SU1384800A1 - Condensate injection system for regulating steam superheat temperature in drum-type boiler - Google Patents

Abstract

The invention relates to the field of heat and power engineering and allows expanding the range of regulation of steam superheating temperature while increasing the maneuverability and reliability of the installation. The system consists of a surface condenser 1 with pipelines 3 and 4 for supplying and discharging cooling water, a valve 5, an injection desuperheater 6, a pump 8 with a hydraulic turbine 9. The inlet of pump 8 is connected to the condensate supply pipe to the valve 14, and the outlet is after it. When the boiler reaches 50% of the rated load, valves 5 and 14 open, disconnecting the pump 8 and the hydro turbine 9. When the boiler load drops below 50% of the nominal valves 5 and 14 close, ensuring that the pump and the hydro turbine are activated. This provides the required pressure in front of the control valve on the pipeline at any load of the boiler below 50% ns of the output. At any boiler firing period, regardless of the steam consumption, the required amount of available pressure for condensate injection is provided through the first stage of the superheater 19. 1 hp f-ly, 1 ill. (L

Description

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The invention relates to a power system and can be used in thermal power plants with drum boilers.

The aim of the invention is to expand the range of temperature control with increased maneuverability and reliability of the installation.

The drawing shows a schematic diagram of the proposed system.

. The system consists of a surface condenser 1 with a condensate collector 2, which is connected by pipelines 3 and 4 through a valve 3 with an injection desuperheater 6. Pipelines 3 and 4 are connected by pipeline 7, on which a pump 8 is installed with a hydraulic turbine 9 connected to a pressure pipe, for example, the pipeline 10 for cooling water removal from condenser 1, and the drain pipe with pipe 11 connected to the feedwater path after the regulating feed valve 12 before the water economizer 13, Pipelines 10 and 11 are combined with an additional pipeline with a valve 14. The condenser 1 through cooling water is connected by a pipe 15 for supplying cooling water to the feedwater path to the control valve 12, and by pipes 16 and 17 to the drum 18 of the boiler, from which the saturated steam is led to the superheater of the first 19 and second 20 steps

The system for controlling the superheat temperature of steam works as follows.

In the boiler firing period, all the steam generated in the drum 18 is directed to the superheaters 19 and 20. If it is necessary to regulate the superheat temperature in the superheater 20 with the valves 5 and 14 closed, the control valve on the pipe 10 opens, as a result of the pressure drop on the valve 12, the feed part water to the control valve: - to 12 through line 15 enters the condenser 1, where it provides condensation of steam entering the condenser 1 from the drum 18 through line 16, From the condenser 1 cooling water through line 10 nap Aulus is a water turbine 9, .Turn it then is directed via line 11 for regulating stem

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the pan 12 mixes with the main feedwater flow and is directed to the water economizer 13 and then to the drum 18,

The condensate formed in condenser 1 accumulates in condensate collector 2, from which, due to pump 8 operation, through pipelines 3, 4 and 7 is supplied under pressure to the injection desuperheater 6. At the same time, the amount of condensate injected into the desuperheater 6 is regulated by a valve installed in pipe 4, In the event of an excess of condensate formation in the condenser 1, a part of it is drained into the drum 18 through a pipeline .17.

Thus, at any period of the boiler firing, regardless of the steam flow rate, the first pressure of the superheater 19 ensures the required value of the available pressure for the injection of condensate, which expands the temperature control range. overheating of steam in the superheater 20, thereby ensuring a higher reliability and maneuverability of the plant as a whole.

When the boiler reaches a load of 50% nominal, when the available pressure for condensate injection is enough to reliably control the superheat temperature of the steam, valves 5 and 14 are opened, thereby disconnecting the pump 8 and the driving hydraulic turbine 9 from operation.

When the boiler load decreases below 50% of the nominal, the valves 5 and 14 harden, which automatically ensures that the drive turbine 9 and pump 8 are put into operation, providing the required pressure upstream of the control valve on the pipeline 6 at any boiler load below 50% nominal.

Claims (2)

1. Condensate injection system for regulating the superheat temperature of steam in a drum boiler having a feedwater path with a regulating feed valve, containing a surface condenser with cooling water supply and discharging pipes connected to the steam volume of the boiler drum and through the condensate supply pipe with installation # 1384800 valve and hydraulic turbines fixed on it - to the pipeline of the outlet with an injection steam-cooling iodine, a cooler, which differs from the fact that, in order to expand with 2. The system according to claim 1, differs in the range of temperature control so that the pipelines with increasing maneuverability and reliable supply and removal of cooling water to the bone, it additionally contains a condenser connected to a pi-pump path with a hydro turbine, while The main water, respectively, is connected to the pipeline and supplied to the pipeline after regulating feed condensate, parallel to the valve, aklapan.