SU1663308A1 - Method of cooling boilers - Google Patents

Abstract

The invention relates to heat and power engineering, to boiler installations, and makes it possible to increase the economy and shorten the duration at a permissible cooling rate. To cool the boiler plant, cold atmospheric air is fed into the tail section 5 of the convective gas duct 4, passed through the convective gas duct 4 into the furnace 1, and from the latter through the air duct 3 the heated air is led off to the exhaust fan 7, and the temperature allowed for the smoke exhauster is provided by mixing with the cold exhaust fan before of air. The supply of cooling air to the furnace 1 through the convective flue 4 reduces the temperature difference between the air and the screens with insulation, reduces the voltage in the latter and allows supplying air without time delay after shutdown and with a large flow rate, which reduces the duration of cooling down. 1 il.

Description

The invention relates to a power system, namely to boilers, and can be used to accelerate the process of cooling down boilers.

The aim of the invention is to improve the economy and reduce the duration at a permissible rate of cooling.

The drawing shows an installation diagram which allows to implement this method of cooling.

The boiler plant contains a furnace 1, connected through the burners 2 to the air path 3, a convective flue 4 with a tail part 5 fitted with a valve 6

supply of atmospheric air, and the exhaust fan 7, the suction inlet 8 of which is connected through the gate 9 to the tail section 5 of the convective gas duct 4, and through the gate 10 to the air path 3 communicated through the blower fan 11 and the valve 12 with the atmosphere. The convective flue 4 and the air path 3 are connected to the air heater 13.

In the process of cooling down the boiler installation, cold atmospheric air after stopping the boiler is led through valve 6 to the tail section 5 of the convective flue 4 and is passed through air bubbles

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an additional heater 13 and said flue 4 to the firebox 1. from where, through the burners 2, the air path 3, the blower fan 11 and the gate 10, the heated air is discharged by the exhaust fan 7 into the atmosphere. In case of an increase in the temperature of the heated air before the exhauster 7 above the permissible value for the exhauster 7, the decrease in the air temperature is ensured by mixing in cold air, which is supplied from the tail part 5 of the convective duct 4 through the gate 9.

As an example of a specific implementation of the method, the cooling of a TL-804 type boiler house can be used, the furnace 1 of which is equipped with screens and insulation, and the convective gas flue 4 is equipped with high and low pressure superheaters and an economizer. When the boiler plant is stopped, the temperature of the furnace 1, insulation and steam superheater screens remains at 500 ° C. After the boiler plant is stopped, valve 6 and gate 10 are closed, valve 12 and gate 9 are closed and the blower fan 11 is turned off. through valve 6, air heater 13, economizer and steam superheaters of the convective gas duct 4, which leads to its heating before entering the furnace 1 almost to the temperature of the screens. From the furnace 1, the heated air is removed by the exhauster 7 through the air heater 13 and the air path 3. The air temperature before the exhauster 7 is kept no higher than 200 With cold air through the gate 9. The cooling rate is maintained at 5-7 ° C / min by changing the air flow rate from using the exhauster 7, the Cooldown is carried out until

lowering the maximum air temperature along the path below 120-140 ° С.

Cooling down the boiler installation by passing air through a convective flue in the direction from less heated

heating surfaces to more heated ones allows to reduce the temperature difference between the screens and the insulation of the furnace and the cooling air, which allows the cooling to begin after stopping the boiler room

installation without time delay and with increased speed and reduce the duration of cooling down.

Claims (1)

Claim method for cooling down a boiler plant by passing atmospheric air through a furnace, an air duct, a convective flue, including its tail section, and a smoke exhauster, characterized in that, in order to increase efficiency and shorten the duration at a permissible cooling rate, atmospheric air is fed into the tail section convection gas duct and pass in the direction through the convective gas duct into the furnace, and from there through the air path to the exhaust fan, and the temperature allowed for the exhaust fan. They are mixed by mixing cold air before a smoke exhauster.