RU136131U1 - DYNAMIC BOILER BURNING DIAGRAM BY WATER-COAL FUEL - Google Patents

Abstract

1. The scheme of kindling a coal-fired boiler by means of coal-water fuel, including a furnace of a coal-fired boiler, coal-fired burners with air nozzles, characterized in that the coal-fired boiler is additionally equipped with a pre-heater for burning coal-water fuel, in the lower part of which there is an air distribution grill with a fluidized bed of inert material over which there is a combustion chamber with nozzles of secondary air and a nozzle for introducing water-carbon fuel connected to a metering pump, and under the air distribution separating grate furnace extension introduced ignition nozzle, the flue duct and the flue gas recirculation, the upper part of the combustion chamber flue furnace extension is connected to the lower part of the furnace of the pulverized coal boiler for transmitting it predtopka.2 combustion products from the combustion chamber. The scheme for kindling a coal-fired boiler according to claim 1, characterized in that the gas duct from the pre-furnace is connected to the furnace of the coal-fired boiler under the lower tier of the coal-fired burners.

Description

The utility model relates to energy and can be used in thermal power plants for oil-free kindling of a pulverized coal boiler from a cold state to operating, operation and illumination of a pulverized coal torch.

A known installation for oil-free kindling of a pulverized coal boiler and torch lighting (patent RU No. 2128408 C1, IPC H05B 7/18, H05H 1/32, C10L 11/00, 1997), which includes a muffle chamber for heat treatment of fuel located on its side surface a nozzle in which a jet plasmatron is installed, containing an internal electrode with a cylindrical plasma channel, an output nozzle electrode having a plasma channel consisting of a cylindrical section and a conical section expanding downstream of the plasma stream. The outer section of the output electrode-nozzle consists of the point of intersection of the axis of the plasma torch with the continuation of the axis of the plasma torch with the continuation of the outer surface of the fuel heat treatment chamber in contact with the pipe at a distance L = (0.8-1) d ₂ , where d ₂ is the diameter of the channel of the electrode-nozzle at the outer end, while the angle α between the axis of the plasma torch and the axis of the fuel heat treatment chamber is 30-150 °. The fuel heat treatment chamber is located at the entrance to the boiler furnace

The disadvantage of this installation for oil-free kindling of a pulverized coal boiler and torch lighting is that a high voltage of industrial frequency equal to 10 kV is applied to the electrodes of the plasma torch. Operating current - tens of amperes. The use of such voltage in the area of attendance of personnel requires special safety measures. In addition, this setup scheme requires large energy costs and does not allow creating conditions for reducing the emission of nitrogen oxides.

The closest in technical essence and the achieved effect is a method of kindling pulverized-coal aggregates and a device for its implementation (patent No. 1629690 A1, IPC F23D 1/00, 1988). On the walls of the boiler furnace there are multi-tier blocks of pulverized coal burners. In the same blocks, a fuel oil nozzle is installed next to each pulverized coal burner. The kindling of the pulverized coal unit is carried out by successively turning on all fuel oil nozzles and, after reaching the set parameters, pulverized coal burners.

The disadvantage of this device for kindling coal-dust aggregates is the need to use a large amount of highly reactive fuel (gas or fuel oil).

The objective of the utility model is to create a scheme for kindling a pulverized coal boiler using water-coal fuel, which would allow minimizing gas or fuel oil consumption for this purpose and igniting the coal-dust mixture with combustion products of coal-water fuel with a decrease in toxic nitrogen compounds.

The stated technical problem is solved in that the scheme for kindling a pulverized coal boiler using water-carbon fuel includes a pulverized coal boiler furnace, pulverized coal burners and air nozzles. According to the utility model, the new equipment is an additional equipment for a coal-fired boiler, a pre-heating boiler for burning coal-water fuel, in the lower part of the casing of which there is an air distribution grill with a fluidized bed of inert material, above which there is a combustion chamber with secondary air nozzles and a water-carbon fuel injection nozzle connected to the pump with a dispenser, and a kindling nozzle, an air duct and a flue gas recirculation duct are introduced under the pre-combustion grill, the upper one Part furnace extension of the combustion chamber flue is connected to the lower part of the furnace of the pulverized coal boiler for the transmission to it of the combustion products from the combustion chamber of the furnace extension.

The flue from the pre-combustion chamber is connected to the furnace of the pulverized coal boiler under the lower tier of the pulverized coal burners.

The utility model is illustrated in the figure, which shows a diagram of the kindling of a pulverized-coal boiler by means of water-coal fuel (VUT).

The scheme consists of a pulverized coal boiler 1, containing a furnace 2, pulverized coal burners 3 with air nozzles 4. The pulverized coal boiler 1 is equipped with a pre-heating furnace 5 for the combustion of fuel oil. He represents a known device for the combustion of high-tech fuel (for example, patent RU No. 2415338 C2, IPC F23C 10/02, 2008). An air distribution grill 6 with a fluidized bed 7 of inert material (sand) is installed in the lower part of the pre-heating section 5 for the fuel-and-chemical fuel, above which there is a combustion chamber 8 with secondary air nozzles 9 and a nozzle 10 for introducing water-carbon material connected to the metering pump 11. Under the air distribution grill 6 the pre-furnace 5 introduced a kindling nozzle 12, an air duct 13 and a flue gas recirculation duct 14. The upper part of the combustion chamber 8 of the preheater 5 is connected by a gas duct 15 to the lower part of the furnace 2 of the coal-fired boiler 1 for transferring combustion products from the combustion chamber 8 of the pre-furnace 5 to it, and the gas duct 15 from the furnace 5 is connected to the lower part of the furnace 2 of the coal-fired boiler 1 under the lower tier of the coal-dust boiler burners 3.

