RU2621443C1 - Boiler unit - Google Patents

Abstract

FIELD: heating.

SUBSTANCE: boiler unit comprises a boiler with an attached gas exit flue, split after the boiler into the main and the bypass gas flues, which are connected to a common gas flue before the exhaust fan, installed in the main flue, heat exchanger recovering exit gases. In place of the gas exit flue sepeartion to the main and bypass gas flues, controller is installed distribuding the exit gases between the main and bypass gas flues associated with the moisture containing exit gases regulator in general gas flue before the exhaust fan, and the moisture containing exit gases controller is connected to the moisture content sensor mounted in the general gas flue before exhaust fan.

EFFECT: accuracy and reliability of moisture content control of exit gases in order to avoid condensation in the gas flues and chimney.

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Description

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

An analogue is known - a boiler installation containing a boiler with a flue gas duct connected to it, divided after the boiler into main and bypass flues, which are connected to a common flue in front of the exhaust fan, a heat exchanger utilizing the heat of the flue gases installed in the main flue (see A. Kudinov Patent for invention No. 2148206: Boiler installation; Russia, 2000). This analogue is adopted as a prototype.

This analogue ensures good operation of the boiler installation, but does not ensure reliable operation of the chimney. So, at insufficient temperature of the combustion products after the condensation heat exchanger-utilizer, the condensation layer accumulates on the surface of the chimney, thereby causing its destruction. Thus, a disadvantage of the known boiler installation is reduced reliability.

The technical result achieved by the present invention is to increase the reliability of the boiler plant by controlling the moisture content of the exhaust gases in order to avoid condensation in the flues and chimney.

To achieve this result, a boiler plant is proposed that contains a boiler with a flue gas duct connected to it, divided after the boiler into main and bypass ducts, which are connected to a common duct in front of the exhaust fan, a flue gas heat exchanger-heat exchanger installed in the main duct.

The peculiarity is that in the place of separation of the flue gas duct into the main and bypass flues, a regulating body for the distribution of flue gases between the main and bypass flues is installed, connected with the regulator of moisture content of the exhaust gases in the common duct before the smoke exhaust, and the regulator of moisture content of the exhaust gases is connected to the moisture sensor installed in the common flue in front of the exhaust fan.

Next, we consider the information confirming the possibility of carrying out the invention with obtaining the desired technical result.

The drawing shows a schematic diagram of a boiler plant. The boiler installation comprises a steam boiler 1 connected to a flue gas duct 2. The flue gas duct 2 is divided into a main gas duct 3 and a bypass gas duct 4. A condensing heat exchanger-utilizer 5 of the heat of combustion products is located in the main gas duct 3. A smoke exhaust fan 6 is installed in a common gas duct 7 and is connected to a chimney 8. The regulating organ 9 is connected to a moisture content sensor 10 through the moisture regulator 11.

The boiler installation works as follows.

The flow of combustion products after the boiler 1 with a temperature of 140-160 ° C after the flue 2 flue gas is divided into two parts. The first part (about 80%) of the combustion products through the main gas duct 3 enters the condensing surface heat exchanger-utilizer 5, the rest (about 20%) goes to the bypass gas duct 4. In the condensing heat exchanger-utilizer 5, the combustion products are deeply cooled to 35-40 ° C, while there is a condensation of part of the water vapor contained in them. Then, the cooled combustion products are mixed with the non-cooled combustion products passing through the bypass duct 4, dried, and at 65-70 ° C the exhaust fan 6 is discharged through the common duct 7 through the chimney 8 to the atmosphere. The moisture content sensor 10 captures the moisture content of the combustion products in front of the exhaust fan 6. With increased moisture content, the moisture content sensor 10 sends a signal through the moisture content regulator 11 to the flue gas supplying body 9. The regulating body 9 for supplying flue gases increases the gas supply through the flue to achieve the required temperature and reducing the moisture content of the mixture in the flue 7. With modern automation means, the process of controlling the moisture content of the flue gases in the flue 7 before the exhaust fan 6 is carried out with great accuracy and reliability.

Thus, the proposed solution allows to increase the reliability of the boiler installation by regulating the moisture content of the exhaust gases in order to avoid condensation in the flues and chimney.

Claims (1)

A boiler plant comprising a boiler with a flue gas duct connected to it, divided after the boiler into main and bypass flues, which are connected to a common flue in front of the exhaust fan, a flue gas heat exchanger-heat exchanger installed in the main flue, characterized in that at the flue gas separation point of gases to the main and bypass flues, a regulating body for the distribution of flue gases between the main and bypass flues is installed, connected with the regulator of moisture content of the flue gases in general azohode before exhauster, and a moisture content of flue gas regulator connected to the moisture sensor mounted in the duct before the total exhauster.

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