CS197615B1 - Differential regulator of temperature - Google Patents

Description

The invention relates to a differential temperature controller for the precise control of liquid metals, in particular sodium.

When operating steam generators with liquid metal, eg sodium, it is necessary to know the purity of the liquid metal, especially the O2 content. These measurements are very long and difficult to accurately maintain the temperature of the liquid metal at the point of measurement, e.g. 400 ° C ± 0.3 ° C. BACKGROUND regulators are not so extreme precision manufactured and indicated control accuracy of + 2 ° / ₀ is 400 ° C ± 8 ° C, making O2 measurement virtually meaningless.

These disadvantages are overcome by the differential temperature controller according to the invention, which consists of a basic thermocouple connected via an amplifier to a display device and a secondary thermocouple connected via an amplifier and a pulse converter to a tripping device whose output is connected to a heating element located in the individual sections of the main pipe bypass, the thermocouples being connected in series. The differential controller consists of a main thermocouple or other temperature sensor and auxiliary temperature sensors. The sensors are connected to differential amplifiers. The analog output signal is converted to pulses, and these pulses are the glow signals of the tripping devices for supplying the temperature elements in the individual sections.

Said differential regulator according to the invention meets the requirements of precise regulation, e.g. 400 ° C ± 0.2 ° C, thereby ensuring the accuracy of the measurement of impurities of liquid metals such as O2 in liquid sodium.

An exemplary embodiment of the invention is illustrated in the accompanying drawing, representing a block diagram according to the invention.

A sample of liquid metal is continuously taken from the main pipe 1, bypass 2, in which the O2 content is to be measured at 3. The bypass 2 in front of the measuring point O ₂ 3 is divided into several sections, in our case three, with the basic thermocouple 4 and auxiliary thermocouples 5 located and connected in series. The basic thermocouple 4, located directly at the measuring point 3, is connected via the amplifier 6 to the indicating device 11 and the exact temperature at the measuring point 3. The auxiliary thermocouples 5 are connected to the amplifiers 7 where the differential voltage between the basic thermocouple 4 and the auxiliary thermocouples 5 The amplified differential voltage from the amplifiers 7 is converted into pulses by the converters 8 such that the larger the differential voltage, the higher the pulse rate. By means of pulses, a tripping device 9 for supplying the heating elements 12 located in the individual sections of the bypass 2 is controlled.

Object of the invention

Claims (1)

Object of the invention Differential temperature controller, characterized in that it consists of both a basic thermocouple (4) connected via an amplifier (6) to the indicating device (11) and of at least one auxiliary thermocouple (5) connected via an amplifier (7) and a pulse transducer (8) on a tripping device (9), the output of which is connected to a heating element (12) located in the individual sections of the bypass (2) of the main pipe (1), the thermocouples (4, 5) being connected in series.