RU180830U1 - Horizontal steam generator housing for nuclear power plants - Google Patents

Abstract

The utility model relates to nuclear energy, and more specifically to horizontal steam generators of nuclear power plants. The invention aims to reduce the mass and cost of a horizontal steam generator housing for nuclear power plants. The technical result of the utility model is a new design of a horizontal horizontal steam generator housing for nuclear power plants with reduced geometric dimensions and mass. The technical result is achieved by the fact that in the well-known case of a horizontal steam generator for nuclear power plants, consisting of welded interconnected cylindrical shells, in which there is a Central shell, according to the proposed utility model, the inner diameter of the Central shell is not less than 37 times the thickness of the Central shell, while there is at least one cylindrical shell, whose inner diameter is not less than 40 times the thickness of this cylindrical shell. Thus, the proposed case of a horizontal steam generator for nuclear power plants in comparison with the prototype has a reduced metal consumption and weight. l the application of the proposed technical solution is determined by reducing the cost of thinner cylindrical shells, reducing the time to manufacture thinner cylindrical shells and welding, as well as reducing the cost of the case of a horizontal steam generator for nuclear power plants.

Description

The utility model relates to nuclear energy, and more specifically to horizontal steam generators of nuclear power plants.

A well-known case of a horizontal steam generator for nuclear power plants consisting of cylindrical shells welded together, in which there is a central shell (B.I. Lukasevich, N. B. Trunov, Yu.G. Dragunov, S.E. Davidenko, Steam generators of VVER reactor plants for nuclear power plants . - M.: IKC "Akademkniga", 2004. p. 191) - adopted as a prototype.

The disadvantage of this case of a horizontal steam generator for nuclear power plants is its high mass and cost, caused by the large thickness of the cylindrical shells.

The objective of the invention is to reduce the mass and cost of the housing of a horizontal steam generator for nuclear power plants.

The technical result of the utility model is a new design of the horizontal steam generator housing for nuclear power plants, which has reduced geometric dimensions and weight.

The specified technical result is achieved by the fact that in the known case of a horizontal steam generator for nuclear power plants, consisting of cylindrical shells welded together, in which there is a central shell, according to the proposed utility model, the inner diameter of the central shell is not less than 37 times the thickness of the central shell, this has at least one cylindrical shell whose inner diameter is not less than 40 times the thickness of this cylindrical shell.

The essence of the utility model is illustrated by the drawing shown in FIG. one.

In FIG. 1 shows a fragment of the casing of a horizontal steam generator for nuclear power plants.

In the case of a horizontal steam generator for nuclear power plants declared in a utility model, consisting of cylindrical shells welded together, in which there is a central shell, according to the proposed utility model, the inner diameter D of the central shell is not less than 37 times the thickness of the central shell S, while at least one cylindrical shell whose inner diameter d is not less than 40 times greater than the thickness s of this cylindrical shell.

The case of a horizontal steam generator for nuclear power plants is one of the main parts of a horizontal steam generator for a reactor installation (RU) with a water-water power reactor (VVER). The case of a horizontal steam generator for nuclear power plants is designed to connect heat-collector collectors, a water supply pipe, a steam pipe and auxiliary pipelines to it. Inside the casing of the horizontal steam generator for nuclear power plants, various internal shell devices are installed, with the main volume being occupied by heat transfer pipes. After the installation of all the internals and heat transfer pipes, the ends of the horizontal steam generator body are welded with special bottoms.

When designing the case of a horizontal steam generator for nuclear power plants, the main requirement is to ensure its strength and durability. Given the presence of a significant number of holes in the horizontal steam generator case for nuclear power plants, each of which leads to a decrease in strength, the designers are forced to increase the thickness of the horizontal steam generator case for nuclear power plants to ensure strength criteria. The larger the diameter of the hole, the more it reduces the strength, therefore, the holes in the central shell make the largest contribution to the decrease in the strength of the horizontal steam generator housing for nuclear power plants. Designers of the case of a horizontal steam generator for nuclear power plants conservatively and often unreasonably increase the thickness of the cylindrical shells welded together, which make up the case of a horizontal steam generator for nuclear power plants. Especially strongly, in excess of the necessary, increase the thickness of the Central shell.

In existing horizontal steam generators, for example, for the NPP-2006 project, the thickness of the central shell is 145 mm with an inner diameter of 4200 mm, so the inner diameter of the central shell is 29 times the thickness of the central shell. In the horizontal steam generator AES-2006, the thickness of the side shell is 110 mm with an inner diameter of 4200 mm, so the inner diameter of the side shell is 38 times the thickness of the central shell.

In the proposed utility model, in order to reduce the weight and cost of the case of a horizontal steam generator for nuclear power plants, it is proposed to reduce conservatism and excess reserves in the thickness of cylindrical shells and use a central shell of thickness S not more than 113.5 mm, and a side shell not more than 105 mm thick. With the inner diameter of the shells D = d = 4200 mm, it turns out that the inner diameter D of the central shell is not less than 37 (4200 / 113.5) times greater than the thickness S of the central shell, and the inner diameter d of the side cylindrical shell is not less than 40 ( 4200/105) times the thickness s of this cylindrical shell.

The use of cylindrical shells of reduced thickness in the case of a horizontal steam generator for nuclear power plants gives the following mass gain:

1. The standard central shell of a length of 5000 mm with a decrease in thickness from 145 mm to 113.5 mm will be lighter by 19192 kg;

2. Standard side shells with a total length of 6.4 m with a decrease in thickness from 110 mm to 105 mm will be lighter by 3464 kg;

3. In general, the weight reduction will be 22656 kg.

Thus, the proposed case of a horizontal steam generator for nuclear power plants in comparison with the prototype has a reduced metal consumption and weight.

The economic efficiency of the proposed technical solution is determined by reducing the cost of thinner cylindrical shells, reducing the time to manufacture thinner cylindrical shells and welding, as well as reducing the cost of the case of a horizontal steam generator for nuclear power plants.

Claims (2)

1. The case of a horizontal steam generator for nuclear power plants, consisting of cylindrical shells welded together, in which there is a central shell, characterized in that the inner diameter of the central shell is not less than 37 times the thickness of the central shell. 2. The case of a horizontal steam generator for nuclear power plants according to claim 1, characterized in that there is at least one cylindrical shell whose inner diameter is not less than 40 times the thickness of this cylindrical shell.

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