SU564488A1 - Method for starting direct-flow boiler unit - Google Patents

Description

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The invention relates to thermal power engineering and can be used in boilers of power units of various capacities.

There are known methods for starting boilers consisting of an evaporative part and a superheating part, between which a separator valve is installed, and a separator with regulating valves on the supply line is installed on its bypass.

water from the screens to the separator and in the pipeline for the removal of steam from the separator, and the boiler superheater l.

When starting the boiler in a known manner, the separator valve and / control valve in the steam discharge pipe from the separator to the boiler superheater are closed, and water from the screens through the control valve that maintains the required pressure in the screen system is discharged into the separator, from which it is then discharged into the melter defrost. After igniting the furnace, the enthalpy of water in the boiler screen system gradually rises, which causes the formation in the separator

a certain amount of steam, which due to the closed valve on the steam discharge to the superheater, is discharged with water into the pilot melter. When the separator reaches the degree of dryness, which corresponds to the temperature of the medium before the separating valve, they start to connect the superheater of the boiler to the separator, slowly opening the control valve on the steam discharge pipe from the separator to the superheater.

Thus, the superheater of the boiler is without steam flow, which, on the one hand, limits the ignition load of the furnace, and on the other, does not allow heating of steam pipelines, turbine steam inlet and other elements of the unit, which increases the start time and, consequently, , worsens maneuvering block. This is one of the drawbacks of the known starting method.

In addition, the connection of the superheater to the separator is made slowly, stepwise, with a time delay at each stage, the opening of the regulator on the steam discharge pipe from the separator to the superheater, Mednoe, the stepwise opening of the specified valve is caused by a large pressure drop before and after the valve. Thus, depending on the heat state of the boiler, there is pressure in front of the valve in the senator, and behind the valve in the superheater there is a vacuum. In connection with this, the valve opening process is accompanied by a pressure drop in the separator, affecting the separation process in such a way that at a certain rate of pressure reduction it is possible to carry water drops into the boiler superheater. Since the metal of the thick-walled chambers of the superheater has a high temperature during the start-up of hot melt states, the ingress of water droplets from the separator can lead to thermal shock in these elements. In addition, the pressure drop in the separator in the process of opening the valve decreases the temperature of the saturated steam flowing from the separator to the superheater, which also necessitates its slow opening, and therefore the start of the switch, i.e., reduces the maneuverability of the unit. The purpose of the inventive is to increase the maneuverability of the launch. The goal is achieved by simultaneously with the ignition of the furnace into the superheater, steam is supplied from an external source, the flow of which is controlled by the pressure pulse behind the separation valve and maintained at the same time as the pressure in the separator. The drawing shows a device diagram in which the proposed method of starting the boiler is implemented. At the start of the boiler unit, the separator valve 1 and the valve 2 are closed, while the water from the screen 3 through the control valve 4 is discharged into the pilot separator 5, from where it is then discharged into the boiler expander 6. Before firing the furnace from an external source 7, steam is supplied to the superheater 8, the value the flow rate of which is determined by the required ignition load of the furnace, and the flow rate is maintained by the regulating valve 9 of the pressure pulse 10, measured at the steam supply pipe to the superheater, and the pressure behind the separation rear By entering 1 with valve 11, pulse pressure 12 in the separator is maintained equal to pressure b of the separator. After the furnace is ignited, the entrapion of water entering the separator 5 gradually increases, which leads to the injection of the .B-B saturated vapor separator. At one time, the pressure in the separator rises. When the pressure in the separator 5 is increased, a pulse 12 is applied to the valve 11, which, by closing, increases the pressure behind the separator valve to the pressure in the separator. Increasing the pressure downstream of the separation valve 1 leads to a reduction in steam consumption from an unauthorized source 7, however, due to the presence of impinge 10, the steam consumption in the superheater remains constant. When the required degree of dryness is reached in the separator, open the valve 2, thereby connecting the superheater. After the valve 2 is fully opened, the valve 11 is disconnected from the pulse 12 and connected to the normal pulse by regulating pressure to itself and shut off the supply of steam from an external source. Further start-up is carried out in a known cnoi manner. Using the proposed method of starting the boiler unit does not limit the kindling of the furnace, allows heating of steam pipelines, steam turbine start and other elements of the unit, simultaneously with ignition of the furnace, provides quick connection of the boiler superheater to the separator, which increases the unit maneuverability in start-up modes. Claims of Invention The method of starting a continuous-flow boiler unit with a separation valve installed between the evaporator, surface and the superheater by igniting the furnace and connecting the superheater during the production of the specified parameters to the heating separator, characterized in that, in order to improve start-up maneuverability, simultaneously with the ignition separator, characterized in that the launch maneuver is simultaneously simultaneous with the ignition separator. steam is supplied to the superheater from pschtoron-. source, the flow rate of which is controlled by the pressure pulse behind the separation valve and is kept equal to the pressure in the separator. Sources of information taken into account in the examination: 1. The development of power units. Starting modes, metal, water treatment and automatics, M., Energie, 1971, p. 11 - 15.