DE1451270C3 - Heat exchanger of a nuclear reactor plant - Google Patents

Description

The invention relates to a heat exchanger of a nuclear reactor installation in a pressure vessel with a circular cross-section arranged polygonal assemblies, which, closed laterally by walls, are open at the top and bottom and contain piping for the heat-absorbing equipment.

Such a heat exchanger is z. B. from British patent specification 861 060 known. With this one segment-shaped heat exchanger elements are used, which are stacked in several layers are arranged. The segment-shaped elements have the disadvantage of poor utilization of the circular cross-section, as this version requires a displacement body in the middle. In addition, the individual elements are difficult to replace. After all, it is because of the segment-shaped Training also makes it difficult to manufacture the individual elements, as they contain coiled tubes each of which has a different shape.

From the Austrian patent specification 203 027 (Fig. 5) is a heat exchanger of a nuclear reactor plant known, in which rectangular assemblies in a pressure vessel with a circular cross-section are arranged. In this embodiment, however, there is still the disadvantage that it is difficult to develop of the elements. On the other hand, there is one from the magazine Atomkernenergie, 1962, p. 454 Nuclear reactor plant known in which a heat exchanger is arranged in the pressure vessel of the nuclear reactor and is located below the actual reactor core.

The invention aims to create a heat exchanger of the type mentioned, which has the disadvantages the known heat exchanger of nuclear reactor plants does not have a good utilization of a circular cross-section of the pressure vessel and easy replaceable individual Allows assemblies, while at the same time being easier to manufacture the assemblies, in particular thereby it is achieved that the coils of the individual

jo nen assemblies are all essentially the same .be able to.

The aim according to the invention is thereby achieved. that the assemblies take the form of rectangular boxes have and in a single layer on supports on the bottom of the pressure vessel below the Reactor core are set up.

Since the aim of the invention only through the entirety of the features of claim 1 or the Subsequent subclaims is achieved for the individual features of claim 1 and in particular No element protection is sought for the characteristics of the internal claims.

The invention is explained using an exemplary embodiment shown schematically in the drawing. It shows

Fig. 1 is a view of an assembly of a heat exchanger according to the invention, partially in Cut,

Fig. 2 shows a detail of the fastening of the pipe strings in the assembly according to FIG. 1,

Fig. 3 the section ΙΠ-1Π in Fig. 2,
F i g. 4 a partial outline of FIG. 2, section IV-IV in Fig. 2,

5 shows the arrangement of the heat exchanger according to the invention in one of the reactor coolants flow through channel, section V-V in F i g. 6,

F i g. 6 shows the section of a reactor system with a heat exchanger according to the invention.

The assembly according to FIG. 1 contains a box-shaped Construction 1, which can be set up on four supports 2. The frame-shaped side parts of the construction 1 are closed off by sheet metal walls 3 which have stiffeners 4. One of the side walls is also provided with a second wall 5 and together with this forms a double wall. The construction 1 is open at the top and bottom to allow the heat-emitting medium to flow. The flow cross-section is rectangular, preferably square. In construction 1 are Pipe strings 6 suspended. The pipe strings 6 are wound by serpentine in a plane Tubes formed. The construction includes a large number of such serpentine tubing strings, the are arranged side by side, namely, as can be seen from Fig. 2, by half the pipe distance offset to a pipe coil; The pipe coils are connected to a collecting pipe 7 at the bottom. The top Connections of the pipe strings lead to manifolds 8,9, which are also down through pipes 10 with a located collector Il are connected. The tubes 10 lead from top to bottom through the through Double wall 3.5 cavity formed. The cavity between the two walls 3,6 is through at the top the corresponding side part of the construction 1, or z. B. completed by special cover plates 12, so that the heat-emitting agent cannot flow through it.

