RU2289063C1 - Plant for plasma lighting and stabilization of burning of coal-dust flame - Google Patents

Abstract

FIELD: heat power engineering, applicable for lighting and stabilization of burning of coal-dust flame with the aid of an indirect-action plasma generator.

SUBSTANCE: the plant has a coal-dust fuel feed pipe-line, secondary air feed duct, central pipe. The central pipe is positioned with formation of a circular duct and is mounted in the bend of the coat-dust fuel feed pipe-line for its fixed longitudinal motion with the thermal power source in it. The plant is provided with an indirect action plasma generator. The plasma generator is installed for its longitudinal motion inside the central pipe with the aid of a rod. The rod end is brought out of the pipe end for engagement with the fixing mechanism. A converging tube with an aerofoil section in the longitudinal section is located on the side of the furnace. The converging tube is fastened on the central pipe with the aid of brackets. The passage area of the circular duct cut off by the converging tube makes up 0.4 to 0.5 of the passage area of the coal-dust fuel feed pipe-line. The plane of the converging tube minimum diameter coincides with the plane of the plasma generator anode nozzle at the instant of its maximum retraction.

EFFECT: improved mixing of the coal-dust fuel with air, reduced power consumption, reduced capital outlays.

3 cl, 2 dwg

Description

The invention relates to the field of power engineering and can be used for ignition and stabilization of the combustion of a pulverized coal torch, mainly using an indirect-action plasma torch in pulverized coal burners of boilers of thermal power plants.

A known installation for plasma ignition and stabilization of the combustion of a pulverized coal torch, consisting of a main burner, inside of which there is an indirect-action plasmatron equipped with an electric, pneumatic, water supply, automation and control system and equipped with a mounting flange made in the form of a cylindrical water-cooled box covering the cathode a plasma torch assembly, with the plasma torch located on the elbow of the pulverized coal feed pipe in front of the secondary air supply system, and m is connected to the duct tally pipe entering the inside of the pipeline, inside which the anode assembly of the plasma torch is placed and the cut of its nozzle coincides with the cut of the pipe (Patent of Ukraine No. 21103 A, CL F 23 Q 5/00, application. 21.04.95, publ. Bull. No. 1 , 1998).

However, when the installation is operated on high-calorie pulverized-coal fuel (more than 3500 kcal), there is intense sticking of combustion products on the burner walls (skull), convective-radiation heat exchange of the installation is disrupted, which generally reduces its operational capabilities.

There is also known a device for plasma ignition and stabilization of the combustion of a pulverized coal torch, including a main burner, inside which a plasmatron is coaxially mounted, fixed to the elbow of the pulverized coal supply pipe in front of the secondary air supply system, as well as an electric air supply system, automatic equipment and control, characterized in that the installation is equipped with additional plasma torch installed in the window of the side wall of the burner in the area between the secondary air supply system and the end of the burner at an angle to its odolnoy axis such that the plasma torch axis passes through the center of the burner in its area of cross section (Ukraine Patent №33029, cl. F 23 Q 5/00, appl. 10/15/98, publ. Bul. №8, 2002).

The presence of two plasmatrons complicates the control of the operation of the plant with pulverized-coal fuel of different calories when it interacts with plasma jets of different lengths and torch energies.

The closest analogue of the device in technical essence and the achieved result (prototype) is a burner containing a cylindrical central fuel channel, one end of which is connected via a pipe to a coal-grinding mill, and on the other hand, the open end is directed to the combustion chamber of a steam boiler, surrounded by an annular channel for secondary air, characterized in that the central channel has at its open end a conical diffuser facing the combustion chamber mounted along the axis of the channel, larger the base of which is directed from the wall of the combustion chamber, while the angle of the cone of the diffuser is equal to the angle of the solution of the cone of the aperture in the wall of the combustion chamber, while a pipe is installed in the pipe bend on the axis of the fuel channel with the possibility of its longitudinal movement for supplying fuel oil or gas (Russian Patent No. 2116565 , CL F 23 C 11/00, application 21.02.97, publ. Bull. No. 21, 1998).

In the proposed design of the burner, coaxially with the longitudinal axis of the fuel channel, a pipe is installed with the possibility of longitudinal movement for supplying fuel oil or for injecting gas intended for igniting the boiler. The use of natural gas significantly increases energy costs. When co-firing a pulverized coal mixture and fuel oil in a boiler, mechanical burns increase, emissions of nitrogen and sulfur oxides increase, and reliability of power equipment decreases. In addition, the use of fuel oil is associated with the difficulty in operating the fuel oil economy, especially in winter.

