RU2708011C1 - Fuel combustion device - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: invention relates to the field of power engineering. Device for fuel combustion comprises vortex counter-flow fire tube, swirler, combustion products outlet channel, fuel supply devices and igniting device. Device for fuel combustion comprises three types of fuel feed devices. First type of fuel feed devices is made in form of jet atomizers located in swirler, outlet holes of flow channels of which are perpendicular to end wall of swirler, note here that channel outlets extend in minimum cross-section of flow channels of tangential nozzle swirler. Second type of devices contains at least one centrifugal atomizer. Third type of devices is made in the form of a branch pipe installed in an axial hole on the end wall of the flame tube. Second and the third types of fuel supply devices are located in the end of the fire tube opposite from the swirler.

EFFECT: invention provides improved start-up reliability and stable operation on liquid, gaseous and incombustible both incombustible components and water with fuel, as well as fuel including crushed solid combustible components and their mixtures with water.

1 cl, 4 dwg

Description

The invention relates to fuel combustion and can be used in gas turbine plants, in furnace and heat power plants, in plants for the processing, destruction and disposal of domestic and industrial waste, flue gas treatment, associated gas utilization in oil refining and gas processing, and provides improved reliability of the launch and sustainable operation on liquid, gaseous, and ballasted fuel, both non-combustible components and water, as well as fuels, including crushed solid combustible components ents and their mixtures with water.

Known vortex chambers for burning fuel (see patent RU No. 2212003 and patent RU No. 2212004 C1, September 10, 2003) containing a main vortex combustion chamber, a swirl, an exit channel of combustion products, an ignition device and a primary combustion chamber installed in front of the main combustion chamber coaxially with the latter and containing a flame tube, fuel and air supply devices. These combustion chambers do not provide reliable start-up and stable operation on high-viscosity liquid fuels, gaseous and ballasted fuel, both non-combustible components and water, simultaneous combustion of various fuel mixtures, including crushed solid combustible components and their mixtures with water, as well as the combustion process at a gaseous fuel pressure below atmospheric, and providing combustion with a reduction in emissions of NO _x , CO, C _X H _Y.

Closest to the claimed invention is a device for burning fuel (see patent RU 2196940 A1, January 20, 2003), made in the form of a vortex combustion chamber containing a flame tube located in one section perpendicular to the central axis of the combustion chamber, swirl, product exit channel combustion, ignition device, fuel nozzles located in the tangential channels of the swirl so that the central axis of the output channels of the nozzles are parallel with the air velocity vector in the tangential channels of the swirl rer.

This device also does not provide reliable start-up and stable operation on high-viscosity liquid fuels, on gaseous and ballasted fuel, both non-combustible components and water, the simultaneous burning of various fuel mixtures, including crushed solid combustible components and their mixtures with water, as well as the combustion process at a gaseous fuel pressure below atmospheric, and providing combustion with a reduction in emissions of NO _x , CO, C _X H _Y.

The technical result achieved by the present invention is to increase the reliability of the launch and stable operation on viscous, gaseous and ballast liquid non-combustible components, as well as water, fuel, as well as fuel, including crushed solid combustible components and their mixtures with water, ensuring the combustion process at a gaseous fuel pressure below atmospheric, ensuring combustion with a reduction in emissions of NO _x CO, C _X H _Y , which greatly expands its scope.

The technical result is achieved by the fact that three types of fuel supply devices are installed in a device for burning fuel containing a vortex countercurrent heat pipe, a swirl, an exit channel of combustion products, an ignition device.

The first type of devices is made in the form of jet nozzles located in the swirl, the outlet openings of the channels of which are perpendicular to the end wall of the swirl. At the same time, the outlet openings of the channels exit into the flowing part of the channels of the tangential nozzle swirling apparatus, in its minimum section of the channel flowing part. This design allows you to burn heavy liquid fuel to obtain a wide range of heat output and temperature of the combustion products at the exit.

The second type of device contains at least one centrifugal nozzle. This design allows you to burn lighter liquid fuels, such as diesel fuel.

The third type of device is made in the form of a pipe mounted in an axial hole on the end wall of the flame tube. This design of the fuel supply device allows you to burn both clean gaseous fuel and fuel ballasted with non-combustible components.

The second and third types of fuel supply devices are located at the end of the flame tube opposite the swirl. This placement allows you to create a high-quality air-fuel mixture of fuels of various densities and phase states, both liquid and gaseous.

