CA1128387A - Steam-generator, particularly for nuclear power stations, with improved facilities for replacement of parts - Google Patents

Abstract

"STEAM-GENERATOR PARTICULARLY FOR NUCLEAR POWER
STATIONS, WITH IMPROVED FACILITIES FOR REPLACEMENT
OF PARTS"

Abstract A steam-generator, particularly to be used in nuclear power stations, with easily detachable parts, especially for the substitution of the tube bundle or a part thereof, comprises five separate portions fastened one to another by means of connections or merely abutting with intermediate sealings. In a substantially cylindrical vessel or housing, defined at the lower end by a distributor chest and at the upper end by a top cover, there are disposed, respectively from the bottom upwards: a heat-exchanger with a bundle of tubes on a common tubeplate, a steam-separator and the drier unit are so supported within the vessel to be readily separable from one another and the vessel by relative vertical displacement therebetween with no interference with the inner wall of the vessel itself. In two alternative embodiments, the distributor chest, i.e. the manifold of the heat-carrier primary medium, is integral either to the heat-exchanger or to the housing.

Description

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Background Or the Invention The present invention relates to steam-generators of the natural-circulation type and in particular refers to those steam~enerators which include therein a drier and a steam-separator being mounted in series with a bundle of tubes capable of being removed and replaced as soon as serious damages or defects should appear in it.
Steam-generators for pressurized~water nuclear power stations are known, which are provided with a bundle of about 4000 U-tubes, arranged in such a way that the outer circumference of the bundle was nearly circular and hence could be fitted into the cylindrically shaped steam-generator shell. The tubes in that case are arranged in such a way that one of their end sections fills out a first semicircular region of the boiler tubeplate, whilst the other end section lies in a second semicircular region opposite to the one first mentioned.
The tubes are welded to the boiler tubeplate; the latter is welded in turn at its outer (usually upper) peripheral area to the cylincrical shell of the steam-generator and along its inner (usually lower) peripheral area to the headpiece of the steam-generatort which is so arranged that the flowing heat-carrier medium gets distributed inside the tubes of the bundle of tubes.
Inside the steam-generator the aforesaid bundle of tubes is furthermore enclosed in addition in an auxiliary shell which in its upper section (steam-generators have a generally vertical development) carries the steam-separator complex which in general is welded thereon.
This auxiliary shell defines inside the steam-generator two different cavities which are connected together ., '`
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~ 3~7 at the end sections. One of these cavities is rnade cylindrical and contains the bundle of tubes, whilst the other is made annular on the outside and designed to convey the secondary liquid to the bottom of the bundle of tubes. These cavities together with the associate comm~lnicating openings are so designed that a chimney draught arises to ensure the return of the fluid evaporat-ing in the steam-generator. Above the steam-separator complex the drier unit is arranged, which in general is welded onto the outer shell of the steam-generator.
Such a steam-generator, when used in the thermonuclear field is generally enclosed in a room defined by massive concrete walls, through which the various pipes pass with the primary and the secondary liquid flowing in and out. In addition there are also the other generally usual connections for apparatus and instruments.
Although the steam-generator is so designed that during its working life damages and defects should be prevented, it is necessary in practice to provide for such an occurrence. For this purpose various openings are usually incorporated into the outer shell or envelope of the steam-generator, through which inspections and lighter repairs may be carried out~ for example, the closing-off of damaged tubes in the tube bundle. But serious defects such as the breakage of a large number of tubes in the tube bundle, require complete substitution of the steam-generator. Such a solution is naturally connected with material cost and the use of time and labour. But above all during this time the plant itself is not available. All this means a heavy cost burden.
In view of the importance of the problem of preventing serious failures or defects in a steam~generator, in particular of nuclear power stations, one might think ~ 3 ~
`, I , ~l~l%~3~7 of solutions which would be directed towards replacing the most sensitive components of the steam generator, i.e., the tube bundle and hence not the steam-generator as a whole. A first solution among all those solutions hitherto proposed in this respect consists, for example, in the housing of the steam-generator being divided up into three different portions which are connected together mechanically by conventional methods. One could then replace only the portion including the tube bundle and also plan in advance all of the necessary steps such as the cutting of the tubes, the removal of the cladding, the dismantling of the supports and mountings, etc.
Another solution might consist in the steam-generator being divided up into two sections, that is, an upper ection with the driers and steam-separators~ and a lower section with the tube bundle; this latter in addition might be subdivided into modular elements to be replaced in case of emergency.
But both these attempted solutions show considerable disadvantages ~hich as far as the first mentioned solution is concerned follow from the necessity of having parts of con~iderable mass and large bulk, to be moved inside the space in ~hich the reactor and the primary system of the power station are accommodated, and having to separate part o~ the connections to the plant such as mountings, piping, etc. Further disadvantages may be found to derive from the second of the solutions mentioned above, further to the aforesaid steps of movement and conVeyance ? due to the complicated instrument equipment and the consequent g~eater probability of defects in the region of the tube bundle.