The basis of the invention is the task of improving the installation for plasma ignition and stabilization of the combustion of the pulverized coal torch, in which due to the simplification of the technological scheme of the process of obtaining the coolant by installing and fixed movement of the plasma torch in the pulverized coal feed pipe, as well as the intensification of mass transfer between the pulverized coal mixture and the plasma torch due to placement of the confuser provides ignition and stability of fuel combustion, environmental safety, ease of maintenance and Exception using fuel oil.

The problem is solved in that in the installation for plasma ignition and stabilization of the combustion of the pulverized coal torch containing the pulverized coal supply pipe, a secondary air supply channel, a central pipe arranged to form an annular channel and mounted in the elbow of the pulverized coal supply pipe with the possibility of its fixed longitudinal moving with a source of thermal energy in it, according to the invention, the installation is equipped with an indirect-action plasma torch mounted in a central the second pipe with the possibility of moving along the axis with the help of a rod, the end of which is led beyond the end of the pipe with the possibility of interaction with the locking mechanism, and on the side of the combustion chamber there is a confuser with an aerodynamic profile in longitudinal section mounted on the central pipe with brackets so that the passage the area of the annular channel cut off by the confuser is 0.4-0.5 of the passage area of the pulverized coal feed pipe, and the plane of the minimum diameter of the confuser coincides with the plane of the nozzle an ode of the plasma torch at the moment of its maximum extension, while the taper of the confuser is 1: 5 ... 1: 3, and the arms of the confuser are installed at an angle of 0-18 ° to the longitudinal axis of the central pipe, and their cross section is made in the form of an aerodynamic profile.

The proposed design ensures maximum efficiency of the fuel combustion process through the use of low-temperature plasma and the improvement of the supply and mixing units of pulverized coal plasma.

The need to improve the supply unit of the coal-dust mixture is explained by the need to ensure that the ignition zone of the fuel is closer to the nozzle exit of the plasma torch. In a high-temperature plasma torch, a rapid release of volatile substances occurs, which improves the combustion of pulverized coal fuel.

Experimentally obtained results, according to which the optimum passage area of the annular channel, cut off by the confuser, is 0.4-0.5 the passage area of the pulverized coal feed pipe, and the taper of the confuser is 1: 5 ... 1: 3, while the internal the annular element is the plasma torch anode, which is essentially parallel to the central axis of the pulverized coal feed pipe. The brackets of the confuser are installed at an angle of 0-18 ° to the longitudinal axis of the central pipe, and their cross section is made in the form of an aerodynamic profile. The limits of the angles of installation of the brackets are due to the laminarity of the flow near the bracket. At large angles of their installation, the flow stalls and swirls, which leads to the formation of a skull. Changing the angle of installation of the brackets within the specified limits allows you to change the characteristics of the torch in a wide range by changing the output stream - from straight to "fan".

The pulverized-coal mixture moving in the supply pipeline, in the presence of a confuser, is divided into two streams. The first stream exits through the confuser and, depending on the angle of the brackets, can pass the combustion zone both along the central part of the torch and create a rotational, that is, vortex movement around the imaginary circle of combustion. The second, peripheral, flow passes through the supply pipe, mixes with secondary air and enters the main flame zone.

The developed design of the installation guarantees effective mixing of fuel and plasma, stabilizes the temperature field and increases operational reliability, since the proposed design has such a degree of rigidity and strength that guarantees a rational service life, taking into account high thermal and mechanical loads.

The invention is illustrated in the drawing,

where in Fig.1 shows a General view of the installation in longitudinal section;

figure 2 is a section aa of figure 1.