Thus, the new distinctive features introduced into the device for burning fuel, together with the known features, make it possible to solve the problem, namely: to increase the reliability of starting and stable operation on high-viscosity liquid fuels, on gaseous and ballasted both non-combustible components, and water fuel, as well as fuel, including crushed solid combustible components and their mixtures with water, to ensure the combustion process at a gaseous fuel pressure below atmospheric, to ensure combustion e with reduced emissions of NO _x , CO, C _X H _Y and expand the scope of the device.

The invention is illustrated by drawings, where in FIG. 1 shows a device for burning fuel, a longitudinal section; in FIG. 2 - also, a section along AA; in FIG. 3 - also, a section along BB; in FIG. 4 - also, view B (enlarged).

A device for burning fuel (Fig. 1, Fig. 2 and Fig. 4) comprises a housing 1, with a whirlwind countercurrent flame tube 2 located therein; swirler 3; exhaust gas outlet channel 4; fuel supply devices of the second type - fuel nozzles 5; flammable device 6; cooling jacket 7; air supply pipe 8; fuel supply device of the third type - pipe 9.

The flame tube 2 (Fig. 1) is connected to a tangential nozzle swirling device 10 located in the swirler 3, on the one hand, and with a pipe 9 on the other hand. At the opposite end of the tangential nozzle swirling apparatus 10, the flame tube 2 is closed by a wall 20 containing holes 21 and an axial hole 22 connected to the pipe 9.

The swirler 3 (Fig. 1, Fig. 2, Fig. 4) contains a tangential nozzle swirling device 10, with profiled blades 11 (Fig. 2 and Fig. 4), the first type of fuel supply device — jet nozzles 12, fuel supply channels 13 , fitting 14. The first type of fuel supply device — nozzles 12 are made in the form of cylindrical channels 15. Outlets 16 of nozzles 12 are located between the blades 11 in the end wall 17 of the tangential nozzle twisting apparatus 10. The central axes of the holes 16 are directed perpendicular to the end wall 17, the channels 15 and channels 13 are connected to the annular cavity 18, and the nozzle 14 and channels 13 are connected to the cavity 19. The minimum passage area of the tangential nozzle twisting apparatus 11 is 0.01-0.10 of the area of the normal central axis of the cross section of the tangential nozzle twisting apparatus 11 in the area of its interface with the flame tube 2.

The outlet channel of the combustion products 4 contains an outer casing 23 and an inner casing 24, which are connected to the end surface of the swirl case 3. Between the casing 23 and 24, an annular cavity 25 is formed, which is connected by gasdynamic communication with the flowing part of the jacket 7 through openings 26 in the end wall of the swirler 3, and through the openings 27 in the wall of the inner case 24, it is connected to the flow part of the exhaust channel 4. The inner case 24 of the exhaust channel 4 has two normal central axes of the flame tube 2 o miles, inlet 28 and outlet 29. The diameter of the inlet opening 28 is equal to 0.5-0.8 of the inner diameter of the tangential swirl nozzle apparatus 10. The inner shell 24 has an opening angle equal to 0-14 degrees.

A device for burning fuel works as follows. Air from an external source through the pipe 8 is tangentially supplied to the cooling jacket 7 (Fig. 1). Moving along the annular channel of the shirt 7 in the form of a strongly swirling flow in the direction of the swirler 3, the air flow is heated, cooling the wall of the flame tube 2, and then fed to the flow part of the tangential nozzle swirling apparatus 10, formed by shaped blades 11 and end walls, in which it accelerates . The formed air stream enters the flame tube 2. In the peripheral region of the flame tube 2, a strongly swirling air stream is created - a peripheral vortex moving in the opposite direction from the tangential nozzle swirling apparatus 10. In the axial region of the flame tube 2, an axial vortex is generated whose axial direction of movement is opposite to the direction of movement of the peripheral vortex. Thus, a strongly swirling flow is formed in the flame tube 2 with a high radial gradient of static pressure, with two vortices - peripheral and axial. The beginning of the formation of the peripheral vortex and the exit of the axial vortex from the flame tube 2 are located in one section perpendicular to the central axis of the peripheral and axial vortices. The peripheral vortex moves along the flame tube 2 in the direction of the wall 20, containing holes 21 and an axial hole 22 connected to the nozzle 9. Through the holes 21 from the annular channel of the jacket 7, part of the air enters the wall zone of the flame tube 2, forming a film cooling of the end wall 20.

The proposed device allows you to implement several modes of operation.

