SU505027A1 - Steam vaime compensation system - Google Patents

Description

one

The invention relates to atomic technology and can be used in steam compensated nuclear reactors.

A steam compensation system is known, comprising a compensation space and an electric boiler connected to each other and to a pressure branch of the main circulation pump through pipelines.

However, such a system is not sufficiently reliable due to the dependence of the water supply to the electric boiler on the main circulation pump.

The aim of the invention is to increase the reliability of the system.

For this, in the steam compensation system, the steam boiler of the electric boiler is connected via a pipeline to the water cavity of the volume compensator.

Such a connection makes it possible to feed the electric boiler of the steam compensation system independent of the operation of the main circulation pump and the position of the electric boiler relative to the volume compensator.

The invention is illustrated in the drawing.

The steam compensation system consists of a compensation space 1, an electric boiler 2 with heaters 3, a pipeline 4 with spray nozzles 5 and 6 connecting the compensation space to the electric boiler, a pipeline 7 connecting the compensation space with the pressure of the main circulating pump 8.

The steam compensation system works as follows. In the initial state, the electric boiler 2 is filled with water. When the temperature decreases in the compensation space 1 and, consequently, the pressure in the steam compensation system due to heat loss, the heaters 3 of the electric boiler 2 are turned on and the steam generated begins to flow through the pipeline 4 into the spray nozzles 5 and 6 below the water level in the compensation space 1 where it partially condenses and transfers heat to the water of the compensatory space 1. When the predetermined temperature and pressure in the compensation space 1 is reached, the heaters 3 of the electric boiler 2 are turned off. In this process, the recovery of temperature and pressure in the steam compensation system

is running out. After disconnecting the heaters 3 of the electric boiler 2 due to the scrubber heat sink, the temperature and pressure in the electric boiler 2 begin to decrease much faster than in the compensation space, and

the expense of the resulting pressure difference in the compensation space 1 and the electric boiler 2, water from the compensation space 1 begins to flow through the pipe 4 and the spray nozzles 5 and 6 into the steam space of the electric boiler. Since the incoming

From the lower part of the compensation space 1 to the water space of the electric boiler 2, the water has a lower temperature (approximately equal to the temperature of the outlet from the active zone) than in the electric boiler 2, then when it enters, steam condenses in the steam space of the electric boiler 2 . This, in turn, increases the amount of water flowing from the compensation space 1 to the steam space of the electric boiler 2 by increasing the pressure differential between them. The stopping of the electric boiler takes place after condensation of the entire steam cushion of the latter, and, therefore, full filling of the electric boiler. Thus, the system returns to its original position.

and ready for the next work cycle. In order to carry out the continuous supply of steam to the compensation space 1 to compensate for heat losses, it is possible to install several series of electric boilers working as described above.

Claims (1)

Invention Formula A steam volume compensation system comprising a volume compensator and an electric boiler connected to it via a pipe located above the coolant level in the volume compensator, characterized in that, in order to increase the reliability of the system, this pipeline connects the steam cavity of the electric boiler to the volume compensator water cavity . l l l