RU2113654C1 - Water deaeration process - Google Patents

Abstract

FIELD: thermal engineering; thermal power plants and boiler units. SUBSTANCE: water is sequentially deaerated in vacuum deaerator 2 and in high- pressure deaerator 3; heating agent is supplied to these deaerators and flash steam formed in the process is discharged from them; flash steam discharged from high-pressure deaerator 3 is used as heating agent for vacuum deaerator 2. EFFECT: improved economic efficiency. 1 dwg

Description

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

 Known analogues are methods for deaerating water, where water is successively deaerated in a vacuum deaerator and high pressure deaerator, into which a heating agent is supplied and from which the vapor formed during deaeration is removed (ed. St. N 1451291 - prototype).

 The disadvantage of analogues and the prototype is the reduced efficiency due to the need for costs as a heating agent for deaeration of valuable coolants (in the prototype, water heated in the turbine’s network heaters is supplied to the vacuum deaerator) and losses of heat of the vapor discharged into the atmosphere. In the case of even partial use of the heat of evaporation of the high pressure deaerator through the use of a vapor cooler, the efficiency of the method is reduced due to the need to complicate the installation scheme in which the method is implemented.

 The purpose of the invention is to increase the efficiency of the method of deaeration of water.

 To achieve this goal, a method is proposed for deaerating water, in which water is successively deaerated in a vacuum deaerator and high pressure deaerator, where a heating agent is supplied and where the vapor formed during deaeration is removed, and the vapor of a high pressure deaerator is used as a heating agent in a vacuum deaerator.

 The drawing shows a variant of the boiler plant diagram, in which the implementation of the method is possible.

 The installation comprises a steam boiler 1, a vacuum deaerator 2, an overpressure deaerator 3. The deaerator 3 is connected to the deaerator 2 by a vapor pipe 4, which for the deaerator 2 is a pipeline of a heating agent.

 The method consists of the following operations.

 The source water is deaerated in deaerator 2, then in deaerator 3. Deaerated feed water is supplied to boiler 1. From boiler 1, a heating agent is supplied to steam deaerator 3. The vapor from the deaerator 2 is discharged by the ejector into the atmosphere. Evaporated from deaerator 3 is used as a heating agent in deaerator 2.

A specific example of the implementation of the method. The source water with a temperature of 40 ^o C and an initial dissolved oxygen content of 6000 μg / L is fed into a vacuum deaerator 2, where it is heated to 50 ^° C and the oxygen content is reduced to 30 μg / L. Evaporate (a mixture of evolved gases with steam) from the deaerator 2 is removed using an ejector to the atmosphere. Water from the deaerator 2 is fed into the deaerator 3, in which it is heated by steam from the boiler 1 to 150 - 160 ^o C and reduce the oxygen content to 10 μg / L. From the deaerator 3, feed water is supplied to the boiler 1. Since the vapor discharged from the deaerator 3 contains a relatively small amount of oxygen and other gases, it is used as a heating agent in the deaerator 2.

 Thus, the proposed solution allows to increase the efficiency of the method of deaeration of water due to the use of a low-value coolant in a vacuum deaerator - evaporation of an elevated pressure deaerator, which was previously emitted into the atmosphere, and for the partial utilization of its heat, the complexity of the boiler plant scheme was required. In the proposed solution, the heat and mass of the vapor of the high pressure deaerator are fully used to simplify the installation scheme where the method is implemented.

Claims (1)

 A method of deaerating water, in which water is successively deaerated in a vacuum deaerator and a deaerator of high pressure, to which a heating agent is supplied and from which the vapor formed during deaeration is removed, characterized in that the vapor of the high pressure deaerator is used as a heating agent in a vacuum deaerator.