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Summary of the Invention Hence a first aim o~ the present invention consists in developing a steam-generator which, in the case of such failures as resulting in the replacement of the tube bundle, makes unnecessary any movement or displacement of the outer shell (envelope) of the heat-generator itself, with the exception of a top cover only.
A second aim consists in restricting to an absolutely necessary minimum or even totally to exclude any inter-vention from the outside onto the connections of the steam-generator to the plant, whereby the down-time of the plant itself may be reduced drastically.
A further aim consists in an improvement of the construction of the steam-generator which involves no major alterations with respect to conventional designs and to manufacturing and operating requirements.
With a view to these aims, the object of the invention is to provide a steam-generator being structurally divided up into five different, materially separated parts, which are: a tube bundle with tubeplate, a steam-generator unit, a drier unit, a vessel and a cover for the latter, either the vessel or the tube hundle with the tubeplate being connected directly or indirectly to a distributor housing for the heat-carrier medium. According to the present invention the first three of the aforesaid part-sections are accommodated in the vessel and fitted thereto successively by means of easily removable connections.
The vessel is then closed by the cover through a rigid connection by known devices such as a flange which is bolted according to conventional methods.
It should be realized that the above-mentioned I ~l~Z~33~7~

step~ of assembling and the corresponding steps of dismantling have no interference with the connections and joints between the vessel and the plant. As a consequence any intervention upon the brickwork structures of the room housing the steam~generator is avoided.
Brief Description of the Drawings The present invention will be more fully understood from the following detailed description of some embodiments thereof given by way of non-limiting examples, with reference to the attached drawings~ in which:
FIGURE 1 shows diagrammatically a longitudinal section view of a first embodiment of the steam-generator according to the present invention;
FIGURE 2 shows the same cross-section view of a second embodiment of steam-generator of the invention;
FIG~RES 3 and 4 show in detail respectively two different forms of the connection between the tubeplate and the vessel for the steam-generator in accordance with the embodiment illustrated in Fig. l;
FIG;URE 5, 6 and 7 show in detail respectively three other possible forms of the connection bet~een the tubeplate and the vessel of the steam-generator in the embodiment illustrated în Fig. 2; and FIGURE 8 shows in particular the detachable connection bet~een the tube bundle, the steam-separator unit, : the drier unit and the vessel for any embodiment of ~ the steam-generator according to the present invention.
.` Detailed Description of the Preferred Embodiments ,~ . ~
~ ith reference to the drawings, Fig. 1 diagramatically ahows the modular components of which the steam-generator consists and the corresponding connections when the steam-generator is completely assembled and mounted.
~ All of the com nents of the steam-generator are : - 6 -.., ~ 3~

