EP0078728A1 - Antivibration support for a tube bundle, particularly for a steam generator, and assembly method for this support - Google Patents

Abstract

This anti-vibration holding device for a bundle of tubes is made up of corrugated metal strips (7a, 7b), each row of tubes (5) receiving at least one set of two metal strips extending transversely to the tubes, on both sides and d 'other of the row of tubes, the metal strips (7a, 7b) being curved in the direction of the tubes at each tube (5, 11) and being curved in the other direction at each interval separating the tubes (5 , 11), the strips (7a, 7b) located on either side of the same tubes thus being brought close to one another, between the tubes, with however a small space (18) separating them, it is also provided with clamping elements (19, 21) intended to exert a force for clamping the bands towards each other at the zones situated between the tubes, so as to apply with predetermined force the bands on the part and d 'other of the tubes, at the level of the curved zones in the direction of the tubes. Application in particular to tubes of steam generators.

Description

The present invention relates to a device intended to hold in place a set of tubes forming a bundle while limiting as much as possible the vibration of these tubes. This device can be applied in particular to the maintenance of a bundle of tubes constituting the water-steam circuit of a sodium-water type steam generator which is used in particular in nuclear power plants of the fast neutron type.

The invention also relates to the method of mounting such a device.

In heat exchangers, one of the circuits of which consists of a bundle of tubes, it is common to encounter difficulties in positioning and holding these tubes in place. One difficulty lies in the fact that there are often differential expansions between the tubes, which prohibits any absolutely rigid fixing at different points of the tubes. Another difficulty lies in the fact that the tubes being in a fluid flow at high speed, this results in phenomena of vibrations in the tubes, and it is therefore necessary to provide supports which absorb these vibrations and which are distributed in such a way that the free sections of the tubes do not have a natural frequency close to the frequency of the vibrations.

Such a problem of fixing a bundle of tubes is particularly important and delicate in the case of a steam generator of the sodium-water type in which the water-steam circuit consists of a bundle of tubes extending to inside an enclosure in which hot liquid sodium circulates. The essential difficulty inherent in the sodium-water type steam generator stems from the fact that liquid sodium has excellent thermal conductivity, a quality much appreciated but which nevertheless has the drawback of inflicting violent temperature variations on the tube bundle. in transient operation, causing significant differential expansions in these tubes.

Various devices for holding the bundle of tubes have already been proposed but they have certain drawbacks, in particular a relatively large complexity, a risk of deformation or wear of the tubes when clamped by the support, a lack of control of the level of the internal stresses developing in the tubes due to their differential expansions, and a lack of constancy over time of the fixing and anti-vibration characteristics.

The present invention relates to a device which maintains tubes with elasticity by means of metal strips. The dimensions and shapes of these bands provide a point contact on the tubes which allows movements (rotations and axial sliding) of these tubes during operation. The arrangement of the device contributes to the frequency of moving the bands / or the tubes could be excited in a common mode. around the tubes It allows the flow, of fluid /. The elasticity of the strips makes it possible to accept differences in position during assembly.

The present invention relates to a device for holding a bundle of tubes housed in an enclosure in which a fluid circulates comprising around these tubes arranged in rows, / at least one pair of metal strips each having undulations suitable for receiving the tubes, the corrugations of the two bands arranged on either side of a row being located opposite so that the tubes are clamped under the action of clamping elements arranged between said corrugations and tightening said bands towards each other and it is characterized in that the ends of the strips are joined together and at the fixed parts of the enclosure.

According to one characteristic, each strip has at each corrugation in contact with a tube a slight curvature in the transverse direction so that the lateral parts of the strip are distant from the tube and that only the central part of the strip is in contact with this one.

According to another characteristic, the radius of the corrugation in contact with a tube is greater than the radius of the tube.

According to another characteristic, the metal strips are made of steel with high elastic limit.

• La figure 1 est une vue simplifiée en coupe longitudinale de la partie supérieure du faisceau tubulaire d'un générateur de vapeur.
• La figure 2 est une coupe partielle selon A-A de la figure 1, au niveau d'un dispositif de support.
• La figure 3 est une coupe partielle selon B-B de la figure 1, au niveau d'un autre dispositif de support.
• La figure 4 est une vue agrandie d'un dispositif de support de la figure 1.
• La figure 5 est une coupe selon C-C de la figure 4.
• La figure 6 est une coupe selon D-D de la figure 5.
• La figure 7 est une coupe selon E-E de la figure 5.

Other advantages and characteristics specific to the invention will appear during the embodiment which follows, illustrated by the appended figures.

• Figure 1 is a simplified view in longitudinal section of the upper part of the tube bundle of a steam generator.
• Figure 2 is a partial section along AA of Figure 1, at a support device.
• Figure 3 is a partial section along BB of Figure 1, at another support device.
• FIG. 4 is an enlarged view of a support device from FIG. 1.
• FIG. 5 is a section along CC of FIG. 4.
• FIG. 6 is a section along DD of FIG. 5.
• FIG. 7 is a section along EE of FIG. 5.

