Classifications

• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F22—STEAM GENERATION
  • F22B—METHODS OF STEAM GENERATION; STEAM BOILERS
  • F22B37/00—Component parts or details of steam boilers
  • F22B37/02—Component parts or details of steam boilers applicable to more than one kind or type of steam boiler
  • F22B37/10—Water tubes; Accessories therefor
  • F22B37/20—Supporting arrangements, e.g. for securing water-tube sets
  • F22B37/205—Supporting and spacing arrangements for tubes of a tube bundle
  • F22B37/206—Anti-vibration supports for the bends of U-tube steam generators
• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F22—STEAM GENERATION
  • F22B—METHODS OF STEAM GENERATION; STEAM BOILERS
  • F22B37/00—Component parts or details of steam boilers
  • F22B37/002—Component parts or details of steam boilers specially adapted for nuclear steam generators, e.g. maintenance, repairing or inspecting equipment not otherwise provided for

Definitions

• the technical field of the invention is that of pressurized water nuclear power plants. More particularly, the technical field of the invention is that of steam generators for pressurized water nuclear power plant.
• the present invention relates to an antivibration bar for a tube bundle of a steam generator.
• the pressurized nuclear power plant sector uses low enriched uranium as fuel and ordinary water as moderator and coolant. These plants are called “indirect cycle” because they comprise two separate circuits: the primary circuit extracts the energy produced by the reactor and transfers it to the secondary circuit, which transforms it into steam and then electricity.
• FIG. 1 shows a steam generator 1 of pressurized water nuclear reactor.
• the steam generator 10 comprises an outer envelope 1 1 in which is disposed, inside a bundle envelope 12, a bundle 13 of tubes.
• the bundle 13 consists of U-bent tubes 14.
• Each U-bent tube 14 has a first right branch 14-1 and a second right branch 14-2 connected by a semicircular hinge 14-3.
• the tubes 14 of the bundle 13 are arranged in several rows juxtaposed to constitute the bundle 13.
• a row of tubes comprises tubes 14 whose hangers 14-3 have different radii from each other and are placed adjacent in the same plane vertical, parallel to the first section plane P1 of Figure 1. More specifically, the hangers 14-3 of the same row of tubes 14 have decreasing radii from the periphery of the beam 13 to its central portion.
• the beam 13 has: - A lower portion of substantially cylindrical shape and having the straight branches 14-1, 14-2 of the tubes 14 of the beam 13;
• FIG. 1 shows an inlet 15-1 and an outlet 15-1 of a primary circuit for fluid circulation, and a 16-1 input and an output 16-2 of a secondary fluid circulation circuit.
• the circulation of primary fluid inside the tubes 14 and the circulation of secondary fluid in contact with the tubes 14 causes the tubes 14 to vibrate in such a way as to keep the tubes 14 and to prevent them from colliding, the straight branches 14-1, 14-2 of the tubes 14 are engaged in spacers 17 situated at regular distances from each other along the height of the steam generator 10, and the hangers 14-3 of the tubes 14 of the bundle 13, which constitute the bun, are maintained by means of antivibration bars 18 interposed each between two rows of adjacent tubes of the beam 13 and arranged in a radial direction of the bun.
• These antivibration bars 18 are generally connected in pairs in an articulated manner at their end 18-1 disposed towards the inside of the bun to form V-shaped structures.
• the outer ends 18-2 of the antivibration bars opposite their hinged ends 18 -1 are generally salient with respect to the tubes constituting the outer layer of the bun.
• These outer ends 18-2 are generally fixed to fasteners 19 placed on the upper surface of the bun.
• the antivibration bars 18 thus maintain the bangs 14-3 of the bun to minimize their vibrations, while allowing their expansion when the steam generator 10 is in operation.
• a mounting set between the antivibration bars 18 and the beam hangers 14-3 is necessary.
• This game causes, when the steam generator 10 is in use, residual vibrations of the beam hangers. These residual vibrations are accompanied by brief and intense shocks and friction generating wear and premature deterioration of the beam hangers at the areas of contact with the antivibration bars.
• the invention offers a solution to the problems mentioned above, by providing an antivibration device capable of limiting the vibrations of the bun hangers of a bundle of tubes in a steam generator, while minimizing wear and deterioration. beam hangers at the areas of contact tubes / antivibration bars, and therefore increasing their service life.
• the invention therefore relates to an antivibration bar adapted to be interposed between the tubes of the two adjacent rows of tubes of a U-tube bundle of a steam generator and comprising:
• At least one internal element said damping element, adapted to mechanically dampen the vibrations of the tubes;
• said percussion element in contact with said damping element, said percussion element being adapted to be in contact with the hangers of the tubes of the bundle.
• the damping element and the percussion element are used in order to limit the wear and deterioration of the beam hangers.
• the wear is related to the distances rubbed between the antivibration bar and the beam hangers, as well as the intensity of the contact forces and the repetition of the contacts.
• the damping element in the antivibration bar according to the invention makes it possible to improve the absorption of the impact energies, by mechanically attenuating the intensity of the forces and the rebound energy after impact, and thus by reducing the repetition of the impacts. .
• the antivibration bar according to the invention may have one or more additional characteristics among the following, considered individually or in any technically possible combination:
• the antivibration bar comprises a clearance of damping between said damping element and said percussion element, said damping game comprising a fluid producing a viscous damping.
• the percussion element has a surface treatment capable of improving their hardness.
• the wear of the percussion element is advantageously reduced.