accommodated inside an outer shell or vessel 1 having on the top a cover 2 and on the bottom a distributor chest 4 with the stubs 4a and ~b through which the heat-carrier liquid is in~roduced and discharged.
Inside the space which is bounded by these parts, considered from the bottom upwards, there may be distinguish-ed a tube bundle 3 with shell 3a and tubeplate 3b, a steam-separator unit 5 and drier unit 6.
In the embodiment illustrated in Fig. 1 the components 3 and 4 are made integral as the distributor chest 4 is for example welded onto the tubeplate 3b. ~he space therebetween is divided in two by a partition 21 ~hich will be described in greater detail with reference to Figs. 3 to 7.
The vessel 1 consists of a cylindrical housing having a frustoconical intermediate zone the diameter of which widens upwards. At its upper end section the vessel is formed such as with a flange to which the cover 2 may be fastened by setscrews 9, whereas at its lower end section with a ring-shaped part 7 of a thicker cross-section, inside which there is a ledge 8 upon which the tube-bundle unit 3 as well as the distributor chest 4 integral therewith rests by means of a corresponding projection of the tubeplate.
Furthermore in this ledge 8 the necessary grooves are formed for the sealing rings or packings. When the steam-generator is in service, the generated steam imparts its pressure upon the tubeplate 3b which is forced against the ledge 8; thus the airtight mechanical connection between the vessel 1 and the complex consisting of the parts 3 and 4 is ensured. In this latter complex a flange 3d is provided on the upper part of the shell 3a surrounding the tube bundle 33 onto ~hich the steam-I ~2~3~7 separator unit 5 iB bolted by means of~ a correspondingflange 5d.
The unit 5 consists of a number (depending upon the capacity of the steam-generator) of cyclone-type separators 5a, which are welded onto a supporting plate 5b, onto the periphery of which is welded a cylindrical member 5c terminating in the above-mentioned flange 5d for the attachement to the tùbe bundle shell 3a. Under normal service conditions both the tube bundle and a part of the steam-separator unit are immersed in the water which is the secondary liquid~
that is, up to a height of fill in operation indicated hy the reference number 10.
The drier unit 6 is arranged in the space overlying the steam-separator unit and consists, for example, of plates of conventional laminated, blade-type driers i6a which are arranged upon the vertical sidefaces one or more cubes or sirnilar hodies. The whole is housed moreover in a cylindrical shell 6b, the len~th of which is dimensioned so that its lower part extends below the fill level 10, i.e. is immersed in the water surrounding the steam-separator for any operating condition. The manner and the means by which the cylindrical shell 6b is fastened to the vessel 1 will be described more in detail in the following with reference to ~ig. 8 ` The connectlons between the steam-generator and the remainder of the plant are all arranged in the housing of the vessel 1 wlth the exception of the inlet and outlet pipes for the heat^carrier liquid, which are welded onto the distributor chest 4. This latter, in the embodiment illustrated in Fig. l? forms an integral component o~ the unit of the tube bundle ....
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~Z~ 7 ~ and the tubeplate 3b. Furthermore the most important connections or joints are shown diagrammatically, with reference to the plant sections external to the steam-generator installation, such as the mounting or support 15 of the steam-generator and the stubs 16 and 17 for the feedwater and the generated steam respectively.
The sequence of the most important operation steps which are necessary in order to dismantle the steam-generator of Fig. 1 is the following:
- Removal of the cover 2 of the vessel 1 by releasing the setscrews 9.
- Removal of the drier unit 6 by simple withdrawal via the top opening.
- Releasing the setscrews in the flanges 3d and 5d on the steam-separator unit 5 and subsequent withdrawal via the opening at the top.
- Detaching (by cutting) of the pipes 4a and 4b which are connected to the distributor chest 4 of the tube bundle.
- Removal by lifting out of the unit, consisting of the tube bundle, tubeplate and distributor chest via the top opening.
These dismantling steps are simple mechanical lifting jobs through the use o~ a pole crane which will probably always be available since lt is needed also ~or other purposes inside the building in which the reactor and the steam-generator are disposed.
