SU1724587A1 - Plant for preparation of make-up water for power system - Google Patents

Abstract

Use: preparation of make-up water in the schemes of thermal power plants and boiler rooms. The aim of the invention is to increase the economy and reliability. SUMMARY OF THE INVENTION: The installation comprises a column of a decarbonator sequentially placed on the pipeline of chemically purified water, a suction pump, a vacuum deaerator with a vapor condenser and an ejector, a storage tank and a submersible water pump. The evaporator cooler through the cooling medium is included in the supply water line between the suction pump and the deaerator, and the ejector of the working medium is connected to the same line in front of the evaporator cooler. The output diffuser of the ejector is connected to the top of the calciner column. Ensuring optimal working conditions of the ejector and the evaporator of the steam makes it possible to increase the efficiency of work, 1 sludge.

Description

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The invention relates to a power system and can be used in the schemes of thermal power plants and boiler rooms.

Installations for the preparation of make-up water are known - analogues containing a calciner column, a suction pump, a vacuum de-aerator with a steam cooler and an ejector for vapor-gas extraction, a storage tank and a make-up water pump that are successively placed on the line of chemically purified water.

A disadvantage of the known installations is reduced reliability and efficiency. When used in steam ejector analogues, reliability is reduced due to intense corrosive wear of the ejector elements. When using water jet ejectors connected in accordance with known schemes successively behind the surface evaporator cooler into the chemically treated water pipeline, reliability and efficiency are reduced due to the need to maintain high pressure of the chemically purified water in front of the evaporator cooler and the ejector.

The purpose of the invention is to increase the efficiency and reliability of the installation when using a remote surface preheater as a vapor cooler.

This goal is achieved by the fact that the evaporator cooler through the cooling medium is connected to the make-up water line between the suction pump and the deaerator, and the working medium ejector is connected to the same line in front of the evaporator cooler, the annular space of the latter is connected the ejector, and the output diffuser of the ejector is connected to the upper part of the calciner column.

The drawing shows a schematic diagram of the installation.

The installation contains a chemical water treatment 1 connected to the calcinated water pipeline 2 to the calciner 2, which is connected via a drainage pump 3 through the decarbonated water pipeline 4 to a vacuum deaerator 5, which is connected to an accumulator 6 from the deaerated water pipeline 7 vapor connected by suction of the vapor-gas medium with deaerator 5 and water-jet ejector 8, which is connected to pipeline 4 in front of the evaporator cooler. The output diffuser of the ejector 8 is connected to the upper part of the column of the carbonizer 2.

The installation works as follows.

The initial water diminishes in chemical water cleaning 1, is decarbonated in calciner 2 and pump 3 through line 4 is fed to a vacuum deaerator 5 installed, as a rule, at 22-24 m. To lift water to this height and overcome the resistance of pipelines pump 3 creates pressure up to 0.5-0.6 MPa. After aeration, the water enters the tank 6 and further to feed the boilers or the heating system. The vapor-gas medium from the deaerator through the pipeline 9 enters the cooler 7 and is sucked off by the ejector 8. A portion of water from the pipeline 4 with a pressure of 0.3-0.5 MPa is used as the working medium of the ejector. Install the cooler above the connection point.

The ejector to the pipeline 4 allows to create some pressure at this point, which stabilizes the water pressure in front of the ejector. The water after the ejector is discharged to the decarbonizer 2 column.

The invention makes it possible to increase the reliability and efficiency of the installation by providing optimal conditions for the operation of the water jet ejector and the evaporator cooler with minimal energy costs and a simplified installation scheme.

Claims (1)

The invention includes a decarbonizer column, a suction pump, a vacuum de-aerator with a vapor cooler and an ejector for suction of the vapor-gas medium, an accumulator tank and a makeup water pump, characterized in that: , in order to increase the efficiency and reliability of the plant when using a remote surface preheater as a vapor cooler, the vapor condenser is cooled according to medium included in the line of feed water between the suction pump and the deaerator, and an ejector for the working medium connected to the same line before the coolant vapor, and the annular space last communicated with the deaerator and the nozzle entry vapor medium ejector outlet diffuser of the ejector is connected to the top of the calciner.