SU1740888A1 - Furnace air feed system - Google Patents

Abstract

The invention relates to a power system and can be used for burning fuel in the furnaces of drying plants of coal preparation plants and mine boilers. The purpose of the invention is to increase operational safety and enhance the functionality of the system. The air supply system to the furnace 1 includes a blowing device 2, air supply pipes 3 and 4. Intake pipe 5 of the air supply pipe 3 is made of two inlet sections 6 and 7. Section 6 is connected with atmosphere, and section 7 - with room 8 of the furnace 1. Input sections 6 17 6iu Ґ 77777 / / 7777 f f-ff .SNiT and 7 branch pipe 5 are separated by a control valve 9. Air duct 4 is connected to the shaft 11 of the shaft, equipped with a fan 12 and dates com 13 on methane. The communication zone of pipelines 3 and 4 is equipped with a gate valve 14 with an actuator 15, electrically connected via control line 16 to sensor 17 of fan reverse 12, and through control line 18 through regulating unit 19 and comparison element 20 to sensor 13 on methane. The air comes from the atmosphere or room 8 through section 6 or 7, pipeline 3 and the blowing fan 2 is fed to the furnace 1. When the fan 12 is switched from the reverse mode to the normal operation mode, the furnace 1 is automatically switched to supplying mine blowing air. Mine air contains more than 2.5% methane from sensor 13. A pulse is sent to the comparison element 20, the regulating unit 19 and the actuator 15 of the gate valve 14, which leads to the overlap of the air duct 4. Thus, an increase in e operational safety and enhanced functionality of the air supply system to the furnace. 1 il. sl vj 4 O 00 00 00 / T

Description

The invention relates to heat engineering and can be used to burn reflux in the furnaces of drying plants and coal-fired boilers.

There are known systems for supplying air to a furnace containing a blower device equipped with two parallel air intake pipes, one of which is connected to the atmosphere and the other to the boiler room, while it is equipped with a shut-off element with a drive installed on the air inlet pipe.

A disadvantage of the known systems is the limited operational capabilities.

Closest to the present invention is a system for supplying air to a furnace containing a blower fan connected to the furnace and air supply pipes with intake pipes and dampers equipped with actuators.

The disadvantages of the known system of supplying air to the furnace are low security and limited scope.

The purpose of the invention is to increase operational safety and enhance functionality.

The goal is achieved by the fact that in the air supply system into the furnace containing a blower fan connected to the furnace and air supply pipes with intake inlets and dampers equipped with actuators, the air supply pipes are connected between the outlet sections and in the zone of their communication are provided with a shut-off valve a damper with an actuator, while the intake manifold of one air supply pipe is made of two inlet sections separated by a throw-over regulating a damper is connected to it, the first of which is connected to the atmosphere, and the second to the furnace, and the intake pipe of the other air supply pipe is connected to the additional ventilation shaft of the mine, equipped with a sensor for methane and a fan, the latter being connected to the actuator of the gate valve through an additional the reverse sensor, and the sensor for methane is connected to the actuator of the gate through an additional element of comparison and the regulating unit.

The drawing schematically shows the air supply system in the furnace.

The air supply system to the furnace 1 contains a blower fan 2 and air supply pipes 3 and 4. Intake pipe 5 of the air supply pipe 3 is made of two inlet sections 6 and 7. The inlet section 6 is connected to the atmosphere, and the inlet section 7 is connected to the room 8 furnaces 1. Sections 6 and 7 of the nozzle 5 are divided by a changeover regulating valve 9.

The intake pipe 10 of the air supply pipe 4 is connected to the barrel 11.

0 mines equipped with a fan 12 and a sensor 13 for methane. The communication zone of the air supply pipelines 3 and 4 is equipped with a gate valve 14 with the actuator 15 electrically connected via the control line 16 to the sensor 17 of the fan reverse 12, and through the control line 18 through the regulating unit 19 and the comparison element 20 to sensor 13 on methane.

0 The air line 3 is equipped with a control valve 21 with an actuator 22. The furnace 1 contains a firing chamber 23, a gas distribution device 24 and a boiling bed 25.

5 The air supply system in the furnace 1 works as follows.

The furnace 1 is ignited by burning the salt in the fire chamber 23 with a fuel injector (not shown).

0 with air supply from the atmosphere and (or) the room 8 of the furnace 1 with the air line 4 shut off by the shut-off valve 14. High-temperature gases, having passed the gas 5 switchgear 24, heat the fluidized bed 25 to the temperature of the fire of coal. After that, the valve 14 closes the channel 3, opening air access from the ventilation

0 of the shaft shaft 11 through the air duct 4 to the furnace 1. Mine air oxygen supports combustion (oxidation) of the fuel, methane contained in the mine air burns in the center of the boiling layer 25, increasing heat 5 the performance of the fire chamber 1. The flow of the mine air blown is regulated by a damper 21, If it is necessary to reverse the fan 12 from the sensor 16, a pulse is applied to

0, the actuator 15 of the shutter 14, as a result, the air line 4 closes. Air flows from the atmosphere and (or) room 8 through the inlet section 6 and (or) section 7 and the air line.

5 3 and the blower fan 2 is supplied to the furnace 1. This mode of operation of the furnace 1 is maintained for the period of operation of the shaft 11 of the shaft in the reverse mode. With the transfer of the fan 12 to normal operation, the furnace is automatically transferred to the supply of mine blast air. When the methane content in the mine air exceeds 25% (explosion-proof methane concentration with a double supply of less than 25% concentration), a pulse from the sensor 13 to methane goes to the comparison element 20, the regulating unit 19 and the shutter valve actuator 15 is blocked by the air gate 4 Air into the firebox 1 is supplied through the intake manifold 5. The operating mode of the firebox 1 is not disturbed.

Thus, it provides increased operational safety and enhanced functionality of the air supply system to the furnace.

Claims (1)

Invention Formula The air supply system to the furnace, containing a fan connected to the furnace and air-supplying pipes with intake pipes and flaps equipped with actuators, is distinguished by the fact that, in order to increase operational safety and enhanced functionality. air-supporting piping is interconnected between the outlet sections and in the area their messages are equipped with a gate valve with an actuator, while the intake pipe of one air intake pipe is made of two inlet sections separated by a rocker regulating valve, the first of which is connected to the atmosphere, and the second is from the room of the firebox, and the intake pipe of the other air inlet pipe the pipeline is connected to an additional ventilation shaft of the shaft, equipped with a sensor for methane and a fan, the latter being connected to the actuator of the gate valve through Accessory reverse sensor and the sensor for methane is connected to the actuator locking valve via an additional comparison element and the control unit.