this structure non-separable during operation and, therefore, unacceptable to the equipment of nuclear power plants, requiring periodic monitoring of the outer surface of the buildings and located on them welded joints.

In addition, the attachment of thermal insulation to equipment by welding affects the mechanical properties of the material of the equipment.

Panel thermal insulation was selected as a prototype according to the technical solution set forth in RF patent No. 2195604.

The technical task of the invention is the creation of a collapsible and quick-detachable thermal insulation of NPP equipment.

The technical result of the invention is to increase the efficiency and reliability of thermal insulation of nuclear power plant equipment, as well as to reduce the exposure of technical personnel to ionizing radiation during periodic operation of the equipment during the operation of the nuclear power plant and its repair by reducing the time it takes to remove and subsequently install thermal insulation blocks on the controlled equipment.

The technical result is achieved due to the fact that in a block removable thermal insulation of equipment with a cylindrical part of the surface containing heat-insulating blocks with fasteners, heat-insulating blocks are placed directly on the surface of the insulated equipment, free from at least two supporting devices installed on the cylindrical part of the surface of the insulated equipment rings, and the heat-insulating blocks and support rings are fastened together using locks. In addition, the support rings are made of at least two sectors. In addition, the sector is made in the form of inner and outer boxes, in which one side is made without a wall, the inner box being made smaller in relation to the outer one, the inner and outer boxes being inserted into each other with the sides without walls, forming a closed cavity. In addition, the boxes of the supporting ring sector are fastened to each other by means of threaded connections, which ensure the movement of the boxes relative to each other. In addition, the internal cavity formed by the boxes is filled with heat-insulating material.

The essence of the invention is illustrated by drawings, where:

figure 1 shows a steam generator, on the housing of which is placed a block removable thermal insulation of the proposed design;

figure 2 shows a cross section of a thermally insulated steam generator along aa;

figure 3 shows a cross-section of the support ring along BB;

figure 4 shows a lock for block thermal insulation.

The proposed design of the removable thermal insulation block of the equipment of the nuclear power plant of the present invention consists of heat-insulating blocks 1, support rings 2 made of the outer 3 and 4 inner boxes, interconnected by a threaded pair consisting of a pin 5 and a nut 6 and filled with heat-insulating material 7, locks 8.

Block removable thermal insulation of NPP equipment is installed on heat-insulated equipment as follows. The sectors of the support rings 2, consisting of the outer 3 and inner 4 ducts, are filled with insulating material. Then, using threaded pairs (stud 5 and nut 6), evenly placed on the outer surface of the sector, the outer and inner boxes are interconnected. Sectors are laid on the cylindrical surface of the body of the insulated equipment, are interconnected by locks 8, forming a support ring. The distance between the support rings 2 is determined by the size of the heat-insulating blocks 1. Next, the heat-insulating block 1 is placed between the support rings 2. The locks 8 are installed on the heat-insulating block 1 and the support rings 2, by means of which the heat-insulating blocks are fixed on the support rings, and the gap between the heat-insulating blocks is also minimized and support rings. Next, the next heat-insulating block is installed, which, after installing the locks, is fixed on the support rings and on the previously installed heat-insulating block. Thus, one row of thermal insulation blocks is assembled. The remaining rows are assembled similarly, forming a heat-insulating shell during the assembly process.

Minimization of gaps between adjacent blocks of thermal insulation is carried out by adjusting the locks.

The presence of elongated holes for a threaded connection on the outer box provides the difference in thermal expansions of the body of the insulated equipment and thermal insulation.

The fastening of heat-insulating blocks 1 on heat-insulated equipment and pipelines without welding does not affect the mechanical properties of the metal of the body of the heat-insulated equipment, and also significantly reduces emissions of heat-insulating material in cases of damage to the integrity of pipelines or buildings 8 of the equipment of the reactor plant of the NPP during operation.

The proposed design of removable block thermal insulation of equipment and pipelines of nuclear power plants during operation during periodic monitoring of the metal of the equipment casing and pipelines, as well as the welded joints placed on it, allows you to remove individual blocks of thermal insulation or a number of thermal insulation blocks, freeing them from engagement with adjacent blocks and support rings locks, which significantly reduces the time for dismantling and subsequent installation of heat-insulating blocks in the control area and after its assembly.

Claims (5)

1. Block removable thermal insulation of equipment with a cylindrical part of the surface, containing insulating blocks with fasteners, characterized in that the insulating blocks are placed directly on the surface of the insulated equipment, free from installed on the cylindrical part of the surface of the insulated equipment, at least two support rings, and heat-insulating blocks and support rings are fastened together with locks. 2 Block removable thermal insulation of equipment with a cylindrical part of the surface according to claim 1, characterized in that the support rings are made of at least two sectors. 3. Block removable thermal insulation of equipment with a cylindrical part of the surface according to claim 2, characterized in that the sectors are interconnected by locks. 4. Block removable thermal insulation of equipment with a cylindrical part of the surface according to claim 2, characterized in that the sector is made in the form of internal and external ducts, in which one side is made without a wall, and the inner duct is made smaller in relation to the outer, and the inner and outer boxes are inserted into each other with sides without walls, forming a closed cavity. 5. Block removable thermal insulation of equipment with a cylindrical part of the surface according to claim 4, characterized in that the boxes are fastened to each other by means of threaded connections that allow the boxes to move relative to each other. 6. Block removable thermal insulation of equipment with a cylindrical part of the surface according to claim 4 or 5, characterized in that the internal cavity formed by the boxes is filled with heat-insulating material.

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