The first type of fuel supply device - nozzle 12 allows you to burn heavy liquid fuel to obtain a wide range of heat output and temperature of the combustion products at the exit. In this case, the fuel is fed through one or more nozzle 14 into the cavity 19, from where the fuel enters through the channels 13 into the cavity 18 of the jet nozzles 12. From the cavity 18, the fuel enters the cylindrical channels 15 made in the end wall 17 of the tangential nozzle swirling apparatus 10. From of channels 15, fuel is fed through holes 16 perpendicularly to a high-speed air stream moving in the flow part of the tangential nozzle swirling apparatus 10, forming a fuel-air mixture in the peripheral vortex of the flame tube 2, which I in ignition mode is ignited by the ignition device 6. The combustion process and its stabilization begins in the area of the end wall 20 and continues in the axial vortex, with the formation of a combustion zone, an intermediate zone and a dilution zone in it. The speed control at the exit of the tangential nozzle apparatus 4 allows you to enter into the combustion zone of the axial vortex from the peripheral vortex an additional flow rate of the air-fuel mixture. This provides a combustion mode in the combustion zone with a maximum temperature and a short residence time. The combustion products through channel 4 are removed from the device to an external consumer.

The second type of fuel supply device uses one or more centrifugal nozzles 5, which allow you to burn lighter liquid fuels, such as diesel fuel. In this case, the combustion process is carried out with an excess air coefficient of less than unity, and the afterburning process occurs in the combustion zone of the axial vortex. In this case, only air from the peripheral vortex enters the combustion zone, the intermediate zone and the dilution zone.

The third type of fuel supply device allows you to burn both clean gaseous fuel and fuel ballasted with non-combustible components. When burning ballasted fuel having an unstable composition or flow rate, combustion stabilization is carried out by supplying additional fuel through nozzles 5.

When using gaseous ballasted fuel, increasing the speed at the exit of the tangential nozzle swirling apparatus and varying the geometric dimensions of the main passage openings of the flow part in the above range allows the operation of the proposed device at a gaseous fuel pressure below atmospheric, i.e., a mode with ejection of combusted ballasted fuel.

When the axial flow moves along the flame tube 2 from the end stack 20 in the direction of the exhaust channel 4, it accelerates. The flow is accelerated due to the axial gradient of static pressure, which is directed from the tangential nozzle swirling apparatus 10 towards the end wall 20 in the axial zone of the flame tube 20. Anisotropic turbulence formed at the boundary between the peripheral and axial vortices, prevailing in the radial direction of the flame tube 2, and the acoustic vibrations generated by it significantly affect the heat - mass transfer processes in the flame tube 2, contributing to the subsequent processes of mixture formation, combustion dilution and, consequently, an increase in combustion efficiency and the effective efficiency of the device.

The proposed device allows for the operation of the combustion of water-ballasted liquid or gaseous fuels. In this case, the supply of the main liquid or gaseous fuel is carried out by the jet nozzles 12, and the water is supplied by the nozzles 5. In this case, the hot combustion products coming from the peripheral vortex transform the water into a state of water vapor, which enters the combustion zone of the maximum temperature of the axial vortex, contributing to a certain range of water content in the fuel to reduce emissions of NO _x , СО, C _X H _Y.

Thus, the new distinctive features introduced into the device for burning fuel, together with the known features, make it possible to solve the problem, namely: to increase the reliability of starting and stable operation on high-viscosity liquid fuel, on gaseous and ballasted both non-combustible components, and water fuel, as well as fuel, including crushed solid combustible components and their mixtures with water, to ensure the combustion process at a pressure of gaseous fuel below atmospheric, to ensure combustion e with the reduction of emissions of NO _x , CO, C _X H _Y , expand the scope of its application.

The claimed invention can be performed by existing technical means on existing equipment.

Claims (1)

A device for burning fuel, containing a vortex countercurrent heat pipe, a swirl, a channel for the exit of combustion products, a fuel supply device and an ignition device, characterized in that it contains three types of fuel supply devices, the first type of fuel supply devices made in the form of jet nozzles located in a swirler, the outlet openings of the flow channels of which are perpendicular to the end wall of the swirler, the outlet openings of the channels extending in a minimum section of the flow channels of the tang a special nozzle swirling apparatus, the second type of device containing at least one centrifugal nozzle, and the third type of device made in the form of a nozzle mounted in an axial hole on the end wall of the flame tube, the second and third types of fuel supply devices located at the opposite end of the swirl flame tube.

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