RU35561U1 - Flue gas device - Google Patents

Description

DEVICE FOR SMOKE GAS DISCHARGE

The utility model relates to a power system and can be used in chimneys with a ventilated air gap between the lining and the reinforced concrete barrel to remove flue gases from steam boilers.

A device for exhausting flue gases is known, comprising a reinforced concrete barrel and a chimney lining separated by a ventilated air gap, an air heater of a steam boiler, a smoke exhaust, an air duct with a fan, after which a heater 1 is turned on. The vented air gap of the chimney communicates with the atmosphere through a heating ventilating unit used for heating and supplying air to the ventilated gap of the pipe in order to ensure an acceptable temperature difference in the lining. Heated air at the entrance to the ventilated chimney gap is carried out due to the heat of steam from the selection of the turbine. The temperature of the air heating is regulated at a predetermined level using the temperature controller. Air is vented into the ventilated gap by the fan to provide the necessary back pressure in the ventilated channel with respect to the gas.

A disadvantage of the known device is that the installation of a fan at the entrance to the ventilated gap increases the cost of their own needs. Another drawback is the lack of regulation of temperature and air flow into the ventilated gap, depending on the temperature difference in the lining, climatic conditions and load, under MK7F23J 11/00

the boilers connected to the chimney and the type of fuel burned, which entails a decrease in the reliability of the lining.

The technical result of the utility model is achieved in that in a device for removing flue gases, comprising a reinforced concrete barrel and a chimney lining separated by a ventilated air gap, an air heater of a steam boiler at the input of which a heater, a smoke exhaust with a gas duct and an air duct with a fan, a ventilated air gap of the chimney connected to the hot air duct after the steam boiler air heater with an exhaust duct, into which an ejector connected by an ejector is connected my medium with atmosphere, wherein the inputs are set ejector regulating vanes associated to the actuator communicates with the temperature sensors to be installed in the outer and inner surface of the chimney lining. The exhaust air duct after the air heater and the boiler air duct after the air heater are connected by a jumper, while the exhaust air duct before the jumper and the jumper are equipped with gates.

The technical result is provided by regulating the flow of hot and cold air in front of the ejector due to the pulse supplied to the actuator according to the temperature difference in the lining, depending on the changing parameters of the exhaust gases and the temperature of the outside air. When the temperature difference changes, the position of the regulating gates and the flow rates of air flows at the inlet to the ejector change. As a result, the air temperature at the entrance to the ventilated gap is leveled to a value

providing the permissible temperature difference on the lining.

The essence of the proposed utility model is illustrated by a figure. A flue gas removal device comprises a reinforced concrete barrel 2 and a chimney lining 3 separated by a ventilated air gap 1. The device contains an air heater 4 of the steam boiler 5. After the air heater 4, the air is sent through the duct 6 to the burners 7 of the boiler 5. Part of the air after the air heater 4 is directed to the ejector 9 through the exhaust air duct 8, the outlet of which is connected to the vented gap 1 of the chimney. At the inputs of the ejector 9, control gates 10 and 11 are installed, which are connected to the actuator 12. The actuator 12 is in communication with temperature sensors 13 and 14 mounted on the outer and inner surfaces of the lining 3 of the chimney. The boiler 5 is equipped with a smoke exhauster 15 and a fan 16. The smoke exhauster 15 is in communication with the gas channel of the chimney by the gas duct 17. The air duct 18 behind the air heater 19 of the boiler 5 is connected by a jumper 20 with an exhaust duct 8 connected to the ventilated gap 1 of the chimney. On the exhaust air duct 8 to the jumper 20 and on the jumper installed gates 21. The ejector 9 through the ejected medium is in communication with the atmosphere through the air intake 22.

The proposed device operates as follows. When the steam boiler 5 is operating, the exhaust gases after the air heater 4 by the exhaust fan 15 are discharged through the duct 17 along the inside of the lining 3 of the chimney to the atmosphere.