The scheme for kindling a coal-fired boiler by means of a fuel-injection pump works as follows.

When starting the pre-furnace 5 for burning fuel-and-chemical fuel, under the air distribution grid 6, primary air is supplied through the air duct 13, which aerates on it a layer 7 of inert material (sand) and ignites the highly reactive fuel (gas or fuel oil) supplied through the kindling nozzle 12. Due to the heat generated during combustion of highly reactive kindling fuel, the fluidized bed 7 of inert material is heated and when it reaches a temperature of 750 ° C, VUT is fed to this layer through the nozzle 10 by the metering pump 11. First, the HLW is supplied in small quantities, and then, as the temperature of the layer increases, the amount of HLW is increased with a simultaneous decrease in the supply of highly reactive heating fuel. When the fluidized bed 7 reaches a temperature of 930-950 ° C, the supply of highly reactive kindling fuel is completely stopped.

VUT serves on a fluidized bed 7 of a heated inert material, which is formed on the air distribution grid 6. Under it through the air duct 13 and the duct 14, respectively, air and hot flue gases recirculation. Due to them on the air distribution grid 6 there is a "liquefaction" of the fluidized bed 7 and fed to him VUT, that is, their intensive mixing with primary air and hot flue gas recirculation. Under the action of the high temperature of the fluidized bed 7, moisture evaporates from the HLF, volatiles are released, and solid combustibles are oxidized and burned. The temperature of the fluidized bed 7 is regulated by the ratio of the supply of primary air and hot flue gas recirculation.

Unburned in the fluidized bed 7, solid fuel particles burn out in the volume of the combustion chamber 8, where heated secondary air is supplied through nozzles 9. From the combustion chamber 8, the preheater 5 the hot gases through the gas duct 15 enter the lower part of the furnace 2 of the coal-fired boiler 1 under the lower tier of the coal-burners 3. After heating the hot gases of the furnace 2 of the coal-fired boiler 1 to a temperature of 900 ° C, it is fed through the coal-gas burners for 3 s air nozzles 4 dust-air mixture and secondary air.

The supply of hot gases from the combustion chamber 8 of the pre-furnace 5 for the combustion of fuel-grade fuel oil under the lower tier of the pulverized coal burners 3 of the pulverized-coal boiler 1 makes it possible to efficiently heat the dust-air mixture and additionally mix it with air and combustion products of the VUT. This determines the effective combustion of the dusty air mixture in the furnace 2 of the coal-fired boiler 1, and provides:

- the possibility of carrying out a fuel-free kindling of the furnace 2 of the coal-dust boiler 1 by burning HLF in the fluidized bed 7 of the pre-furnace 5;

- expanding the range of stable operation of the furnace 2 of the coal-fired boiler 1 due to the constant illumination of the main coal-dust torch with hot gases, pre-furnace 5 for burning the fuel-and-chemical fuel;

- improving the environmental performance of the pulverized coal boiler 1 by reducing the formation of toxic nitrogen wastes during the combustion of high-temperature fuel in the low-temperature combustion chamber 8 pre-furnace 5 for burning high-temperature fuel.

In the event of a short-term extinction of a torch in the furnace 2 of a coal-fired boiler 1 for any reason, for example, a short-term interruption in the supply of a dusty air mixture, its subsequent ignition will occur due to the heat from the combustion of the HLW in the combustion chamber 8 of the pre-furnace 5 for burning the HLW.

This scheme allows to increase the reliability of the pulverized coal boiler and use coal-fired fuel for its kindling. This reduces environmental pollution by nitrogen oxides and can significantly reduce the amount of highly reactive fuel (gas or fuel oil) for kindling. The scheme for kindling a pulverized coal boiler using water-coal fuel is simple to operate and can be used at existing and under construction TPPs.

Claims (2)

1. The scheme of kindling a coal-fired boiler by means of coal-water fuel, including a furnace of a coal-fired boiler, coal-fired burners with air nozzles, characterized in that the coal-fired boiler is additionally equipped with a pre-heater for burning coal-water fuel, in the lower part of which there is an air distribution grill with a fluidized bed of inert material over which there is a combustion chamber with nozzles of secondary air and a nozzle for introducing water-carbon fuel connected to a metering pump, and under the air distribution separating grate furnace extension introduced ignition nozzle, the flue duct and the flue gas recirculation, the upper part of the combustion chamber flue furnace extension is connected to the lower part of the furnace of the pulverized coal boiler for the transmission to it of the combustion products from the combustion chamber of the furnace extension. 2. The scheme for kindling a coal-fired boiler according to claim 1, characterized in that the gas duct from the pre-furnace is connected to the furnace of the coal-fired boiler under the lower tier of the coal-fired burners.

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