Once a defective tube bundle has been removed and hence also the whole unit with the tubeplate and the distributor chest, its substitution is ef~ected by lowering by the same crane the new unit inside the vessel and letting it down onto the corresponding _ 9 _ ~ 333~7 ledge, projection or shoulder 8 which has been provided at the bottom end of the vessel itself. Thenthe stubs of the distributor chest are welded onto the stubs of the inlet and outlet piping (not shown) for the heat-carrier liquid, After this step has been terminated, it is su~ficient in order to complete the mounting of the steam-generator to build first the steam-separator unit 5 into the vessel 1 again, by setting it down on and bolting the same to the flange 3d of the tube bundle shell 3a, and then the drier unit 6 by causing it to rest with the projection 11 on the shoulder 12 in the vessel 1 (see Fig. 8) and finally closing the cover 2 of the vessel again.
As it appears from the present description, with a view to the replacement of a damaged tube bundle o~ a steam-generator, the necessary interventions and measures on the plant structure are restricted to a mere cutting and re-welding process to be carried out onto the piping ~or the heat-carrier liquid, that r is a process which, with special but conventional equipments, can be performed within a very short time.
All other steps which are mainly a question of bolting up or unscrewin~ flange connectiorls as well as hoisting and handling the inner units of the steam-generator, can be performed with the aid of devices which are already provided inside that buildi~g in which the so-called primary circuit of a pressurized-water nuclear power station is accommodated.
With reference to Fig. 2; in which elements similar to those already shown in Fig. 1 are indicated by the same reference numerals, there is shown an alternative emhodiment of the steam-generator described above~
In this alternative embodiment the distributor chest 1~8~187 4 for the heat-carrier liquid is not welded onto the tubeplate 3d but onto the bottom edge 7 of the vessel 1~ thus forming an integral component of the vessel itself. The tubeplate 3b rests upon the shoulder 8' in the vessel, to which it is connected through a number of vertical studs capable to be screwed in from below (as shown in detail in Fig. 7). Pins or pegs 18, 181 and 181l may also be employed~ which as viewed rrom Fig~. 5 and 6 are arranged radially.
In the embodiment just described and illustrated in Figs. 2, 5, 6 and 7, the sequence of the steps for the replacement of a defective tube bundle takes place in the same manner as already described in connection with the embodiment of Fig. 1, with the sing]e e~ception that the step of separating the inlet and outlet pipes for the heat-carrier liquid is not necessary in this case and is subst1tuted by releasing the studs 19 shown in Fig. 7, or withdrawing the pins 18, 18' and 181~ of-Figs. 5 and 6. In view of the special importances of the connections between the vessel 1 and the complex of the tube bundle, tubeplate and distributor chest, these connections will be described in detail below.
Figs. 3 and ll show this connection with reference to the embodiment illustrated in Fig. 1. In detail there may be seen the annular bottom edge 7 of the vessel 1, the seal 20 and one half of the distributor chest 4 separated by the other half by the partition 21 Furthermore for the sake of better clarity only the innermost tube 22 and the outermost tube 23 of the -tube bundle are shown, as well as a lower portion of the shell 3a of the tube bundle. The steam~generator rests with the underside of the edge 7 on a support 15 to which it may be fastened by bolting. The tube ~ ~9~2~3~7 bundle unit 3, with the tubeplate and integral distributor chest ll, rests with the seal 20 on the shoulder 8 inside the bottom edge 7 of the vessel.
The relevant connection is ensured by the pressure from the steam generated by the steam-generator during service. In order to ensure this connection even under conditions o~ catastrophe~ for example~ during an earthquake which in addition should occur at a time when the steam-generator is not in service, pins have been provided, which as may be seen from Fig. 3 may be inserted radially (24) or vertically (24') as shown in Fig. 4.
Figs. 5, 6 and 7 show the connection of the vessel 1 to the unit consisting of the tube bundle and tubeplate 3 as referred to the embodiment illustrated in Fig.