• the damping element advantageously has a blade shape.
• damping elements are advantageously used by superimposing them.
• a damping element undergoes, during an impact, a microdeformation.
• the microdeformation of said damping element causes a microfrottement of said damping element against the second damping element. This microfrotement generates damping.
• the damping element and a second damping element extending on either side of the core of the I-section.
• the I-section contributes to the stiffening of the antivibration bar.
• the damping element is formed by a flexible cable having a plurality of strands.
• the antivibration bar advantageously comprises: a first support piece having a first groove;
• the first and second support pieces being adapted to maintain in position the damping element and the percussion element while ensuring a clearance between said damping element and said percussion element.
• the antivibration bar of the invention advantageously has a clearance between two consecutive elements in which there is a fluid for achieving a viscous damping.
• the fluid is for example air, or water in the liquid phase and / or vapor.
• a plurality of damping elements is used to optimize this viscous damping.
• the percussion element is advantageously a blade.
• the percussion element is advantageously a tube that surrounds the damping element.
• the damping element is advantageously a tube.
• the damping element is advantageously a tube.
• the invention also relates to a steam generator comprising:
• each tube having a semi-circular bend, the tubes being arranged in several rows, each row comprising tubes whose bends have radii which are different from one another and are placed adjacently in one same vertical plane, the hangers forming an upper portion of the substantially hemispherical shaped beam called bun;
• FIG. 1 shows a sectional view of a pressurized water nuclear reactor steam generator.
• FIG. 2 shows a sectional view of an antivibration bar according to a first embodiment of the invention.
• FIG. 3 shows a sectional view of an antivibration bar according to a second embodiment of the invention.
• FIG. 4 shows a sectional view of an antivibration bar according to a third embodiment of the invention.
• FIG. 5a shows a sectional view of an antivibration bar according to a fourth embodiment of the invention.
• FIG. 5b shows a sectional view of an antivibration bar according to a variant of the fourth embodiment of the invention.
• FIG. 6 shows a sectional view of an antivibration bar according to a fifth embodiment of the invention.
• the invention relates to an antivibration bar 20 of a steam generator such as the pressurized water nuclear reactor steam generator 10 described in FIG.
• the antivibration bar 20 according to a first embodiment of the invention is able to replace the antivibration bar 18 of the steam generator 10 of FIG.
• FIG. 1 previously described, shows a sectional view along the first plane P1 of the steam generator 10 of pressurized water nuclear reactor.
• FIG. 2 shows a cross-section along a second plane P2 of center O and orthogonal axes x and y, said second plane P2 being perpendicular to the first plane P1 of the antivibration bar 20 according to the first embodiment of FIG. invention.
• the antivibration bar 20 comprises:
• the damping blades 22 are advantageously made of a stainless material and a adapted roughness, able to provide a large viscous damping.
• the first and second percussion blades 23-1 and 23-2 may undergo surface treatment, such as nitriding, to improve their hardness.
• the damping blades 22 preferably have, in a direction Ox, the same width L1. Alternatively, the damping blades 22 may have, in the Ox direction, different widths. The damping blades 22 have, in a direction Oy, the same height H.
• two consecutive damping blades 22 have between them a clearance 25.
• a fluid for example air or water in liquid phase and / or steam, is trapped in the game 25, which allows to create a damping viscous which is added to the mechanical damping damping blades 22.
• the percussion elements 23-1 and 23-2 are percussion blades, of height H in the direction Oy.
• the first and second percussion elements 23-1 and 23-2 present preferably, following the direction Ox, the same width L2.
• the first and second percussion elements 23-1 and 23-2 may have, in the Ox direction, different widths.
• the damping blades 22 as well as the first and second percussion elements 23-1 and 23-2 are held together by a first weld bead 24-1 and a second weld bead 24-2.
• FIG. 3 shows a cross-section, along the second plane P2 of center O and of orthogonal axes x and y, of an antivibration bar 30 according to a second embodiment of the invention.
• the antivibration bar 30 according to the second embodiment of the invention comprises:
• a first percussion blade 33-1 and a second percussion blade 33-2 a first percussion blade 33-1 and a second percussion blade 33-2.
• the profile 31 at I has a first end 31 -1 and a second end 31 -2 connected by a core 31 -3.
• the damping blades 32 extend between the first and second ends 31 -1 and 31 -2 of the profile 31 and on either side of the core 31 -3 of the profile 31.
• the damping blades 32 according to the second embodiment are advantageously made of a material capable of providing a high mechanical damping and two consecutive damping blades 32 advantageously have a clearance between them. A fluid is trapped in the set 35, which creates a viscous damping which is added to the mechanical damping of the damping blades 32.
• the first and second percussion blades 33-1 and 33-2 extend between the first and second ends 31 -1 and 31 -2 of the profile 31 and on either side of the damping blades 32. and second percussion blades 23-1 and 23-2 according to the first embodiment, the first and second percussion blades 31 -1 and 31 -2 according to the second embodiment may undergo a surface treatment, such as a nitriding, to improve their hardness.
• the first and second percussion blades 33-1 and 33-2 each have a first end and a second end.
• the first percussion blade 33-1 is made integral, at its first end, the first end 31 -1 of the section 31 by means of a first weld bead 34-1.
• the second percussion blade 33-2 is made integral, at its first end, with the first end 31 -1 of the profile 31 by means of a second weld bead 34-2.
