CS213545B1 - Connection of waveguide with noise and vibration sensor to steam generator - Google Patents

Abstract

In the solution according to the invention, the waveguide is fixed indetachably on the outer shell of the steam generator in the area of the transition between its economizer and exhaust parts, preferably in its bend, and is led out through a bushing with low acoustic attenuation outside its insulation. Here, it is particularly advantageous to install the waveguide at the bend of the steam generator shell. It was found (based on measurements and technical and economic analysis of the noise and vibration measurement system of the steam generator) that from a diagnostic point of view it is sufficient to install one waveguide with an acoustic sensor in the transition between each economizer and exhaust part of the micromodular steam generator and lead the waveguide out of the insulation through an acoustically adapted bushing. This saves at least one waveguide with a sensor on each branch of the steam generator.

Description

The present invention relates to a waveguide connection to a Suma sensor and to a vandal pand generator.

Different types of sensors are used in steam generators of nuclear power plants to measure noise and vibration, especially for diagnostic purposes. These include the acoustic sensors immersed in the working medium in the steam generator, the acelerometers mounted on the casing of the steam generator, the acoustic sensors and the acelerometers mounted on the waveguides mounted on the steam generator. Even when selecting the number of noise and vibration sensors and placing them for diagnostic purposes, it is necessary to find the optimum for the design of the steam generator, both in terms of diagnostics needs and especially in terms of reliability and economy of the whole diagnostic system. At present, it appears that the noise and vibration sensors immersed in the working medium need to be dimensioned for high temperatures, their installation violates the integrity of the steam generator (openings in the jacket) and their possible replacement is only possible when the pand generator is out of service and emptied. Sensors placed directly on the jacket of the steam generator have to be dimensioned again to high temperatures, which makes them very expensive. Therefore, a combination of a sensor with a waveguide appears to be advantageous, where the waveguide is attached to the steam generator and passes through its insulation and outside the insulation, in the temperature range below 100 ° 0, a sensor is mounted thereon. This solution has a number of advantages. The cost of the sensors is relatively low and can be replaced even when the steam generator is running. In terms of diagnostic requirements, however, a large number of waveguide sensors need to be mounted on the pand generator or, based on a number of previous measurements, the most diagnostic locations should be selected, thus reducing the number of noise and vibration sensors installed and minimizing the cost of the entire diagnostic system.

Based on a series of measurements made by the authors, it has been possible to find the most suitable place for the installation of waveguides with noise and vibration sensors for micro-cell steam generators, while their number is minimal. Both of these results bring a technical new and economically advantageous contribution to the diagnosis of microcell steam generators for nuclear power plants.

These drawbacks are solved by connecting a waveguide with a noise and vibration sensor to a pand generator according to the invention. The principle of the invention is that the waveguide is rigidly mounted on the outer casing of the steam generator in the region of the transition of its economizer and vapor part, preferably at its bend and led out through a bushing with low acoustic attenuation outside its insulation. In this case, it is advantageous to install the waveguide at the bending point of the steam generator jacket.

Based on the measurement and technical-economic analysis of the steam generator noise and vibration measurement system, it has been found that from a diagnostic point of view it is sufficient to install one waveguide with an acoustic sensor in the transition of each economizer and evaporator part of the micromodule steam generator. This saves at least one waveguide with a sensor on each strand of the steam generator, usually required for each superheater module - part of the micromodule steam generator. The acoustically matched grommet nswitches the information transmitted by the waveguide to the transducer, while at the same time guaranteeing the internal tightness of the package, the insulated box required for operating power conditions. At the same time, because of the waveguide length and the flow in the steam generator modules, it is advantageous to install a wave

213 S4S of water in the bending region, especially when it overlaps with the economizer transition area to the vaporizer outer shell of the steam generator. - <

An exemplary embodiment of a waveguide connection with a noise and vibration sensor to a steam generator is shown in the drawing, which is a diagram of an embodiment of the invention.

In each line mikromodulového steam generator which consists of economizers portion 1, the evaporator portion 2 and an superheater section 2 t 3 ^EV transition region economizers portion 1 and the evaporator portion 2 undetachable secured to the outer shell of each branch waveguide 4 · The waveguide 4 is led bushing 2 Low At the same time, the bushing 2 ensures the tightness of the interior space 6 with the steam generator against the surroundings of the insulation 6. The example shown at the same time shows the attachment of the waveguide 4 in the bend of the outer casing of the steam generator.

By connecting the waveguide according to the described example, it is possible to solve the requirements for diagnostics of the micromodule steam generator in the area of noise and vibrations without the need to install additional waveguides with sensors, as it is up to now.

Claims (1)

PSEDMfiT INVENTION Connection of a waveguide with a noise and vibration sensor to a steam generator, characterized in that the waveguide (4) is permanently attached to the outer casing of the steam generator in the transition region of its economizer part (1) and evaporator part (2), preferably at its bend; led out through a bushing / 5 / with low acoustic attenuation outside its Insulation / 6 /.