RU42100U1 - DEVICE FOR WASHING THE STEAM GENERATOR - Google Patents

Abstract

The utility model relates to nuclear energy, and more specifically to devices for washing steam generators of nuclear power plants. The device is designed to remove contamination of the annular space of bundles of heat exchangers of steam generators caused by undissolved deposits (sludge). The objective of the utility model is to increase the operational reliability of the steam generator. The technical result of the invention is improving the efficiency of the removal of sludge from the annulus. The specified result is achieved by m, which device comprising a drive supply conduit with the nozzle and the camera is further provided with laser raspolozhennm coaxially with the nozzle.

Description

Technical field

The utility model relates to nuclear energy, and more particularly to devices for washing steam generators of nuclear power plants.

State of the art

A device is known / D. Seppala, E. Kilsef, J. Malaugh, F. Kamler. Steam generator waterlancing at DNGS. Candu maintenance conference 1995, pp. 213-225. INIS 1 / 93-12 / 96. / for flushing steam generators containing a drive, a supply pipe with a nozzle and a video camera. The device is designed to remove contamination of the annular space of the bundles of heat exchangers of the steam generators caused by undissolved deposits (sludge) - taken as a prototype.

The disadvantage of this device is the reduced efficiency caused by the difficulties in ensuring the exact position of the nozzle in space, as well as in the visual control of residual deposits in the annulus.

Utility Model Disclosure

The objective of the utility model is to increase the operational reliability of the steam generator.

The technical result of the invention is to increase the efficiency of removing sludge from the annulus.

The specified result is achieved by the fact that the known device containing the drive, the supply pipe with the nozzle and the video camera is additionally equipped with a laser located coaxially with the nozzle.

Brief Description of the Drawing

The essence of the utility model is illustrated by drawings, where Fig. 1 shows a flushing device with a horizontal nozzle and a laser, Fig. 2 shows a nozzle and laser placement unit, and Fig. 3 is a side view of this assembly.

Utility Model Embodiment

The flushing device consists of a supply pipe 1 with a nozzle 2, a video camera 3 and a drive 4. In addition, a laser 5 is installed coaxially with the video camera 3. The drive 4 is located outside the casing of the steam generator 6. The device is located in the space between the bundles of heat exchange tubes 7 of the steam generator.

The device operates as follows. By means of a drive 4, the supply pipe 1 with the nozzle 2 moves along the bundle of the pipe heat exchanger 7 from the bottom up and also around the circumference. In addition, it is possible to fine-tune the angle of the nozzle to the horizontal. High pressure water enters the supply pipe 1 and is sprayed with a thin stream from the nozzle 2. When supplying water, it must be supplied over the entire length of the annulus, otherwise the washing efficiency drops sharply. It is rather difficult to ensure and control, since the height of the corridor, for example, in a steam generator of the PGV-1000 type, is only 3 mm with a length of about 600 mm. Moreover, the height of the tubes is not clearly fixed and may vary. Visual control of the jet using a video camera cannot provide accurate nozzle guidance in height and angle. Before washing, the laser beam from the laser 5 is sent to the annulus. The absence of reflected light allows you to direct the laser strictly parallel to the annulus. As a result of this, due to the coaxial arrangement of the laser and the nozzle, high pointing accuracy and washing efficiency are achieved. In the presence of significant residual deposits, laser illumination allows you to fix them and thus control the washing efficiency after it is completed.

Thus, the proposed technical solution has an advantage over the prototype. By introducing the proposed solution, an increase in the washing efficiency is achieved.

The economic efficiency of the proposed solution is determined by increasing the life of the steam generator and reducing the likelihood of an accident as a result of rupture of the pipes of the steam generator working under pressure.

Industrial applicability

It is most expedient to use the proposed solution in flushing devices for steam generators of nuclear power plants.

Claims (1)

A device for washing steam generators, containing a drive, a supply pipe with a nozzle and a video camera, characterized in that it is additionally equipped with a laser located coaxially with the nozzle.