SU1262194A1 - Device for burning fuel - Google Patents

Abstract

The invention relates to combustion devices and can be used to burn pulverized coal in power plants. The invention makes it possible to increase the efficiency by supplying additional heat to the zone of the beginning of the reaction and gasification, increasing the heat of combustion of the combustible gas in the gasification zone and activating the coal particles due to shock plasma heating. When the device is operating, the auxiliary fuel is supplied tangentially through the nozzle 2 and the primary air through the nozzle 3 to the pre-combustion chamber 1. As a result of oxidizing the auxiliary fuel, gases containing CO are generated, and in the presence of water vapor, Hg. The secondary air is fed tangentially through the nozzle 4. The fuel particles burn out at the back wall of chamber 1, and the combustion products are mixed in chamber 5 with coal dust, entering through pipe 7, and heat it. In order to increase the temperature of the flow 2, additional combustible gases are fed into the chamber 5 through the openings 9, as a result of which the coal dust is heated, combustible substances (CO, H). The slag formed during the combustion of the auxiliary fuel is removed through the channel 13, and the coal dust is fed into the boiler furnace. 1 il. N3 O5 with 4:

Description

The invention relates to energy and can be used to burn pulverized coal in power plants.

The aim of the invention is to increase efficiency by supplying additional heat to the zone of the beginning of the reaction and gasification and to increase the heat of combustion of the combustible gas in the zone of gasification and activation of coal particles due to shock plasma heating.

The drawing shows a device for burning fuel.

The device for burning fuel comprises a preliminary combustion chamber 1 with a secondary fuel supply pipe 2 and tangential nozzles 3 and 4 of primary and secondary air, as well as a mixing chamber 5 with an axial inlet channel 6 in communication with the primary fuel supply pipe 7. A plasma torch 8 is installed in the nozzle 3, and holes 9 are made in the walls of the chamber 5. For supplying primary and ² 9 secondary air to the nozzles 3 and 4, channels 10 and 11 are used. In the latter, control valves 12 are installed. To drain the slag, channel 13 is buried in the water bath 14. 25

When the device is operating, auxiliary fuel is tangentially fed through the nozzle 2 into the preliminary combustion chamber 1, where primary air with a flow coefficient less than unity is simultaneously supplied through the nozzle 3. thirty

Oxygen is consumed for the oxidation of auxiliary fuel, resulting in the formation of gases containing CO, and in the presence of water vapor - and N _g . The temperature and composition of these gases are determined, ³⁵ in particular, by the ratio of the flow rate of primary and secondary air necessary for the combustion of auxiliary fuel. Rotating gases and unburned fuel particles are mixed with a secondary vozdu- ₄₀ hamsters fed tangentially 4. Rotating nozzle at the rear wall of the chamber 1, the fuel particles burn out, the resulting combustion products enter the mixing chamber 5 where they are mixed with the main fuel - coal dust, supplied on the pipe 7, and warm it. The temperature of the gases at the inlet to the chamber 5, as well as the ratio of the costs of auxiliary and main fuel, are selected from the conditions for preventing the appearance of liquid slag in the chamber 5. The heating of coal dust and its partial gasification occur with decreasing temperature. In order to increase the temperature of the flow in the chamber 5, combustible gases with a high temperature are additionally supplied through the openings 9 from the pre-combustion chamber 1, which at the same time enriches the coal dust with combustible gaseous substances (СО, Н ₂ ). Slag formed during the combustion of auxiliary fuel is removed through channel 13 into the slag bath 14. Heated coal dust enriched with combustible substances is fed into the furnace · of the boiler (not shown), where it is mixed with air.

Claims (1)

The invention relates to energy and can be used for burning pulverized coal in power plants. The aim of the invention is to increase the efficiency by supplying additional heat to the zone of the beginning of the reaction and gasification and increasing the heat of combustion of the combustible gas in the gasification zone and the activation of coal particles due to shock plasma heating. The drawing shows a device for burning toning. The fuel combustion device comprises a pre-combustion chamber 1 with auxiliary fuel supply pipe 2 and tangential nozzles 3 and 4 of primary and secondary air, as well as a mixing chamber 5 with an axial inlet channel 6 communicated with the primary fuel supply pipe 7. A plasma torch 8 is installed in the nozzle 3, and holes 9 are made in the walls of the chamber 5. Channels 10 and 11, respectively, are used to supply primary and secondary air to nozzles 3 and 4. In the latter, control valves 12 are installed. To drain the scrap metal, channel 13 is sunk into the water bath 14. When the device is operated, the auxiliary fuel is tangentially supplied through pipe 2 into the pre-combustion chamber 1, which is simultaneously fed through the nozzle 3 with primary air units. Air oxygen is consumed to oxidize the auxiliary fuel, resulting in the formation of gases containing CO, and in the presence of water vapor, Hg. The temperature and composition of these gases are determined, in particular, by the ratio of the flow rate of the primary and secondary air required for the combustion of auxiliary fuel. Rotating gases and unburned fuel particles are mixed with secondary air supplied tangentially through nozzle 4. Rotated at the back wall of chamber 1, the fuel particles burn out resulting combustion products enter the displacement chamber 5, where they are mixed with the main fuel - coal dust supplied through the nozzle 7, and warm it up. The temperature of the gases entering the chamber 5, as well as the cost ratio of the auxiliary and main fuel, are chosen from the conditions for preventing the occurrence of liquid slurry in the chamber 5. The heating of coal dust and its partial gasification occur with decreasing temperature. In order to increase the temperature of the flow in chamber 5, combustible gases with a high temperature are additionally added through the openings 9 of the pre-combustion chamber 1, which simultaneously enriches the coal dust with combustible gaseous substances (CO, H). The slag formed during the combustion of auxiliary fuel is removed through channel 13 to the slag bath 14. Heated coal dust enriched with combustible substances is fed to the boiler furnace (not shown), where it is mixed with air. Claims An inventive fuel combustion device comprising a pre-combustion chamber with an auxiliary fuel supply nozzle and primary and secondary air tangential nozzles, as well as a displacement chamber with an axial inlet duct communicated with the main fuel supply nozzle, A plasmatron is additionally installed in the nozzle of the primary air, and the mixing chamber is located inside the pre-incineration chamber and in its side walls an oline row is made. adialnyh holes.