SU992899A1 - Boiler unit - Google Patents

Description

(54) BOILER NAY INSTALLATION

-. :

 The invention relates to the field of power engineering and can be used for conventional (atmospheric) type boiler units.

The well-known complex Dar-Gas installation, forging for generating electricity, heat, cold and crystalline carbon dioxide, contains Koiwipeccop, a high-pressure steam generator, a gas turbine, i economizers, a moisture separator, a refrigerant regenerator, a turbo expander and a crystalline carbon dioxide separator installed in the gas circuit { one}.

In this plant, the use of the highest calorific value of the fuel is achieved due to the pressure heat recovery of the combustion products and the latent heat of condensation of water vapor contained in the flue gas of the boiler units. However, it is necessary to have a high-pressure steam generator as a boiler unit, which is a disadvantage, since it does not allow to realize the use of the highest calorific value of fuel in

boiler units of the usual (atmospheric) type.

A boiler installation is known that contains a gas path with successively placed atmospheric-type boiler, pressure economizer, moisture separator and detander, and pressure economizer is connected via water, respectively, to the boiler and supply pipe equipped with a pump, as well as installed in a gas compressor path 2

The disadvantage of such a plant is also the impossibility of realizing the use of the highest calorific value of fuel in a conventional boiler unit (atmospheric).

15 types.

The purpose of the invention is to increase efficiency.

This goal is achieved by the fact that in a boiler plant containing a gas path with a successively located atmospheric boiler, a pressure economizer connected by water to the boiler and a supply pipe equipped with a pump, 399 with a moisture separator and detander, the compressor is installed in the gas path between the pressure economizer and boiler. Moreover, the pressure head ferrometer is made in the form of a contact device. The drawing shows a diagram of the boiler plant. The boiler plant contains a conventional (atmospheric) type boiler unit 1 with heat recovery unit 2, compressor 3, electric motor 4, dry 5 and wet 6 stages of economizer, moisture separator 7, detander 8, electric generator 9, fume pipe 10. The diagram also shows condensate collector 11, water tank 12 and water pump 13. The boiler plant operates as follows. The leaving flue gases of the boiler unit 1, preliminarily cooled in the heat-utilizing installation 2 to 60-80 ° C, are compressed in the compressor 3 to a pressure of 0.2-0.7 MP The compressor is driven from the electric motor 4; The compressed gases are directed to an emissator consisting of two successive stages: dry 5, where cooling is not accompanied by condensation of water of vapor in dagm gases, and wet 6, in which cooling of gases occurs together with condensation. The gas temperature at the outlet of their dry C1 Penalty 5 economizer is 5-10 ° C higher than the dew point temperature at a given pressure. The flue gases cooled in the economizer to 20-40 ° G flow through the moisture separator 7 into the expander 8, where they expand and perform work. The expander 8 causes the rotor of the electric generator 9 to rotate. After the decomposition 8, the flue gases enter the chimney 10 to exhaust into the atmosphere. Water from the water tank 12 is supplied to the economizer with the aid of the water pump 13, first to the wet stage. 6, and then into the dry 5. Water is heated (for example, under water) to the boiler unit 1. Condensate from the wet stage 6 of the economizer and moisture separator 7 is discharged to the condensate collector 11. As a result of using the invention, it becomes possible in flue gases (i.e. use of the high calorific value of the fuel), as well as lowering the temperature -. ry gases emitted to the ambient temperature and below. In this case, a significant economic effect can be obtained. For example, for a boiler room 4хКВГМ: -180 using the invention, it is possible to save 40-50 10 tons per g. The annual economic effect of the boiler will be 1.0-1.2 million rubles / year. Formula of the invention 1. The boiler room, the installation containing a gas path with successively placed atmospheric-type boiler, pressure economizer, moisture separator and detander, the pressure economizer connected via water to the boiler and supply pipe fitted with a pump, as well as a compressor characterized in that, in order to increase efficiency, the compressor is installed in the gas path between the pressure head economizer and the boiler. 2.Installation according to claim 1, that is, with the fact that the pressure economizer, in the form of a contact apparatus. Sources of information taken into account during the examination 1. USSR author's certificate No. 394575, cl. F 01 K 25/00, 1973. 2. Zysin V. А. Power combined-cycle plants and cycles. ML, SEI, 1962, p. 170, fig. 7-7.

Claims (2)

Claim 1. A boiler room, an installation containing a gas path with a sequentially placed atmospheric type boiler, a pressure economizer, a moisture separator and an expander, the pressure economizer being connected through water to the boiler and the supply pipe equipped with a pump, as well as a compressor installed in the gas channel, characterized in that, in order to increase efficiency, the compressor is installed in the gas path between the pressure economizer and the boiler. 2. Installation according to π. 1, with the fact that the pressure economizer is made in the form of a contact apparatus.