RU2203859C1 - Vacuum deaeration plant - Google Patents

Abstract

FIELD: heat power industry, boiler rooms, thermal power stations. SUBSTANCE: proposed vacuum deaeration plant includes deaerator with pipe-lines of starting and deaerated water connected to it, vacuum pump linked to deaerator by evaporation pipe-line fitted with branch pipes feeding and discharging working water. Branch pipe feeding working water is joined to pipe-line of starting water of vacuum deaerator and branch pipe discharging working water is connected to deaerator. EFFECT: increased economic efficiency of vacuum deaeration of water thanks to recovery of evaporation heat and heat of working water of mechanical vacuum pump. 1 dwg

Description

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

 A well-known analogue is a vacuum deaeration unit containing a deaerator with source and deaerated water pipelines connected to it, a mechanical vacuum pump connected to a deaerator by an evaporation pipeline and equipped with nozzles for supplying and discharging working water, respectively connected to a technical water pipeline and to a sewer (bubbler) ( see article Sharapova VI. Adjustment of vacuum deaeration plants with liquid ring pump and multi-section deaerators // Electric Stations, 1977, 9, Fig. 1 on p. 38). This analogue is adopted as a prototype.

 The reasons that impede the achievement of the technical result indicated below when using the well-known installation adopted as a prototype include reduced profitability due to the discharge of working water after a mechanical vacuum pump into the sewer (bubbler). Together with the working water, the heat received from the evaporation of the vacuum deaerator is lost.

 The technical result achieved by the claimed invention is to increase the efficiency of vacuum deaeration of water by utilizing the heat of the vapor and the heat of the working water.

 To achieve this result, a vacuum deaeration unit is proposed that contains a deaerator with source and deaerated water pipelines connected to it, a mechanical vacuum pump connected to the deaerator by a vapor pipe, equipped with nozzles for supplying and discharging working water.

 The peculiarity lies in the fact that the branch pipe for supplying working water is connected to the pipeline for the initial water of the vacuum deaerator, and the pipe branch for draining the working water is connected to the pipe with a vacuum deaerator.

 The drawing shows a schematic diagram of a vacuum deaeration plant.

 The installation contains a vacuum deaerator 1 with connected pipelines of the source water 2 and deaerated water 3, a mechanical vacuum pump 4 connected to the deaerator 1 by a vapor pipe 5, equipped with nozzles for supplying 6 and for removing 7 working water. The pipe 6 is connected to the source water pipe 2 of the vacuum deaerator 1 by a pipe 8, and the working water pipe 7 is connected by a pipe 9 to the deaerator 1. The pipe 7 can also be connected to the pipe 2 directly in front of the deaerator 1. A heater 10 is included in the pipe 2.

 Vacuum deaeration plant operates as follows.

 The source water is heated in the heater 10 and is supplied to the deaerator 1 through the pipe 2. The deaerated water is discharged from the vacuum deaerator 1 through the pipe 3, the vapor generated during deaeration is removed from the deaerator by a mechanical vacuum pump 4 through the evaporation pipe 5. As working water in a mechanical vacuum pump 4, a part of the initial water from the pipeline 2 is used, supplied through the pipe 6. The water used in the pump is supplied through the pipe 9 to the deaerator 1 through the pipe 7.

 The efficiency of the installation is increased by eliminating losses with the heat of the vapor removed from the deaerator and the heat of the working water of the mechanical vacuum pump.

Claims (1)

 A vacuum deaeration unit comprising a deaerator with source and deaerated water pipelines connected to it, a mechanical vacuum pump connected to a deaerator by a vapor pipe, equipped with nozzles for supplying and discharging working water, characterized in that the pipe for supplying working water is connected to a source pipe of vacuum deaerator water, and the outlet pipe for working water is connected to the deaerator.