The exemplary embodiment was taken in the field of steam generators of the sodium-water type used in a nuclear power plant of the fast neutron type.

Referring to Figure 1 we distinguish the upper part of a structure or enclosure of steam generator which consists essentially of an outer vertical cylindrical envelope 1 and a central cylindrical tube 2 providing between them an annular space.

Tubes 3 are housed in this annular space separating the tube 2 and the casing 1. Hot liquid sodium circulates in the annular space between the casing 1 and the tube 2 which confine the sodium stream. This current is parallel to the axis of cylinders 1 and 2 and goes from bottom to top. The sodium gives up its heat in passing to pressurized water which circulates in the tubes 3 and which then turns into vapor.

The tubes 3 are arranged thus wound in the greater part of the steam generator and their lower and upper ends open in a known manner outside the casing 1 of the steam generator. ,

In Figure 1 we see the connection with the outside of the upper end of the tubes 3. After the end of the winding zone 4 of the tubes 3 constituting the tube bundle proper, these tubes are arranged longitudinally in their part 5 , then gathered and curved into the shape of lyres in their part 6 before crossing the envelope 1 and extending outside of the envelope 1 from where they are collected in a known manner and not shown here. All of the longitudinal parts 5 of the tubes will hereinafter be called the bundle of tubes and the curved parts 6 of the tubes will hereinafter be called the lyres.

In the steam generator that we have taken as an example of an embodiment, the tubes, after having completed their winding phase 4, are bent so as to form the parts 5 extending longitudinally and all lying along radii 9a and 9b evenly distributed in the steam generator.

The invention particularly relates to the devices 7 and 8 serving to maintain and dampen the vibrations of the ends of the tubes 3. The device 7 is arranged at the longitudinal parts of the tubes 5 and the device 8 _- further from the beam. is arranged near the lyres 6. In FIG. 2, there is shown, in top view, the beam holding devices and in FIG. 3, there is shown, in top view, the lyres holding device. It is noted that the holding devices of these two types are constructed in a completely similar manner.

Each device comprises strips of sheet metal of constant thickness 7a, 7b, 8a, 8b, which each form corrugations 16 adapted to the tubes and between which zones 17 extend. The strips extend transversely to the tubes 5 and perpendicular to the sodium current and they are mounted in pairs on either side of each row 9a, .9b of tubes 5 so as to grip the tubes as in a collar and to hold them in place.

To describe in more detail the shape of the metal strips 7 or 8, reference will now be made to FIGS. 5, 6 and 7. It can be seen in FIGS. 6 or 7 that the corrugated metal strips 7a, 7b are curved by forming the corrugations 16 at the level of each tube. The two strips associated with the same row of tubes form housings through which the tubes pass. The strips are curved in the zones 17 extending between the waves and corresponding to the intervals separating the tubes. In FIG. 7, a distinction is made between the zones 17 of the bands 7a and 7b at the level of which they are closest together so as to provide a relatively small space 18. In each of these zones 17 are provided orifices through which pass bolts 19, 21 intended to bring the metal bands 7a and 7b together in order to cause the zones 16 of these metal bands to pinch the tubes and thus obtain a holding in place of all the tubes, however, allowing a certain elasticity in the assembly as well as a certain longitudinal sliding of the tubes due to differential expansions and a certain damping of vibrations in the whole of the bundle of tubes.

_- Each metal strip is applied against the tubes on one side only. In this way two adjacent metal strips applied against the tubes of two adjacent rows are separated and provide a space for the circulation of sodium.

The ends of the two strips 7a, 7b mounted on either side of the same row of tubes are joined together. In addition, the ends between bands associated with the different rows are joined. To this end, the ends of the strips are fixed by known means to circular parts 12, 13, 14, 15 which are integral with the components 1 and 2 of the enclosure.

The force of pinching the tubes must be strong enough to be effective, without, however, causing a matting or notching of these tubes. It is also planned, for this purpose, to give the metal strips, at the pinching zones 16 a slight curvature in the transverse direction, as can be seen in FIG. 5, so that the lateral parts of the strip are slightly away from the tube on which the strip comes into contact, and that only the Central portion 20 ^<the strip is in contact with the tube. It is also preferable to provide for the curved zone 16 of the metal strip a radius of curvature R1 slightly larger than the radius R2 of the tube 5 or of the part 11 so that the mounting of the metal strips on the tubes admits slight variations. distances between the tubes without creating abnormal stresses in them.

All the details of the shape of the strips 7a and 7b described above are applicable to the metal strips 8a, 8b which form the support device for the lyres 6.

