SU1610298A1 - Thermocouple level indicator - Google Patents

Abstract

The invention relates to the field of instrumentation and can be used to determine the mass level of a liquid in steam generators and drum separators of nuclear power plants. The goal is to reduce the inertia and increase the operational reliability of the device. The gauge contains a pipe 1 open at both ends, inside which a perforated port 3 is installed for supplying cold water. Differential thermocouples 2 are installed in pairs inside and outside the pipe 1. When water is supplied through the pipe 3, a cooling zone is formed inside the pipe 1, the water temperature in which is several tens of degrees lower than the outside. The vapor temperature is constant and equal to the saturation temperature, determined by the pressure in the steam generator. The resulting temperature jump is recorded by thermocouples and corresponds to a mass level, i.e. the actual amount of fluid in the steam generator. 1 hp ff, 2 ill.

Description

The invention relates to instrument engineering and can be used to measure the mass level of saturated and boiling liquids in pressure vessels, in particular in steam generators and drum separators of nuclear power plants.

The aim of the invention is to reduce the inertia and increase operational reliability.

Fig. 1 schematically shows a thermocouple level gauge installed in a controlled container; in fig. 2 - the same, top view.

The level gauge contains a pipe 1, open at both ends and installed in a container with controlled boiling liquid, mounted on it in the range of measuring the temperature of thermally 2, the hot joints of which are inside, and the cold joints outside the pipe 1. perforated along the entire length pipe 3 for supplying a cooling medium and a protective screen 4.

The device works as follows.

The temperature of water and steam in the steam generator is the same and is determined by the pressure in the vessel. When supplied through the pipe 3 of the ode, which has a temperature of several tens of degrees lower than in the steam generator, inside the pipe 1 there forms a zone in which boiling stops, while the temperature of the steam remains constant and equal to the saturation temperature at a given pressure. Thus, inside the pipe 1, a temperature jump is created at the interface, and outside, the temperature is constant over the entire height of the pipe. The temperature jump and, therefore, the position of the mass level is determined by the indication of the corresponding differential thermocouple.

The perforation of the pipe 3 contributes to a more uniform distribution of coolant over the internal volume of the pipe 1. To prevent direct cooling liquid from falling into the sensitive elements between the pipe and the thermocouples, a protective screen 4 is installed.

The cooling zone inside the pipe 1 can also be created using some kind of heat exchanger, for example, in the form of a coil installed in the pipe. The use of the nozzle in a number of cases is preferable, since cold water can be taken from the feedwater line of the steam generator.

The measured mass level is different from the physical level of media separation in the steam generator and corresponds to the actual amount of liquid in the tank.

Claims (2)

1. Thermopair level gauge, mainly for steam generators, and drum separators of nuclear power plants, containing a vertically positioned pipe with differential thermocouples placed in pairs on its inner and outer walls, as well as a coolant connection pipe inside the pipe along its entire length, , in order to reduce the inertia and increase operational reliability, the pipe is open at both ends, and the nozzle is perforated. 2. Level Pop. 1, characterized in that a protective shield is placed between the perforated pipe and the thermocouples located on the inner surface of the pipe. h four FIG. 2 Editor M. Bandura Compiled by A.Kurochkin Tehred M. Morgental Proofreader V.Girn to