RU2210542C1 - Method of thermal deaeration of water - Google Patents

Abstract

FIELD: heat- power engineering+ADs- boiler plants and power stations. SUBSTANCE: proposed method includes deaeration of water in atmospheric pressure deaerator+ADs- water and steam formed during deaeration are removed from deaerator+ADs- steam is cooled by starting water fed to deaerator in surface- type cooler+ADs- fixed gases are evacuated from cooler into atmosphere. Steam condensate is directed to upper part of deaeration column via condensate line from steam cooler located above deaerator by 2-10 m. EFFECT: enhanced reliability and economical efficiency. 1 dwg

Description

 The invention relates to the field of power engineering and can be used in boiler rooms and thermal power plants.

 A known analogue is a method of thermal deaeration of water, in which water is deaerated in an atmospheric pressure deaerator, the treated water is removed from the deaerator, the vapor formed during deaeration is removed from the deaerator, after which the feed water supplied to the deaerator is cooled in a surface-type vapor cooler, and non-condensing gases are removed from the cooler into the atmosphere (see Delyagin G.N., Lebedev V.I., Permyakov B.A. Heat-generating installations. M.: Stroyizdat, 1986, p. 352, Fig. 8.11 and description thereto). This analogue is adopted as a prototype.

 The reasons that impede the achievement of the technical result indicated below when using the known method adopted as a prototype include reduced reliability and economy of deaeration due to inefficient removal and disposal of a vapor of thermal deaerators.

 The technical result achieved by the claimed invention is to increase the reliability and efficiency of thermal deaeration of water.

 The specified technical result is achieved by the fact that water is deaerated in an atmospheric pressure deaerator, treated water is removed from the deaerator, the vapor formed during deaeration is removed from the deaerator, then it is cooled by the source water supplied to the deaerator in a surface-type vapor cooler, non-condensing gases are removed from the cooler to the atmosphere.

 A feature of the proposed method lies in the fact that the condensate vapor through the condensate line is sent to the upper part of the deaeration column from the vapor cooler located 2-10 m above the deaerator.

 The drawing shows a diagram of a deaeration plant explaining the method.

 The installation comprises a deaeration column of atmospheric pressure 1 with feed water pipes 2 and a vapor 3 connected to it, a vapor cooler 4 installed 2-10 m above the deaeration column 1, connected via a cooling medium to the source water pipe 2 and connected by a non-condensable gas exhaust pipe 5 with the atmosphere. The vapor cooler is connected to the condensate drain line of the vapor 6 to the upper part of the deaeration column.

 The method of thermal deaeration of water is as follows.

 The source water is supplied to the atmospheric pressure deaeration column 1 through line 2, the deaerated water is discharged from the deaerator. The vapor formed during deaeration is removed from the deaerator through the vaporization pipe 3 and cooled in a surface-type vaporizer cooler 4 mounted 2-10 m above the deaeration column. The condensate vapor through the condensate line 6 is sent to the upper part of the deaeration column of atmospheric pressure 1, and non-condensable gases are removed from the cooler 4 through the pipe 5 to the atmosphere. Due to the discharge of condensate from a height of 2-10 meters in the upper part of the deaeration column, the condensate is reliably returned to deaeration to the column and the condensate is not carried away from the cooler to the atmosphere under pressure in the deaerator.

Claims (1)

 The method of thermal deaeration of water, in which water is deaerated in an atmospheric pressure deaerator, the treated water is removed from the deaerator, the vapor formed during deaeration is removed from the deaerator, after which it is cooled with the source water supplied to the deaerator in a surface-type vapor cooler, non-condensing gases are removed from the cooler, characterized in that the condensate of the vapor through the condensate pipe is sent to the upper part of the deaeration column from the vapor cooler located 2-10 m above the deaerator.