The tube parts 5 do not occupy all of the possible locations on the different spokes 9a, 9b, etc. This is of course only linked to the mode of construction of this steam generator which has been taken as an example of embodiment. We therefore see, in Figures 1 and 2, locations 10 which are not occupied by one of the sections 5 of the tubes. As the distribution of the tubes 5 on a radius 9 is different for all these radii, instead of constituting different metal support sheets adapted to each of the rows of tubes arranged on the different radii 9a, 9b, etc., the metal strips have been constructed all identical, of wavy shape and the locations 10 devoid of tubes are occupied by cylindrical parts of diameter equal to that of the tubes. In FIG. 4, which is an enlarged side view of FIG. 2, there are such cylindrical parts 11 intended to replace the missing tubes 5.

As in this exemplary embodiment. all the tubes arranged on the same radius 9a, 9b, etc., are then assembled equidistantly to form the lyres 6, at the level of the lyres support device 6 which is represented in FIG. 3, there are no more missing tubes , and therefore there is no longer any need to have cylindrical parts 11. The corrugated metal strips 8a, 8b, etc., are therefore quite similar to the metal strips 7a and 7b. They are just shorter.

It is desirable that this pinching force of the tubes remains constant over time. In the case of a sodium-water steam generator, which must operate for several decades, and which is subjected to a temperature of around 525 °, as well as to significant thermal shocks, the choice of the material making up the strips metallic becomes delicate. The present invention solves this problem by choosing the component material. metal bands which is a steel with high elastic limit when hot. A suitable steel is an austenitic alloy steel with structural hardening preferably comprising titanium and aluminum. Such a steel is entirely suitable for the use which is made of it here in a steam generator of the sodium-water type because it has both a high elastic limit comparable to that of hardened steel and a large coefficient of elongation or high ductility which is the characteristic of stainless steels. It can therefore maintain at 525 ° and even more a high elastic stress without practically any creep, even after a relatively long time.

The invention also relates to the method of mounting the antivibration support device described above. It is in fact important that the clamping force of the tubes which is established at the zones 20 of the metal strips has a substantially constant value for all the tubes. This pinching force is achieved by screwing in: bolts 19. Consequently, the assembly process specific to the invention consists in placing the metal strips 7a and 7b, or 8a and 8b, on either side of the tubes, to install the bolt 19 by screwing its nut 21 there with a minimum torque so that the rotation of the nut is interrupted as soon as the: metal bands begin to exert a pinching force on the neighboring tubes, then continue to screw the nut 21 on the bolt 19 at a predetermined constant angle of rotation, so as to create in the strips, between each tube, a predetermined constant deflection, and consequently to create a force for pinching the tube itself relatively constant and predetermined , then finally to immobilize the nut 21 on the bolt 19 by any appropriate means, for example by carrying out a substantial matting, a pinning, or a welding point.

The invention is not limited to the embodiment which has just been described, on the contrary it includes all the variants thereof and it is possible to modify the details without going beyond the ambit of the invention. The invention can be applied in particular to any device comprising a tube bundle.

Claims (8)

1.- Device for holding a bundle of tubes (5) housed in an enclosure (1,2) in which a fluid circulates around these tubes arranged in rows (9a, 9b) comprising on either side of each row noins a pair of metal strips (7a, 7b, 8a, 8b) each having corrugations (16) adapted to receive the tubes, the corrugations of the two strips arranged on either side of a row being located in screw screw so that the tubes are clamped under the action of clamping elements (19,21) disposed between said corrugations and clamping said strips towards each other characterized in that the ends of the strips are joined between them and to the fixed parts of the enclosure. 2.- Device according to claim 1, characterized in that each metal strip (7a, 7b) has at each corrugation (16) in contact with a tube (5), a slight curvature (20) in the transverse direction so that the lateral parts of the metal strip are distant from the tube and that only the central part of the strip is in contact with this one. 3.- Device according to one of claims 1 and 2, characterized in that the radius of curvature (Rl) of the metal strip, of each corrugation (16) in contact with a tube (5) is greater than the radius (R2) of the tube. 4.- Device according to any one of claims 1 to 3, characterized in that the corrugated metal strips (7a, 7b, 8a, 8b) are made of steel with high elastic limit. 5. An anti-vibration support device according to claim 4, characterized in that said steel is an austenitic steel with structural hardening. 6.- anti-vibration holding device according to any one of the preceding claims, characterized in that, for each corrugation of corrugated metal strip, all / curved (16) in the direction of the tubes come into contact with a tube (5) or, failing this, with a replacement part (11) of cylindrical shape and of diameter equal to that of the tubes. 7.- A method of mounting an anti-vibration holding device for a bundle of tubes according to claim 4, characterized in that it consists in applying a corrugated strip (7a, 7b, 8a, 8b) to each c8té from the row of tubes to be immobilized, screw in the bolts (19,21) mounted on the corrugated bands until they are in the start-to-pinch position bands on the tubes, then to continue screwing the bolts according to a predetermined constant angle of rotation value, so as to create in the bands, between each tube, a predetermined constant deflection.

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