2 As already indicated, here the distributor chest 4 is integral with the vessel 1 and not with the removable tuheplate. In this manner one has the possibility of withdrawing the unit consisting of the tube bundle and tubeplate through the top opening without having to operate upon the vessel from outside and especially with no need of cutting, joining again and rewelding the piping. The tubeplate 3b rests on the shoulder 8~ which is provided with seals 20 and the ~astening thereto is effected by tierods, studs or pins which are so arranged that sealing during operation of the steam-generator is in any case guaranteed. Figs. 5 and 6 show two different possibilities of fastening or connection by radial pins, respectively a single pin 18 and two pins 18'~ 181'. Fig. 7 on the other hand shows a version of the ~stening or connection for the tubeplate 3b and hence for the whole tube hundle unit 3 to the vessel 1~ by means of vertical ~ 12 -I

- ` ~ Z~3~7 studs 19. In order to cause the liquid medium in the steam-generator to be water-tight sealed towards the outside, these studs and tierods or tension members have corresponding metal cap covers 25 which have been welded onto the outer sur~ace of the vessel.
The sealing between the two chambers into which the distributor chest 4 is divided (and which in ~he embodiment of Fig. 2 has a not stationary ceiling as it is not integrally constructed with the tubeplate) is ensured by the twice curved partition 21 which, where it abuts to the inner wall of the distributor chest, is welded thereto along a continuous line, whilst at the top part it is screwed to the tubeplate according to conventional methods.
The mechanical connections and joints and the sealing hetween the tube bundle unit with tubeplate 3 on one hand and the steam-separator unit 5 on the other as well as between the drier unlt 6 and the vessel 1, are shown in Fig. 8. Besides the ~langes 3d and 5d ~Qr the bolted connection between the complex of the tube bundle and tubeplate 3 on the one hand and the steam-separator unit 5 on the other, there is clearly evident ~rom the ~igure the circumferential mounting rib :11 on the cylindrical shell 6b 9 which is provided ~or receiving the corresponding projection 12 which has been ~ormed along the inner wall circum~erence o~ the container 1. The parts 11 and 12 are kept into contact with each other by the operation o~ springs 13 which are compressed between the ~rame o~ the drier unit 6 and associate seats 14 which are provided on the inner ~ace o~ the cover 2 When the steam-generator is completely assemhled and mounted and the setscrews ~ have heen tightened J the springs 13 are in the compressed ~.2~3~7 state and force the shell 6b of the drier unit against the prOJection or shoulder 12 of the vessel.
The sealing between the space inside the shell 6b of the steam-separator and the annular space outside it, which is connected to the steam outlet pipe 17, is ensured by the tight connection between the collar 11 and the projection or shoulder 12 as well as by the fact that the shell 6b extends downward unitl it reaches a level helow the height of fill 10 inside the steam-generator zone occupied by the liquid, whereby in this manner an absolutely satisfactory hydrostatic sealing is realized.
Further additions and/or variations upon the embodiments of the steam-generator which are described above and illustrated may be provided by those skilled in the art without exceeding the scope of the invention.
In particular the various tierods, pins~ mountings, setscrews or pegs may he substituted by mechanically equivalent parts.

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Claims (13)

WHAT I CLAIM IS:

1. A vertical steam-generator having natural circulation in which there is provided inside a cylindrical vessel a bundle of U-shaped tubes being fastened to a tubeplate and housed in a shell, through which flows a primary heat-carrier fluid medium, and being immersed in a secondary fluid medium and above which there are arranged a steam-generator and further above a unit for drying the steam generated, wherein the vessel is closed off by a cover to tbe pressuretight and for the inlet and outlet of the primary medium there is provided underneath the tube plate a distributor chest which is divided into two parts by an elastic wall, above the tubeplate there being provided an inlet for the secondary medium as well as outlet means for the steam being generated, and wherein the tubeplate together with the bundle of tubes, the steam-separator and the drying unit are parts which can be separated mechanically from one another and are connected together or respectively to the vessel by junction members which do not engage in the body of the vessel itself and extend vertically with respect to its interior with no interference with the inwardly extending portions of the vessel.

2. A steam-generator as in claim 1, wherein said connecting and junction members are substantially collars and shoulders having simple contact connection, studs, setscrews and pegs.

3. A steam-generator as in claim 1, wherein said inlet and outlet means for the primary liquid are integral to said tubeplate and independent from the vessel.

4. A steam-generator as in claim 3, wherein said tubeplate is water-tight supported on a shoulder provided with a seal and formed in the inner wall of the vessel, there being provided pins or pegs orientated horizontally or vertically to ensure correct alignment between the vessel and the complex of the tubeplate and distributor chest.

5. A steam-generator as in claim 1, wherein said inlet and outlet means for the primary liquid are integral with the vessel and independent from said tubeplate.

6. A steam-generator as in claim 5, wherein said tubeplate is arranged as resting on a shoulder formed with a seal in the inner wall of the vessel, the connection between the tubeplate and the shoulder comprising a number of tierods and pins acting along a direction parallel to the axis of the vessel.

7. A steam-generator as in claim 6, wherein said pins and tierods are isolated from the outside by a solid welded closure cap.

8. A steam-generator as in claim 5, wherein the tubeplate rests on a shoulder formed with a seal in the inner wall of the vessel and fastened thereto by a number of pegs and pins acting radially or orthogonally to the axis of the steam-generator.

9. A steam-generator as in claim 8, wherein said pegs and pins are isolated from the outside by a protective cap tightly welded thereon.

10. A steam-generator as in claim 1, wherein the steam-separator unit is flanged onto the shell of the bundle of tubes and secured by setscrews and bolts.

11. A steam-generator as in claim 1, wherein the drying unit is fastened to the vessel by means of springs which are kept under compression by the cover of the vessel.

12. A steam-generator as in claim 11, wherein the drying unit is enclosed inside a cylindrical shell having a circumferential overhang arranged to be supported upon a corresponding ring-shaped projection extending inwardly from the inner wall of the vessel and urged against said projection by the action of said springs.

13. A steam-generator as in claim 1, wherein said elastic partition wall by which the distributor chest is divided into two chambers has a double line of curvature, is welded rigidly onto the inner wall of the distributor chest itself and is fastened at the top by setscrews or bolts onto the tubeplate.