CS213546B1 - Emergency signaling system of internal steam leak. - Google Patents

Abstract

The embodiment according to the invention consists of signal normalization units of internal leakage sensors and space control sensors from the vatup unit and from the processor unit, while the said internal leakage sensors are connected via signal normalization units and via input units to the processor unit of the common emergency signaling of internal leakage of the steam generator. Thus, a system of emergency signaling of a leak in the steam generator is solved here, which results in contact of working substances inside the steam generator, usually accompanied by violent chemical reactions. The main advantage here is the ability of the system to signal an emergency state, which ability is constantly internally controlled by the test unit, which provides information at specified time intervals about the correct operation of the steam generator and about the integrity of the chain sensor, cable, signal normalization unit, cable, input and output unit, cable, processor unit.

Description

The present invention relates to an internal leak alarm system for a steam generator.

Continuous monitoring of the internal leakage of a steam generator, in particular a steam generator for nuclear power plants, and timely and reliable registration of leakage even during operation is a serious problem related to the reliable and above all safe operation of the whole power plant. The occurrence of internal leakage in the steam generator results in contact and mixing of the working substances, heat carriers, or in the better case penetration of one of the working substances into the indication space of the steam generator. If the working agents in the steam generator are, for example, liquid sodium on one side and water, respectively. water vapor, on the other hand, the formation of an internal leak in the steam generator results in the ingress of water vapor into the sodium, accompanied by a chemical reaction with very dangerous consequences for the steam generator.

A set of internal leak sensors installed on the steam generator elutes to detect internal leakage in the steam generator. It consists of various types of sensors, eg flow sensors, sodium, argon hydrogen sensors, hydrogen, sodium, pressure sensors, etc. Each type of sensor is connected to a separate electronic evaluation system. Such systems are associated with at least two steam generators, each operating independently and also independently evaluating the emergency signal when a false signal is produced. The nature of the signal received from the system is decided by the operator on the basis of an individual evaluation, or an evaluation of the activity of other types of sensors of internal leak signaling. This prior art arrangement of internal leak sensors and separate internal leak alarm systems provides an internal decentralized complete steam generator emergency signal system largely dependent on the subjective human factor in the final decisive phase, responsive to false space-intensive signals, often influenced by changes in the operating status of the hoist. generator and obstructing the general internal logic of formulating and delivering reliable and guaranteed timely information on the occurrence of internal leaks in the steam generator.

These disadvantages of the prior art internal leak alarm systems of the steam generator are eliminated by the emergency alarm system according to the invention. It consists in that it consists of signal scaling units for internal leak sensors and room monitoring sensors, an input / output unit and a processor unit, said internal leak sensors being connected via signal scaling units and input units to a common emergency processor unit signaling of internal leakage of steam generator. Further, it consists in that the processor unit consists of a test unit, a reference signal comparison unit, a reference signal conditioning unit according to the output of the steam generator control sensors, a proper functioning signaling unit and a resulting emergency signal unit consisting of a steam generator internal leak sensor consisting of from gas bubble signaling sensors in the working medium, from noise and vibration sensors of the steam generator, from selective sensors of concentration of impurities in the working medium, and from sensors of working medium penetration into the indication area of the steam generator. The resulting emergency signal in the resulting emergency signal unit is generated from the difference of the values resulting from the comparison of the signal of the individual internal leak sensors and the preselected reference signal of the continuously adjusted signal of the steam control sensors.

213 341 generator. The alarm system according to the invention operates in such a way that the signal 2 of the internal leak sensors and of the traffic control sensors located on the steam generator is first standardized and then fed to the input and output unit from which it is connected. is pa £. transferred to the processor unit. There, it is compared with a reference signal, the character of which is preselected, and continuously adjusted according to the output of the operational control sensors capturing continuously the working state of the steam generator. In case of a difference between the internal leak sensor signals and the reference signal, an emergency signal is given. For an emergency signal, the difference between only one internal leak sensor relative to the reference signal or the difference between two or three types of internal leak sensors relative to the reference signal may be decisive. If there are differences in two or three types of internal leak sensors in the processor unit logic to output the resulting emergency signal, a false emergency signal is excluded. This is very significant, since there was no shutdown and the restart of the steam generator due to a false signal is very costly (power outage, lifetime, etc.). The emergence of an emergency signal due to a change in the operating parameters of the steam generator is also excluded, since the reference signal is still adjusted according to the operating conditions of the steam generator. These are the main advantages of the emergency alarm system according to the invention and guarantee an apparent progress over the current state of the art. The capability of the system to signal an emergency state is constantly internally controlled by a test unit that provides information on the correct operation of the steam generator and the chain integrity of the sensor, cable, signal scaling unit, cable, input and output unit, cable, processor.

An example of an embodiment of the internal leak alarm system of the steam generator according to the invention is shown in the drawing, representing a diagram of an embodiment of the invention.

The internal leak alarm system of the steam generator consists of internal leak sensors and operation control sensors 16 located on the steam generator 1 and its accessories, a signal scaling unit 7, an input / output unit 8, and a common emergency signaling processor unit 9. The common emergency processor processor 9 comprises a test unit 10, a reference signal comparison unit 11, an internal leak sensor signal unit 12, a reference signal unit 12, a reference signal conditioning unit 13, a steam generator correct operation signal unit 14, and a unit 11. resulting emergency signal. Internal leak sensors 2 consist of sensors 3 for signaling gas bubbles in the working medium, sensors 4 for noise and vibration of the steam generator, selective sensors 3 for the concentration of impurities in the working medium and sensors 6 for penetrating the working medium into the indication space. The internal leak sensors 2 and the traffic monitoring sensors 16 are connected via the signal scaling unit 7 and the input / output unit 8 to the common emergency signaling processor unit 9.

The internal leak alarm system of the steam generator operates such that the signal from each internal leak sensor 2 and from each traffic control sensor 16 is first standardized and then fed via the I / O unit to the common emergency processor processor unit 9. In the processor unit 2, each signal applied is cf.

213 S41 is received by a reference signal whose character and relative size are preset. At the same time, the reference signal is continuously adjusted according to the signals of the traffic monitoring sensors 16, which describe and capture the operating state of the steam generator. If there is a difference between the steam generator internal leak sensor 2 signal and the reference signal, an emergency signal may be given. Exclusion of false signals and poruons in the system from the formation of the resulting emergency signal is accomplished by generating the resulting emergency signal from the difference of the signals of at least two types of internal leak sensors 2, eg one gas bubble signaling sensor 2 and one noise generator 4 and vibration generator 1, relative to the reference signal. The emergency signaling system is constantly internally controlled by the test unit 10.

Claims (3)

OF THE INVENTION A steam generator internal leak alarm system with internal leak sensors located on a steam generator, characterized in that it comprises units (7) for scaling the internal leak sensor signals (2) and operation control sensors (16), input unit (8) and the steam generator internal leak processor (1) outputs and units (9). Steam generator internal leak alarm system according to claim 1, characterized in that the sensors (2) of the steam generator internal leak (1) consist of sensors (3) for signaling gas bubbles in the working medium, sensors (4) for noise and vibration the steam generator (1), the selective sensors (5) of the concentration of impurities in the working medium and the sensors (6) of the working medium penetration into the indication space of the steam generator (1). 3. An internal leak alarm system for steam generator according to item 1, characterized by: characterized in that the processor unit (9) comprises a test unit (10), a reference signal comparison unit (11) with internal leak sensor signals (2), a reference signal unit (12), a reference signal conditioning unit (13) from the steam generator operation control sensors (16), the proper functioning signaling unit (14) and the resulting emergency signal unit (15).