The installation comprises a pulverized coal feed pipe 1, a secondary air supply channel 2. A central pipe 3 is mounted on the axis of the fuel channel, mounted with a flange 4 in the elbow of the pulverized coal feed pipe with the possibility of longitudinal movement. An indirect-acting plasma torch 5 is installed in the central pipe 3 from the side of the combustion chamber, which, with the help of the rod 6, has the possibility of axial movement inside the pipe together with electric, pneumatic, and water supply systems. On the final section of the pipe 3, with the help of brackets 7, a confuser 8 is fixed with an aerodynamic profile in longitudinal section. The brackets of the confuser are installed at an angle of 0-18 ° to the longitudinal axis of the central pipe, and their cross section is made in the form of an aerodynamic profile. The confuser is installed in such a way that the plane of the smallest diameter of the confuser coincides with the plane of the nozzle 9 of the plasma torch anode at the time of its maximum extension, and the taper of the confuser is 1: 5 ... 1: 3, while the passage area of the annular channel in the pipeline 1, cut off by the confuser, is 0.4-0.5 of the passage area of the pulverized coal feed pipeline. The outer end of the Central pipe 3 is equipped with a removable steering wheel 10 and a latch 11 for securing the rod 6.

The device operates as follows.

In furnace devices, combustion occurs with a constant supply of fuel and air into the combustion zone and with a practically constant concentration of reacting substances over time. The heating of the incoming fuel to the ignition temperature occurs due to two sources of heat: the heat flux of radiation from the flame core and convective heating due to mixing of the mass of the jet with hot flue gases. Pulverized coal and conveying air are introduced into the furnace at a speed high enough to keep the coal particles in suspension. The initial stage of fuel combustion occurs in conditions of high concentration of pulverized coal fuel and air and with increased turbulence of the flow created by the burner. The plasma torch 5 is inserted into the central tube 3 with the help of the rod 6, on which the confuser is fixed 8. By moving the plasma torch inside the tube 3, a predetermined gap is established between the confuser and the nozzle of the plasma torch anode. Using the clamp 11, the plasmatron is fixed in its original position. Through the flange 4, the assembled unit is placed in the pipeline 1 coaxially with its longitudinal axis.

Depending on the cross-sectional area of the pulverized coal feed pipe 1, a confuser is selected so that the passage area of the dust channel annular channel cut off by the confuser is 0.4-0.5 of the passage area of the pulverized coal supply pipe 1.

After fixing the plasma torch 5, plasma-forming gas and cooling water are supplied to it, the power is turned on, and an arc discharge is excited in the channel of the plasma torch. At the same time through the pipe 1 serves pulverized coal mixture and is blown into the furnace of the boiler. The arc current of the plasma torch is changed and the working mass-average temperature of the plasma is set equal to 2500-4000K, and the plasma is blown in satellite with the flow of pulverized coal fuel. Depending on the location of the anode nozzle, the gap between the confuser and the outer surface of the anode is set. When the plasmatron moves inside the central tube, the width of the gap will increase. The pulverized coal mixture moving in the supply pipe 1, in the presence of a confuser, is divided into two streams. The first stream passes through the confuser and, depending on the angle of installation of the brackets of the confuser, can pass the combustion zone both along the central part of the torch and create a rotational, that is, vortex, movement around the imaginary circle of combustion. The second, peripheral, flow passes through the pipeline 1 and, mixed with the secondary air, enters the zone of the main flame.

The design provides better mixing of the pulverized coal stream with air, intensifies the combustion process and increases the length of the flame, reduces energy consumption, reduces capital costs.

Claims (3)

1. Installation for plasma ignition and stabilization of the combustion of the pulverized coal flame, comprising a pulverized coal supply pipe, a secondary air supply channel, a central pipe arranged to form an annular channel and mounted in the elbow of the pulverized coal supply pipe with the possibility of its fixed longitudinal movement with a source of thermal energy in it, characterized in that the installation is equipped with a plasma torch of indirect action, installed with the possibility of its longitudinal movement inside and the central pipe with a rod, the end of which is led out to the end of the pipe with the possibility of interaction with the locking mechanism, and on the side of the combustion chamber there is a confuser with an aerodynamic profile in longitudinal section mounted on the central pipe with brackets so that the passage area of the annular channel, cut off by the confuser, is 0.4-0.5 of the passage area of the pulverized coal feed pipeline, and the plane of the minimum diameter of the confuser coincides with the plane of the nozzle of the plasma torch anode at the moment m its maximum extension. 2. Installation according to claim 1, characterized in that the taper of the confuser is 1: 5 ... 1: 3. 3. Installation according to claim 1, characterized in that the arms of the confuser are installed at an angle of 0-18 ° to the longitudinal axis of the central pipe, and their cross section is made in the form of an aerodynamic profile.

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