SU1670702A1 - Method for connecting section to sectional once- through molten metal-water type steam generator - Google Patents

Abstract

The invention relates to nuclear power engineering and can be used to connect a section to an operating direct-flow sectional steam generator liquid metal-water. The aim of the invention is to increase the resiliency and economic efficiency of the power unit by connecting the section to a running steam generator. To connect the section to the continuous sectional steam generator without stopping and cooling down the reactor, the modules of the connected section with heat carrier are heated to the temperature of the heat transfer medium in the operating modules. Using the blowing line, first create the circulation of the coolant through the industrial superheater module, and then through the evaporator module by gradually opening the valves on the coolant supply and removal lines and the working medium, then through the steam superheater module by gradually opening the valves on the coolant supply lines and supplying steam. The method allows connection of the section at any power level of the reactor. 2 Il.

Description

The invention relates to nuclear technology and can be used to connect a section to an operating direct-flow sectional steam generator liquid metal-water.

The purpose of the invention is improving the resiliency and cost-effectiveness of a power unit by connecting a section to a running steam generator.

According to the method of connecting the section to the direct-flow sectional steam generator sodium-water, consisting in preheating with electrical heating

the metal of the connected section, filling the section with sodium, organizing the forced circulation of the coolant and the working medium, the heat source heating the modules of the section with heat transfer to the temperature of the coolant in the working modules, then using the blown line, first create a circulation of the coolant through the industrial superheater module the evaporator module by gradual opening of valves and fittings on the supply and removal lines of the heat carrier and the working medium, then through the superheater module

opening of valves on the heat supply and steam supply-removal lines.

FIG. 1 is a diagram of a liquid metal-water liquid flow generator section consisting of eight sections connected in parallel along all working media; figure 2 - the change in temperature of the metal section during heating and thermal and electrical power of the reactor when stopping and starting the block.

The section consists of the evaporator module 1. industrial steam superheater 2, superheater 3. The coolant (liquid metal) is supplied to the section through pipelines 4 to supply the coolant to the section, and the outlet is through pipelines 5 of the coolant outlet.

The coolant supply pipe to the steam superheater is equipped with shut-off valves 6. to the superheater - valves, and the pipeline for discharging liquid metal, such as sodium, - fittings 8. A drain valve 9 with a valve is provided for draining and filling the section with coolant. 12. The section is connected by a blow line to the buffer tank 13, and the drainage pipe is connected to the coolant tank 14. To control the filling of the section with liquid metal, level gauges 15 are installed in the coolant tank and the buffer tank.

On the steam side, the section has piping: supplying 16 nutrient water with fittings 17, removal of steam 18 from the evaporator with fittings 19, supply of steam 20 to the superheater with fittings 21. removal of steam 22 from the superheater with fittings 23, supply of steam 24 to industrial steam heating with fittings 25 and removal of steam 26 from the industrial superheater with fittings 27. Drainage pipelines 28 with fittings 29 installed on them are foreseen for the forecast of all steam pipelines and drainage of the section.

In the initial state, before connecting, the steam generator operates on seven operating sections, the working medium parameters of the heat transfer medium and the working fluid are nominal, one section is disconnected, the internal cavities of the section are filled with an inert medium, the shut-off valves of the disconnected section at the working medium withdrawal and the heat carrier are closed.

The method of connecting the section to a running steam generator is implemented as follows.

On the plug-in section, the metal of the module cases is heated by electrical heating to 200 - 250 ° C. After heating the modules of the section, the section is filled with coolant, for example, sodium, through the drainage pipe 9 from the heat carrier tank 14 by opening the valve 10 and vengil 12 on the blow line 11 to the buffer tank 13.

The filling of the section is monitored according to the indications of equalizers 15 installed in the coolant tank and the buffer tank. Upon completion of filling the section with liquid metal, the valve 10 is closed and the metal of the housings of modules 1, 2 and 3 and supply lines 4 and

removal of 5 liquid metal. The evaporator module 1 is heated as follows: the top of the evaporator - to temperatures close to the steam temperature at the outlet from the adjacent working evaporators of the steam generator sections, to the bottom of the evaporator - to temperatures different from the feed water temperature by a predetermined value, for example, not more than 80 ° C, The opening of the valve 29 through the drainage pipelines 28 is heated by steam from the adjacent operating section of the pipelines 18, 22 and 26 outlet and pipelines 16, 20 and 24 of the supply of the working fluid. Upon completion of the heating of the pipelines, the valve 29 is closed, and the valve 19

and 27 open.

In order to create circulation of the coolant and working medium in the industrial steam superheater module of the plug-in section, the valve 12 is fully opened when the valve 12 is open.

the valve 6 on the liquid metal supply to the industrial steam superheater module and supplies steam to the module by partially opening the valve 25.

After stabilization of temperatures on

a level close to the temperature-racks of the industrial steam superheater of the working sections of the steam generator, partially open the valve 8, creating a circulation of liquid metal through the evaporator module 1 and immediately supply

In the evaporator, the feed water by the re-opening of the reinforcement 17. After the evaporator module temperature stabilizes at a level close to the evaporator temperatures of the operating sections of the steam generator, the valves 8, 17 and 25 are gradually opened, alternatingly, the parameters of the connected section are approximated to the nominal values. the industrial superheater modules and the evaporator proceed to the connection of the industrial superheater module 3 by gradually opening the valves 7, 21 and 23.

This method of connecting a section to a running steam generator can be

implemented at any power level of the unit.

Reducing the power, stopping the unit and the subsequent increase in power to the nominal one after connecting the section leads to a change in the temperature state of the main equipment of the power unit. The number of cycles of change in the temperature state of the power unit for the entire period of operation is limited. Consequently, each connection of the section according to the existing technology leads to a reduction in the resource of the equipment of the power unit.

The use of the proposed method makes it possible to exclude the shutdown of a power unit, the cessation of power supply and the cooling down of the reactor to 240 ° C, which leads to the saving of a significant amount of electricity (figure 2).

Claims (1)

Invention Formula The method of connecting the section to the flow-through sectional steam generator liquid metal-water, which consists in preheating the electrical heating of the metal of the connected section, filling the section with liquid metal and organizing forced circulation of coolant and working medium, characterized in that. in order to increase the resiliency and cost-effectiveness of the power unit by connecting the section to to the working steam generator, the modules of the section with coolant are heated to the coolant temperature in the working modules and, using the blowing line, first create a circulation coolant through industrial steam heater module. and then through the evaporator module by gradually opening the valves on the supply and removal lines of the heat carrier and the working medium, then through the superheater module by gradually opening the valves on the heating lines and the supply and removal of steam. one § § § § § oe cd se  tQ CVJ § § eight § S “I § 6} Јe sj H but