SU926421A1 - Method of regulating heat absorbtion of secondary steam superheater heating surface - Google Patents

Description

The invention relates to a power system, and more particularly, to methods for controlling the heat perception of heating surfaces of a secondary superheater of a steam generator of a power unit.

A known method of controlling heat perception of a heating surface of a secondary superheater operating in a sliding pressure mode corresponding to a given turbine load, equipped with control valves, by changing the temperature of the secondary steam at the inlet and the superheater by means of throttling. ,

In the known method, throttling is carried out using a throttle body installed in front of the heating surface tlj.

The disadvantage of this method is the presence of an additional throttle body, which reduces reliability.

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The purpose of the invention is to increase reliability * * '' reliability.

This goal is achieved in that the throttling is carried out by changing the position of the control valves of the turbine.

The drawing in the i-S diagram shows the change in the temperature of the medium (steam) at the inlet to the boiler superheater of the TGMP-314 power unit, 300 MW at a load of about 40% of the nominal.

Points a, b, c, d, e correspond to thermal processes in the steam generator, turbine and in the secondary superheater with steam throttling on the control valves of the turbine; points a ', b', d ', e - without throttling.

At the same time: a and b correspond to the process of changing the working environment in the steam generator; B - parameters of the primary steam after the steam generator; B with the throttling process corresponds to the parameters of the steam at the entrance to the secondary superheater; d - e process of heating steam in a secondary superheater.

The method is as follows. ·

If it is necessary to change the heat perception of the heating surfaces of the secondary superheater under a certain furnace mode and the unit load, they partially cover or vice versa, open the turbine control valves, while increasing or decreasing the throttling of steam on the turbine control valves, its temperature behind the control valves increases or decreases accordingly 5 of the turbine, and therefore the temperature of the steam leaving the high-pressure cylinder, i.e. at the entrance to the secondary superheater.

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Changing the temperature of the steam at the inlet to the secondary superheater, ceteris paribus, will lead to a change in the heat perception of the heating surfaces of the secondary steam and superheater.

For example, when the pressure behind the TGMP-314 boiler decreases to 12 MPa with a block load of about 40% of the nominal and fully open first four control valves of the K-3.00240 LMZ turbine, the process is performed without throttling. The parameters of the primary steam behind the steam generator in this case correspond to point B ¹ ; d 'corresponds to the steam parameters at the inlet to the secondary superheater.

When the primary steam is throttled from 24 MPa to 12 MPa, the temperature of the steam at the inlet to the secondary superheater is 198 ° С, without throttling of 30 -231 ° С, i.e. the temperature variation range between the indicated processes for the TGMP-314 boiler is 33 ° С.

A change in the temperature of steam at the input of -35 de into the secondary superheater will lead to a change in the temperature difference of flue gases - steam, i.e. to a change in the heat transfer coefficient of the secondary superheater, and after

VNIIPI Order 2940/30 Circulation 451 is obligatory, and the heat perception of the heating surfaces of the latter.

For a 300 MW unit TGMP-314 steam generator with a load of about 40% of the nominal, the transition from a choking process to a process without 'throttling the primary steam under all other conditions and the same final steam parameters (1.2 MPa and 545 ° C) remains the same a decrease in heat perception of the secondary superheater by 85 kJ / kg.

Thus, the proposed method allows you to adjust the temperature of the steam at the inlet to the secondary superheater and, thereby, change its heat perception, as well as the temperature at the outlet of it with increasing reliability.

Claims (1)

Claim Method cfo for controlling heat perception of a heating surface of a secondary superheater operating in a sliding pressure mode corresponding to a given load of a turbine equipped with control valves by changing the temperature of the secondary steam at the inlet of the superheater by throttling, characterized in that, in order to increase reliability, throttling is carried out changing the position of the control valves of the turbines.