The cold air is supplied by the fan 16 through the air heater 19 to the air heater 4, after which it is directed through the hot air duct 6 to the burners 7 of the boiler 5, and part of it enters the ejector 9 nozzle through the exhaust gate 10 through the control gate 10. In the ejector 9 from Atmosphere, cold air is sucked in, which is mixed with hot air to the required temperature, ensuring an allowable temperature difference in the lining 3.

When the outside temperature decreases, the air temperature after the ejector also decreases. In this case, the difference in the lining 3 increases. As a result of the increase in the temperature difference, the actuator 12, in response to an impulse from the temperature sensors 13 and 14, actuates control dampers that reduce the flow of cold air and increase the flow of hot air, restoring the previous permissible temperature difference in the lining. On the contrary, when the outdoor temperature rises, the actuator actuates the control dampers in the opposite direction, which reduces the flow of hot air and increases the flow of cold air. As a result, the previous mode of operation of the lining is restored.

When changing the temperature and flow rate of the exhaust gases, the actuator maintains the ratio of the flow rates of hot and cold air at the inlet to the ejector in such a way that the temperature difference in the lining is within acceptable limits for any change in the operating modes of the steam boiler.

When burning sulfur fuels in the boiler, the air heating at the inlet to the air heater of the steam boiler reaches 8CH-90 ° C. In this case, the gate 21 on the jumper opens, and on the exhaust duct 8 closes before the jumper.

The advantage of the invention in comparison with the prototype is that it does not require the installation of an additional fan for pumping air into the ventilated gap 1 of the chimney, and the back pressure in it is ensured by the pressure of the standard fan of the steam boiler.

Thus, the use of the proposed technical solution allows the automatic operation of the chimney with a ventilated gap between the bearing reinforced concrete barrel and the lining with the aim of reliable operation in any operation mode of connected boilers and atmospheric conditions without the intervention of operating personnel. When several boilers are connected to the pipe, hot air outlets are performed

from all air heaters.

/ -) s-S Authors: (z & feb 5ry Yu.V. Salov 2 .M. Poroshin

2 // №Yu V.V. Varnashov

L.A. Mokshanov

FORMULA OF A USEFUL MODEL DEVICE FOR DISCHARGE OF SMOKE GASES

1. A device for exhausting flue gases, comprising a reinforced concrete barrel and a chimney lining separated by a ventilated air gap, an air heater of a steam boiler at the input of which a heater, a smoke exhauster with a gas duct and an air duct with a fan, characterized in that the ventilated air gap of the chimney is connected to a box of hot air after the steam boiler’s air heater with an exhaust air pipe, into which an ejector is connected, communicated via the ejected medium with the atmosphere, with scrap on rows ezhekyura usshnovleny regulating vanes associated with the actuator, communicating with the temperature sensors installed on the outer surface and the inner linings of the chimney.

2. The device according to claim 1, characterized in that the exhaust air pipe after the air heater and the boiler air pipe after the air heater are connected by a jumper, while the exhaust air pipe before the jumper and the jumper are equipped with gates.

Sources of information taken into account during the examination: 1. RICHTER L.A. Thermal power plants and atmosphere protection. M: Energy, 1975, S.239-244.

Authors :( Yu.V. Salov

ZulTs V.V. Varnashov

,

Claims (2)

1. A device for exhausting flue gases, comprising a reinforced concrete barrel and a chimney lining separated by a ventilated air gap, an air heater of a steam boiler, at the input of which there is a heater, a smoke exhaust with a gas duct and an air duct with a fan, characterized in that the ventilated air gap of the chimney is connected to a box of hot air after the steam boiler’s air heater with an exhaust air pipe, into which an ejector is connected, communicated through the ejected medium with the atmosphere, while Ejector strokes are equipped with control gates connected with an actuator in communication with temperature sensors installed on the outer and inner surfaces of the chimney lining. 2. The device according to claim 1, characterized in that the exhaust air duct after the air heater and the boiler air duct after the air heater are connected by a jumper, while the exhaust air duct before the jumper and the jumper are equipped with gates.