• the first percussion blade 33-1 is secured, at its second end, the second end 31 -2 of the section 31 through a third weld bead 34-3.
• the second percussion blade 33-2 is secured, at its second end, the second end 31 -2 of the section 31 through a fourth weld bead 34-4.
• FIG. 4 shows a cross-section, along the second plane P2 of center O and of orthogonal axes x and y, of an antivibration bar 40 according to a third mode embodiment of the invention.
• the antivibration bar 40 according to the third embodiment of the invention comprises: a first support part 41 substantially parallelepipedic and having a first groove 41 -1;
• damping blades 43 the ends of which are inserted firstly in a central part of the first groove 41 -1 of the first support part 41 and secondly in a central part of the second groove 42-1 of the second support piece 42;
• the damping blades 43 according to the third embodiment are advantageously made of a material capable of providing a high mechanical damping and two
• the resulting damping blades 43 advantageously have a clearance 46 between them. A fluid is trapped in the set 46, which makes it possible to create a viscous damping, which is added to the mechanical damping of the damping blades 43.
• the first percussion blade 44 has a first notch 44-1 at its first end and a second notch 44-2 at its second end.
• the first percussion blade 44 is embedded:
• the second percussion blade 45 has a first notch 45-1 at its first end and a second notch 45-2 at its second end.
• the second percussion blade 45 is thus embedded:
• the first and second blades Percussion members 44 and 45 according to the third embodiment may be surface treated, such as nitriding, in order to improve their hardness.
• the first and second support pieces 41 and 42 thus hold the first and second percussion blades 44 and 45 and the blades in position. damping 43 at their ends, while allowing some displacement of the percussion blades and damping blades, related to the presence of the game 46, during a collision between the antivibration bar 40 and a tube.
• the damping blades and the percussion blades could be combined.
• the percussion blades are formed by the outer surfaces of the damping blades may have improved hardness properties.
• FIG. 5a shows a cross section, along the second plane P2 of center O and of orthogonal axes x and y, of an antivibration bar 50 according to a fourth embodiment of the invention.
• the antivibration bar 50 according to this fourth embodiment of the invention comprises:
• a first support part 51 substantially parallelepipedic and having a first groove 51 -1; a second support piece 52 substantially parallelepipedic and having a second groove 52-1;
• a damping flexible cable 53 comprising a plurality of strands
• the first percussion blade 54 has a first notch 54-1 at its first end and a second notch 54-2 at its second end.
• the first percussion blade 54 is embedded:
• the second impact blade 55 has a first notch 55-1 at its first end and a second notch 55-2 at its second end.
• the second percussion blade 55 is embedded:
• first percussion blade 54 has a first semicircular cavity 54-3
• second percussion blade 55 has a second semicircular cavity 55-3.
• the first and second semicircular cavities 54- 3 and 55-3 are thus able to form, when they are positioned facing one another, a circular cavity 56.
• the circular cavity 56 is able to house the damping cable 53.
• the damping cable 53 is a flexible cable constituted by a plurality of strands capable of deforming and forming a mechanical damping during an impact with a tube.
• This operating clearance advantageously exists between the first percussion blade 54, the damping cable 53 and the second percussion blade 55.
• This operating clearance houses a fluid which makes it possible to create a viscous damping. This viscous damping is in addition to the mechanical damping of the damping cable 53.
• the first and second percussion blades 54 and According to the first variant of the fourth embodiment of the invention can undergo a surface treatment, such as nitriding, to improve their hardness.
• the first and second support pieces 51 and 52 thus hold the first and second percussion blades 54 and 55 in position at their position. ends, while allowing some displacement of the percussion blades and the damping cable 53, related to the presence of the operating clearance, during a collision between the antivibration bar 50 and a tube.
• FIG. 5b shows a cross section, along the second plane P2 of center O and of orthogonal axes x and y, of an antivibration bar 60 according to a variant of the fourth embodiment of the invention described above.
• the antivibration bar 60 is identical to the antivibration bar 50 described above with the exception of the percussion blades.
• the antivibration bar 60 has in effect:
• a second percussion blade 65 having a second trapezoidal cavity 65-3.
• the first and second trapezoidal cavities 64-3 and 65-3 are thus able to form, when they are positioned facing one another, a hexagonal cavity 66.
• the hexagonal cavity 66 is able to house the damping cable 53.
• This variant offers the advantage of allowing greater radial deformation of the damping cable 53 subjected to compression, thus greater mechanical damping.
• FIG. 6 shows a cross-section, along the second plane P2 of center O and of orthogonal axes x and y, of an antivibration bar 70 according to a fifth embodiment of the invention.
• the antivibration bar 70 according to this fourth embodiment of the invention comprises:
• damping tube 72 surrounding the damping blade 71; a percussion tube 73 surrounding the damping tube 72.
• the thickness of the walls of the damping tube 72 and the percussion tube 73 is, for example, 0.5 mm.
• the damping blade 71 and the damping tube 72 are advantageously made of a material capable of providing a high degree of mechanical damping.
• the damping blade 71 and the damping tube 72 advantageously have a clearance 74 between them.
• the damping tube 72 and the percussion tube 73 advantageously have a clearance 75 between them. A fluid is trapped in the game 74 and in the game 75, which allows to create a viscous damping which is added to the mechanical damping of the damping blade 71 and the damping tube 72.