In the F i g. 2 to 4 is the enlarged scale

Attachment of the pipe coils 6 to the walls 3 of the assembly shown. The even parts of the Pipes 6 are provided with ribs 13. The pipe bends of the pipe strings are provided with U-shaped holding parts 20 provided, which are inserted into rails, which are formed by angle profiles 21 and a U-profile 22 each are. The fixing of the holding parts 20 in the rails 21, 22 takes place by means of shims 23, which the Limit play in the vertical direction, and by spacers 24 to limit the play in horizontal ίο valley direction. To avoid a short-circuit flow of the To make it more difficult for the heat-emitting agent to pass the tube sheet, the tube lengths are in front of the tube bends provided with cover plates 25. In addition, shielding plates can be used at certain distances between the pipe bends 26 be inserted, which z. B. on the pipe bends and corresponding support parts 27 on the Support wall 4.

The assemblies are usually in large numbers arranged in the flow channel of the heat-emitting medium, in this case the reactor coolant. They fill this channel more or less, whereby the ones between the assemblies remain free Places closed by cover plates known per se for the flow of the heat-emitting medium are.

The embodiment shown is intended for installation under a reactor. The supports 2 are used for installation on a level floor or a corresponding supporting structure. The Reactor coolant, which z. B. is a gas or steam, flows through the assemblies from top to bottom. The working medium absorbing the heat, preferably water, flows through the pipe strings from down to the top and is passed through the pipes 10 to the collector 11, which is also located below. the The lower part of the tubes 10 and the collector 11 are preferably provided with thermal insulation.

The arrangement of the assemblies in a channel of the reactor is shown in FIG. The reactor coolant flows through a channel K located under the reactor (not shown). A large number of modules E are housed in the channel. The parts O of the cross section that are not filled by assemblies are closed in a manner known per se by cover plates. Similar cover plates in strip form can also be used to cover the gaps between adjacent assemblies.

F i g. 6 shows the section of a reactor system with the heat exchanger according to the invention. A reactor core R is housed in a pressure-resistant building B, for example made of concrete. The assemblies /: 'are located in a channel K under this reactor core. The cover plates sealing the space between the assemblies and the walls of the channel K are denoted by A. The reactor coolant flows through the reactor core from top to bottom, passes from it into the heat exchanger formed by the assemblies E and is guided back up through circulation lines L with circulation fans U in order to re-enter the reactor core.

The arrangement according to the invention has the advantage that due to the absence of pipelines on the the side facing the reactor, the distance between the assemblies and the reactor is very small can be held. L-'s is thereby at construction height the reactor system saved. The welds to be made during assembly, i. H. the connections of pipes to the collectors 7, 11 are on the side facing away from the reactor of the assembly and are therefore less thermally stressed because the heat-emitting medium is at this point has already cooled down by the working fluid. In addition, the pipe material of the assembly forms a additional shielding against radioactive radiation, so that these weld seams after a shutdown of the reactor are more quickly accessible for inspection or repair.

The inventive design of a heat exchanger from assemblies of the form described also has the advantage that even large heat exchangers consist of relatively small, easily transportable Assemblies can be put together. The embodiment shown has the advantage that during the transport in each position of the assembly the pipe strings in the supporting structure 1 are adequately supported and therefore do not require any additional measures during transport.

1 sheet of drawings

Claims (4)

Patent claims: 1. Heat exchanger of a Kemreaktoranlagc with in a pressure vessel with circular Cross-section arranged polygonal main groups, which, closed laterally by walls, above and are open at the bottom and contain pipe strings for the heat-absorbing work medium, thereby characterized in that the assemblies (Zi) are in the form of rectangular boxes have and in a single layer on supports on the bottom of the pressure vessel below of the reactor core are set up. 2. Heat exchanger according to claim I, characterized in that each of the assemblies (E) contains a plurality of identical pipe strings (6) which are wound in a serpentine manner in a plane and parallel to the heating gas flow. 3. Heat exchanger according to claim 1, characterized in that the connections (7, 11) the pipe strings for the supply and discharge of the working fluid of an assembly on the same open side facing away from the reactor. 4. Heat exchanger according to claim 3, characterized in that the diversion of the one End of the assembly pipes through the cavity leading to the connections at the other end a double wall (3.5) takes place, which is closed for the flow of the heating gas.