RU2298727C1 - Boiler plant - Google Patents

Abstract

FIELD: heat power engineering.

SUBSTANCE: boiler plant comprises boiler, pipelines for live steam and feed water connected with the boiler, deaerator connected with the pipeline for feed water and pipeline for the initial water and steam duct for heating steam that is connected with the pipeline for live steam through the reducing device and control member of the deaerator pressure regulator. The pump and initial water heater are made of an injector connected with the steam duct for heating steam of the deaerator between the reducing device and control member of the deaerator steam pressure regulator.

EFFECT: enhanced efficiency and reliability.

1 dwg

Description

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

A well-known analogue is a boiler installation (see Solovyov Yu.P., Mikhelson A.I. Auxiliary equipment of a thermal power plant, central boiler rooms and its automation. M., "Energy", 1972, Fig. 1-3 on page 21 with comments on pg. 20-22). The analogue contains a steam boiler (pos. 1 in Fig. 1-3) with piping for hot steam (pos. A) and feed water, a deaerator (pos. 8) included in the feed water pipe with the source water pipe and the heating steam piping which is connected through a reduction unit (pos. 28) and a regulator (pos. 29) of the steam pressure regulator in the deaerator to the hot steam pipeline, a heater (pos. 10) and a pump (included in the chemical water treatment pos. 27) included in the source water pipeline . To drain condensate from the source water heater, a condensate pump is installed in the deaerator (key 21).

For reasons that impede the achievement of the technical result indicated below when using a known device adopted as a prototype, a pump is necessary in a known device for supplying water to a deaerator. In addition, a condensate pump is needed to drain the condensate from the source water heater. This leads to excessive energy costs for the own needs of the boiler room and a decrease in the efficiency of the boiler room.

The technical result achieved by the present invention is to increase the efficiency and reliability of the boiler plant by reducing the cost of electricity for their own needs and simplifying the boiler room, eliminating from it a condensate pump and a source pump with electric drive.

To achieve this result, a boiler plant is proposed that contains a steam boiler with hot steam and feed water pipes connected to it, a deaerator included in the feed water pipe with a source water pipe and a heating steam pipe, which is connected through a reduction unit and the regulating body of the steam pressure regulator in the deaerator to a sharp steam pipeline, a heater and a pump included in the source water pipeline.

The peculiarity lies in the fact that an injector is installed as a pump and a source water heater, which is connected via a working and heating medium to the steam pipe of the deaerator heating steam between the reduction unit and the regulating body of the steam pressure regulator in the deaerator.

The inclusion of the injector in the source water pipeline as a contact heater allows, along with providing heating of the source water, the use of steam energy for supplying the source water to the thermal deaerator and thereby excluding the pump for supplying water to the deaerator from the installation scheme. In addition, the condensate pump of the source water heater is excluded from the circuit. All this allows you to increase the efficiency of the boiler plant by reducing capital costs for its construction and energy costs for its operation. Connecting the injector through the working and heating medium to the steam line of the heating steam to the deaerator between the reduction unit and the steam regulating body in the deaerator allows us to provide the necessary and sufficient steam parameters for the injector to operate.

The drawing shows a schematic diagram of a boiler installation.

The boiler installation contains a steam boiler 1 with a sharp steam pipe 2 and with a feed water pipe 3. A deaerator 4 with a source water pipe 5 and a heating steam pipe 6 is included in the feed water pipe 3. The heating steam pipe 6 is connected through a reduction unit 7 and a regulator regulator 8 steam pressure in the deaerator 4 to the sharp steam pipeline 2. An injector 9 is installed in the source water pipe 5, connected via a working and heating medium to the steam pipe of the heating steam 6 of the deaerator 4 between the pressure reducing device by the regulator 7 and the regulating body of the steam pressure regulator 8 in the deaerator 4.

The boiler installation works as follows.

The feed water before being fed into the boiler 1 is deaerated by supplying the source water and heating steam to the deaerator 4. The heating steam is taken from the steam supply of the hot steam 2 of the boiler and reduced to the reduction unit 7 before being fed to the deaerator 4. The pressure in the deaerator 4 is controlled by changing the flow rate of the heating steam using the regulator 8. The source water is heated before deaeration and supplied to the deaerator 4 by means of an injector 9, into which part of the heating steam of the deaerator 4 is supplied as a working and heating medium. This steam is taken from the steam line and heating steam reduction setting between 6 and 7, pressure regulator 8 regulating body 4 vapor in the deaerator.

The efficiency of the boiler installation is increased by heating and supplying the source water to the thermal deaerator with the help of an injector, which reduces the energy costs of heating and transporting the source water before the thermal deaerator, as well as the capital costs of its construction by eliminating the source water and the condensate pump from the pump circuit electric drive. The reliability of the installation is enhanced by simplifying its design and using as a working and heating medium for heating and supplying the source water to the steam deaerator the necessary and sufficient parameters selected between the reduction installation and the regulating body of the deaerator pressure regulator.

Claims (1)

A boiler plant comprising a steam boiler with hot steam and feed water pipelines connected to it, a deaerator included in the feed water pipe with a source water pipe and a heating steam pipe that is connected through a reduction unit and a regulating body of the steam pressure regulator in the deaerator to the hot steam pipe, a heater and a pump included in the source water pipe, characterized in that an injector is installed as a pump and a source water heater connected by operation s and a heating medium heating steam to the steam pipe between the deaerator and reduction setting regulatory body of the pressure regulator vapor in the deaerator.