SU1751168A1 - Plant for preparation of make-up water of heat-supply systems - Google Patents

Abstract

Usage: in the field of power engineering. SUMMARY OF THE INVENTION: The installation comprises a calciner, a vacuum deaerator and a storage tank, as well as a line for supplying source water to the decarbonator with a pump installed on it, water purification, water jet ejector and a steam evaporator cooler of the deaerator equipped with a suction condensate duct, the installation is provided with a pipeline, and a pipeline with a condenser with a condensate drain and an installation, supplied with a pipeline, with a condensate evaporating cooler equipped with a drain condensate duct, the installation is supplied with a pipeline, a pipeline and a condenser with a drain condenser with a condensate drain, the installation is provided with a pipeline, and a pipeline with a condenser with a condensate drain; water for water treatment with calciner. a tank of used water from the ejector and an additional pump installed on this line between the ejector and the evaporator cooler, while the condensate line is brought into the indicated tank. The connection of the ejector to the source water pipeline is made at a height of 5-10 m level in the tank of used water of the ejector, and the evaporator cooler is installed at the location level of the deaerator. 1 hp f-ly, 1 ill. (Ls

Description

The invention relates to a power system and can be used in the schemes of thermal power plants and boiler rooms, mainly with the installation of calciners above vacuum deaerators.

Installations for the preparation of make-up water heating systems are known, containing a calciner, a vacuum deaerator and a storage tank, a line for supplying the source water to a calciner with a water treatment, a steam jet ejector.

The disadvantage of these installations is reduced reliability due to the use of steam jet ejectors to create a vacuum in deaerators. Steam ejectors are short-lived because of the intense corrosive wear of the tube bundles of condensate coolers and partitions between the stages of the ejector.

A known installation comprising a calciner, a vacuum deaerator and a storage tank, as well as a line for supplying source water to a calciner with a pump installed on it, water cleaning, a water jet ejector and a vaporizer of the deaerator equipped with a drain condensate line.

The disadvantages of the known installation are reduced efficiency and reliability due to the maintenance of high pressure of the entire flow of the initial chemically purified water in front of the ejector and calciner. This is especially noticeable in installations with the placement of calciners above vacuum deaerators.

The aim of the invention is to increase the efficiency and reliability of the installation.

The goal is achieved; the installation is additionally equipped with a pipeline that informs the source water line for water purification with a decarbonizer, a tank of used water of the ejector and an additional pump installed on this line between the ejector and the evaporator cooler; to the source water pipeline is made at a height of 5-10 m from the level in the tank of used water of the ejector, and the evaporator cooler is installed at the location of the deaerator.

The drawing shows a schematic diagram of the installation

The installation includes a pump 1 and chemical water cleaning 2 included in the pipeline 3 supplying source water to the calciner 4, vacuum deaerator 5 and storage tank 6. The vacuum deaerator 5 is connected by a steam exhaust pipe 7 to the evaporator cooler 8 and a water-jet ejector 9. The installation is additionally equipped with a pipe 10 communicating line 3 for chemical water cleaning 2 with calciners 4 In additional pipe 10 in series include water-jet ejector 9, tank 11 of used water of the ejector, additional pump 12 and cooler 8 ra. The condensate trap 13 of the cooler is wired into the tank 11 The ejector 9 is connected to the source water pipeline at a height of 5-10 m from the level in the tank 11, and the cooler 8 is installed at the location of the deaerator 5

The installation works as follows.

The source water is pumped through chemical cleaning 2 via pipeline 3 to decarbonisers 4. After the decarbonators, water enters deaerator 5 and then into

accumulating tank 6, from where it goes to feed the heating network or boilers. The evaporator of the deaerator through the pipeline 7 enters through the cooler 8 into the water-jet ejector 9 V

Claims (1)

As the working medium in the ejector 9, a part of the source water from the pipeline 3 is used. The water used in the water jet ejector 9 is piped through the pipeline 10 into the tank 11, from which the pump 12 through the cooler 8 is supplied to the calciner 4 The condensate of the cooler 8 is drained into the tank 11 Nova interconnecting elements does not improve the efficiency and reliability of the installation by providing optimal conditions for the operation of a water-jet ejector with minimal energy costs for the transportation of the source water. 1 Installation for preparation of feed water of the heating system, containing a calciner, a vacuum deaerator and a storage tank, as well as a line for supplying the source water to the calciner with a chemical water cleaning pump installed on it, a water jet ejector and a vaporizer of the deaerator equipped with a discharge condensate line, which, in order to increase the efficiency and reliability, the installation it is equipped with a pipeline that informs the source water line for water purification with a decarbonator, an ejector waste water tank and an additional pump installed on this line between the ejector and the evaporator cooler, while the condensate pipe is inserted into the specified tank 2 Installation according to claim 1, characterized in that the ejector is connected to the source water pipeline at a height of 5-10 m from the level in the tank of used water of the ejector, and the evaporator cooler is set at the level of the deaerator