RU2210543C1 - Method of thermal deaeration of water - Google Patents

Abstract

FIELD: heat- power engineering+ADs- boiler plants and thermal power stations. SUBSTANCE: proposed method includes deaeration of water under excessive pressure and removal of steam formed in the course of deaeration followed by cooling steam in cooler by starting water fed to deaerator+ADs- noncondensable gases are evacuated from steam cooler into atmosphere. Steam is cooled by mixing it with starting water fed to deaerator+ADs- consumption of steam and pressure in deaerator are regulated by means of regulating unit fitted on pipe line discharging noncondensable gases into atmosphere. Mixture of steam condensate and starting water is directed to upper part of deaeration column. 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.

 Analogs are known - methods of thermal deaeration of water, in which water is deaerated under excessive pressure, the vapor formed during deaeration is removed from the deaerator, then it is cooled in the surface cooler of the vapor supplied to the deaerator by the source water, non-condensable gases are removed from the vapor cooler to the atmosphere (see Delagin G .N., Lebedev V.I., Permyakov B.A. Heat-generating plants (Moscow: 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 following technical result when using the known method adopted as a prototype include reduced reliability and efficiency due to the high intensity of corrosion and frequent damage to the surface evaporator cooler.

 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 in that the water is deaerated under excess pressure, the deaerated water is removed from the deaerator, the vapor formed during deaeration is removed from the deaerator, then it is cooled in the vapor cooler by the source water supplied to the deaerator, non-condensing gases are removed from the vapor cooler to the atmosphere.

 A feature of the proposed method is that the vapor is cooled by mixing it with the source water supplied to the deaerator, the vapor flow and pressure in the vapor cooler are controlled by a regulator on the non-condensing gas discharge pipe into the atmosphere. A mixture of vapor and feed water is sent to the top of the deaerator column.

 A new method of thermal deaeration of water allows to increase the reliability and efficiency of thermal deaeration due to the use of a mixed-type vapor cooler, less susceptible to corrosion, and more complete utilization of the vapor.

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

 The installation contains an overpressure deaerator 1 with feed water pipes 2 and deaerated water 3 connected to it, a cylindrical mixing cooler for vapor 4, to which feed water pipe 2 and a vapor pipe 5 for deaerator are connected. The vapor cooler in the lower part is connected by the drain line of the mixture of the condensate of the vapor and the source water 6 to the upper part of the column of the overpressure deaerator 1 and is connected in the upper part of the deaerator 1 by the pipe 7 for removal of non-condensable gases through the regulatory body 8 with the atmosphere.

 The method of thermal deaeration of water is as follows.

 The source water is supplied to the overpressure deaerator 1 through line 2. The vapor formed during deaeration is removed from the deaerator 1 via line 5 and cooled in the cylindrical cooler of the vapor 4 by mixing with the source water supplied to the deaerator. A mixture of vapor condensate and feed water from the vapor cooler is drained to the top of the deaerator column 1 via line 6, the vapor flow rate and pressure in the vapor cooler are controlled using a regulator 8 mounted on the non-condensing gas discharge pipe to the atmosphere.

Claims (1)

 The method of thermal deaeration of water, in which water is deaerated under excess pressure, the vapor formed during deaeration is removed from the deaerator, then it is cooled in the vapor cooler by the source water supplied to the deaerator, non-condensing gases are removed from the vapor cooler into the atmosphere, characterized in that the vapor is cooled by mixing it with the source water supplied to the deaerator, the flow rate of the vapor and the pressure in the vapor cooler are controlled by a regulating body on the pipeline for the removal of non-condensable gases into the atmosphere, and the mixture of vapor and feed water is sent to the top of the deaerator column.