RU2379584C1 - Method of arranging water-chemical mode of boiler and steam turbine power equipment - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: according to the invention, depth of demineralisation of condensate and make-up water, when oxygen-free water-chemical mode (WCM) is performed after preliminary steam-water-oxygen cleaning and passivation of steam-water path is completed, is controlled by comparing redox potentials Eh of condensate and make-up water with electrode potential φ_e of passivated metal sample of the above path from condition φ_e>Eh.

EFFECT: creating the conditions in order to make it possible to change oxygen water-chemical mode for oxygen-free one which provides reliable protection of steam-water path of power equipment against corrosion.

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Description

The invention relates to a power system and can be used to organize the water-chemical regime of a boiler and steam turbine power equipment of thermal power plants (HPPs), including supercritical pressure power units (SKD).

Currently, oxygen or ammonia-ammonia water-chemical regimes are widely used in boiler and steam-turbine equipment of power units, which, in combination with preliminary steam-oxygen treatment and passivation of the water-vapor path of the equipment, provides reliable protection against corrosion [1] - an analogue. Such a water-chemical regime, however, has the following significant disadvantages:

- in high-pressure superheaters and in superheaters of a steam boiler, the growth of scale increases, which, having reached a certain value, exfoliates from the heating surfaces and is carried away with the steam into the turbine, causing erosion of its blade apparatus, which can lead to a major accident;

- it is possible to oxidize organic substances that can penetrate the steam-water path, which, when decomposed, leads to the formation of organic acids that stimulate corrosion processes or to the formation of carbon deposits on heating surfaces that impair heat transfer.

A known method of organizing an oxygen water-chemical regime of a boiler and steam turbine power equipment, including preliminary cleaning and passivation of its water-steam path by treating the specified path with a heated water-based cleaning agent mixed with oxygen and deep desalination of turbine condensate and additional water [2] is the closest analogue. According to [2], by choosing the optimal mode for preliminary steam-oxygen treatment and passivation of the steam-water path, the dosing of oxygen into water in the operating mode can be carried out not continuously, but periodically when a certain level of iron compounds in the feed water is reached while monitoring and maintaining the set conductivity value condensate feed water and superheated steam. At the same time, it is possible to significantly reduce the above negative consequences of the oxygen chemical regime, but not completely eliminate them.

The achieved result of the invention is the creation of conditions for the complete cessation of the supply of oxygen to the feed water with the corresponding complete elimination of the disadvantages associated with such an introductory chemical regime.

This is ensured by the fact that in the method of organizing the water-chemical regime of a boiler and steam turbine power equipment, including pre-cleaning and passivation of its water-steam path by treating the specified path with a heated water-based cleaning agent mixed with oxygen and deep desalination of the turbine condensate and additional water, according to the invention the depth of desalination of the condensate and additional water is controlled by comparing the redox potentials Eh of the condensate and additional water with the electrode potential φ th _e sample passivated metal vodoparovogo tract of conditions

φ _e > Eh.

The fact is that, as studies have shown, the cause of corrosion damage to the inner surface of the water-vapor path of power equipment in the operational mode is not a violation of the passivating coating of the surface of the steam-water path, but the insufficient efficiency of monitoring the depth of desalination, which is usually carried out by the electrical conductivity of the desalted medium. The low electrical conductivity of the desalted medium can only serve as an indirect and not in all cases reliable indicator of the creation of favorable conditions to prevent corrosion processes. In this regard, the condition Φ _e > Eh is an absolute guarantee of preventing corrosion of the steam-water duct, since it excludes the possibility of the electrochemical oxidation of the electrode, which in this case is the metal of the steam-water duct.

Example. For three years, an oxygen-free water-chemical operating mode according to the invention was carried out at the SKD power unit. The mode was carried out after preliminary steam-oxygen purification and passivation of the steam-water path, carried out with a mixture of oxygen with superheated steam at a temperature of the cleaning agent in the range (along the path) of 350 ÷ 450 ° C at an oxygen concentration of 2 g / kg. During operation, oxygen was not dosed into the feed water. Only control was carried out on the depth of desalination of the condensate and additional water by measuring the redox potential Eh at the corresponding points of the steam-water path and comparing the obtained values with the previously measured value of the electrode potential of a passivated metal sample (Art. 20) of this steam-water path under the condition φ _e > Eh. The results of one of a series of measurements at φ _e = -170 mV are given in the table below.

№№ Time from the beginning of operation, months Place of measurement Eh
mV (Eh - φ _e ),
mV the iron content in the environment of the steam-water tract, μg / kg one 12 condensate tank -84 86 7 2 12 tank add. water -82 88 - 3 24 condensate tank -87 83 8 four 24 tank add. water -83 87 - 5 36 condensate tank -91 79 9 6 36 tank add. water -86 84 -

As can be seen from the table, the oxygen-free water-chemical regime when controlling the depth of desalination of the condensate and additional water according to the invention provides reliable protection of the metal of the steam-water tract with the exception of the disadvantages associated with the dosing of oxygen to the feed water.

Information sources

1. Guidelines for the organization of an oxygen water regime at SKD power units. RD 34.37.507-92. Performers M.E.Shitsman, L.S. Miller. SPO ORGRES. M., 1994, p. 4-6, 11.

2. Patent RU, No. 2293251, 2005.

Claims (1)

The method of organizing the water-chemical regime of a boiler and steam turbine power equipment, including the preliminary cleaning and passivation of its water-steam path by treating the specified path with a heated water-based cleaning agent mixed with oxygen and deep desalination of turbine condensate and additional water, characterized in that the depth of condensate desalination and additional water is controlled by comparing the redox potential Eh of condensate and make-up water to the electrode potential φ _e sample passivated of metal vodoparovogo tract from the condition φ _e> Eh.