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• Engineering & Computer Science (AREA)
• Physics & Mathematics (AREA)
• Thermal Sciences (AREA)
• Mechanical Engineering (AREA)
• General Engineering & Computer Science (AREA)
• High Energy & Nuclear Physics (AREA)
• Pipe Accessories (AREA)
• Vibration Prevention Devices (AREA)
• Measuring Volume Flow (AREA)
• Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
• Vibration Dampers (AREA)
• Apparatuses For Generation Of Mechanical Vibrations (AREA)

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Publications (2)

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• 2013
  • 2013-07-19 FR FR1357124A patent/FR3008779B1/fr not_active Expired - Fee Related
• 2014
  • 2014-07-17 KR KR1020167002421A patent/KR102281895B1/ko active IP Right Grant
  • 2014-07-17 US US14/904,929 patent/US10641480B2/en active Active
  • 2014-07-17 JP JP2016526642A patent/JP6622198B2/ja active Active
  • 2014-07-17 CN CN201480040908.3A patent/CN105556207B/zh active Active
  • 2014-07-17 WO PCT/EP2014/065408 patent/WO2015007851A1/fr active Application Filing
  • 2014-07-17 EP EP14741855.2A patent/EP3022487B1/de active Active
  • 2014-07-17 ES ES14741855T patent/ES2824027T3/es active Active
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• 2016
  • 2016-01-19 SA SA516370424A patent/SA516370424B1/ar unknown

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