CS239272B1 - Model of inverted steam generator - Google Patents

Abstract

In the present solution they are in space between the pressure jacket and the cladding arranged transverse bulkheads, one time a chamber formed by a circumferential casing, pressurized with a sheath and two adjacent transverse bulkheads, there is only one passage injection device through the inter-tube space. The solution can be used above all for steam generators with built-in inter-tube space.

Description

BACKGROUND OF THE INVENTION The present invention relates to a model of an inverted steam generator with a built-in inter-tube space comprising a central tube, stepped baffles and a cladding located within a pressure jacket of a model designed to verify the inverted steam generator properties. .

Verification of the properties of steam generators with a metal heat carrier when the water, steam or steam-water mixture penetrates into the liquid metal is performed on special models on which a special injection device is installed allowing injection of precisely dosed amount of water, steam or steam-water mixture into the selected generator.

It is particularly difficult to introduce the injection device into the interior of the heat exchange tube in the inverted steam generator model in which the liquid metal flows inside the heat exchange tubes and the injection device then has to pass through the wall of the pressure jacket, the wall of the peripheral jacket and the wall of the heat exchange tube. of the tubes and the injection device itself.

There are known designs of models of inverted steam generators in which the pressure jacket passage is sealed by a suitably designed weld joint by only partially reducing the passage opening. For assembly reasons, it is not possible to completely close the passage, since after insertion of the injection device there is insufficient access to the passage.

However, this allows the water flow to penetrate into the space between the pressure and peripheral shells, which causes a short-circuit flow and completely changes the flow conditions in the model against the part. This, however, reduces the amount of information obtained in experimental verification of steam generator behavior and also reduces the applicability of the results to the work, as the flow properties of the model are greatly changed.

This increases the financial costs of the experiment as well as the energy consumption. The above-mentioned disadvantages are eliminated by the inverted steam generator model of the invention according to the invention, characterized in that transverse baffles are arranged in the space between the pressure jacket and the peripheral jacket, with one chamber formed by the envelope, the pressure jacket and two adjacent transverse baffles. only one passage of the injection device through the inter-tube space.

The advantage of this arrangement is that the chamber can be sealed before the injection molding device is mounted and the sealing can be done so perfectly that the short circuit of water is prevented and the flow around the heat exchange tubes is not restricted and varied. By introducing this sealing of the injection device passage, it is possible to install a variety of injection devices on a single model, which increases the usability of the model and improves its economic indicators, including energy savings.

An exemplary embodiment of the inverted steam generator model of the invention is shown in the accompanying drawing, which shows a cross-sectional view of a steam generator model at one chamber.

The heat transfer tubes 5 are arranged around the central tube 6 within the circumferential jacket 6 and the pressure jacket 7. Between the pressure jacket and the peripheral jacket 2, transverse baffles 3 are provided, which together with the pressure jacket 1 and the peripheral jacket 2 form a chamber 3 through which the injection device 6 passes.

In the inter-tube space 7 between the circumferential jacket 4, the central tube 5 and the heat exchange tubes 5, baffle plates are placed. The injection device 4 passes through the pressure jacket 7 through the circumferential jacket 2 and flows into the heat exchange tube 6. The passage of the circumferential casing 2 is not sealed around the injection device 8, so that the inter-tubular space 7 is connected to the chamber 9, which, however, is tightly closed in the axial direction by the transverse baffles 3 which prevent short-circuit flow. The transverse partitions 3 can be welded to the peripheral skirt 2 and the pressure skirt 1 so that the sealing of the chamber is almost absolute.

Claims (1)

SUBJECT OF THE INVENTION Model of inverted steam generator with inter-pipe space built-in central tube, stepped bulkheads and cladding inside the pressure jacket of the model designed to verify the properties of the inverted steam generator when water, steam or steam flows into the liquid metal flowing inside heat exchange tubes. a plurality of water, steam or liquid metal injectors arranged in different heat exchange tubes and at different distances along the longitudinal axis of the model, characterized in that transverse shells (1) and peripheral shells (2) are arranged transversely a baffle (3), wherein only one passage (11) of the injection device (8) of the inter-tube space is provided with one chamber (9) consisting of a peripheral envelope (3), a pressure envelope (1) and two adjacent transverse baffles (3). / 7 /.