EA020004B1 - Burner for gas combustion - Google Patents

Abstract

The invention relates to devices for combustion of gaseous fuel mixed with air and can be used in branches requiring to use a wide range of fuel consumption regulation with high combustion efficiency and low toxicity of combustion products. A burner for fuel combustion comprises a body with a gas distribution assembly arranged therein configured as, at least, two rigidly fixed flame stabilizers, each consists of streamlined a hollow body with gas distributing holes and a tail provided with at least one eddy generator arranged in the tail end and shaped as a recess positioned perpendicular to the longitudinal axis of the flame stabilizer, wherein the gas distribution holes are arranged on the body of each gas stabilizer by at least two rows, in each row the gas distribution holes are equally spaced, the distance between them depends on the area of each gas distribution hole by the formula L=1.2√S- 6.0√S wherein L is a spacing between crossing of axes two neighboring gas distribution holes, S is the area of gas distribution hole, wherein the axes of the gas distribution holes of the upper row are offset relative to that of the lower row preferably by half spacing and wherein the flame stabilizers are positioned parallel to each other. Gas distribution holes of each row of flame stabilizer are preferably spaced at X=5√S-7√S distance from the tail end, the eddy generator recess is made as a flat wall positioned perpendicular to the stabilizer longitudinal axis, the ratio at least 5 between the recess length l to its depth h. The technical result provides improvement of techno-economic and ecologic factors, higher reliability of fuel-using equipment due to increasing of fuel combustion efficiency, ignition stability and combustion front stabilization, overheating avoidance of device elements.

Description

The invention relates to a device for burning gaseous fuel when it is mixed with air and can be used in industries where it is necessary to work in a wide range of regulation of fuel consumption with high efficiency of its combustion and low toxicity of combustion products.

A device is known for burning natural gas in a free-flowing air stream, including an air supply unit, a natural gas supply unit through gas-distributing holes of gas burner devices, an air-natural gas mixing unit, an air-gas mixture ignition device, a torch stabilization device (Eurasian patent No. 005471, IPC Ε23Ό 14 / 00, 2002).

A disadvantage of the known device is the difficulty in the uniform distribution and the optimal ratio of air and gas over the burner device.

Known gas burner containing a housing with a cylindrical combustion chamber located on it, the surface of which is perforated, gas and air inlets, the diameter of the holes of the perforation of the combustion chamber increases in the direction of movement of the combustion products, it is equipped with a chamber of preliminary mixing of gas and air located at the inlet of the combustion chamber installed coaxially to the combustion chamber between its wall and the wall of the housing with a perforated pipe, and installed at the output end of the nozzle for supplying gas ohm for supplying gas to the combustion chamber, the chamber for preliminary mixing of gas and air is formed by two perforated disks mounted on the output end of the gas supply pipe in front of the nozzle, while at the output end of the gas supply pipe around the perimeter there are holes for supplying gas to the preliminary mixing chamber, the ratio the area of the holes on the first perforated disk along the air and the area of the holes on the second perforated disk is 1: 3-1: 9, the ratio of the diameter of the holes of the perforation at the exit e of the combustion chamber and the diameter of the holes at its inlet is 1.1: 1-3: 1, and the surface of the nozzle is conical with an angle between the axis of the nozzle and the generatrix of the conical surface, which is 30-80 ° (patent VI No. 2192584, IPC Ε23Ό14 / 00, 2002).

A disadvantage of the known device is the lack of efficiency of gas combustion.

Closest to the proposed is a device for burning gas, which contains a housing with a distribution unit of the gas-air mixture, the distribution unit of the gas-air mixture is made in the form of at least one flame stabilizer, comprising a housing in the form of an empty streamlined profile with gas-distributing holes and a shank, while the stabilizer shank equipped with at least one vortex generator, and at least one three-dimensional flow intensifier located on the stabilizer body located behind the gas discharge with holes and below the flow level, the three-dimensional flow intensifier is made in the form of low-flowing bodies of various configurations (patent IL No. 35108, IPC E23P13 / 00, 2008).

The disadvantage of this device is the insufficient efficiency of gas combustion due to the irrational distribution of gas over the cross section of the front of the burner device and, accordingly, the uneven concentration of the gas-air mixture at the outlet of the burner, as well as increased hydraulic resistance through the air path.

The objective of the invention is to improve the uniformity of gas distribution over the cross section of the front of the burner device.

The problem is solved in that the inventive device for burning gas consists of a housing with a gas distribution unit located in it, made in the form of at least two rigidly installed flame stabilizers, each of which consists of a hollow body of a streamlined profile with gas-distributing holes and a shank, the last equipped with at least one vortex generator located at the end of the shank and made in the form of a recess located perpendicular to the longitudinal axis of the flame stabilizer, at m in the case of each flame stabilizer gazorazdayuschie openings arranged in at least two rows, each row gazorazdayuschie holes spaced apart at the same pitch, the size of which depends on the area of each of the holes by the formula gazorazdayuschih

B = 1.2 ^ 8-6.0 ^ 8 where b is the step size between the intersection of the axes of adjacent gas distribution holes,

- the area of the gas distribution hole, while the axis of the gas distribution holes of the upper row are offset relative to the axes of the gas distribution holes of the lower row, preferably half a step, and flame stabilizers are mounted parallel to each other.

To achieve an additional technical result related to the prevention of eddies that contribute to flame separation, the gas-distributing holes of each row of flame stabilizer are preferably placed at a distance of X = 5 ^ 8-7 ^ 8 from the end of the shank, and the recess of the vortex generator is made in the form of a flat wall located perpendicular to the longitudinal the axis of the stabilizer, which has a ratio of the length of the recess 1 to its depth 11 of at least 5.

Gas distribution holes may be in the form of rectangles, squares, circles, ovals, triangles, or other known shapes.

- 1 020004

Comparison of the proposed device with the prototype allows us to conclude that it meets the criterion of novelty, because the proposed device is characterized by new design features and their location relative to each other: the presence on the stabilizer body of at least two rows of gas distribution holes spaced from each other with the stated distance, the rows of gas distribution holes are offset from each other with the stated pitch, and flame stabilizers are installed parallel to each other to a friend.

The proposed device can be manufactured using known technologies from known materials and can be used to burn gaseous fuels.

The gas supply through gas-distributing openings, installed with a different step, leads to an irrational distribution of gas over the cross section of the front of the burner device and, consequently, uneven concentration of the gas-air mixture at the outlet of the burner, which, in turn, leads to an excess or lack of oxidizer in the stream. As a result of this, the torch of the burner device can be significantly lengthened, the values of carbon monoxide and nitrogen oxide emissions increase, and the elements of the fire-technical facility overheat.

We found that for a uniform and rational redistribution of the gas flow, the gas burning device should be made in the form of several interconnected flame stabilizers with gas distribution holes on the stabilizer body, located with the same pitch b = 1.2 ^ 8-6.0 ^ 8. If the step size exceeds 6.0 ^ 8, the distance between the jets of the air-gas mixture increases, which leads to a change in the average composition of the gas mixture in the recirculation zone and negatively affects the gas combustion process. The flame stabilizer is performed with the upper and lower rows of gas distribution holes, and the axis of the lower row of gas distribution holes are offset from the axes of the upper row of gas distribution holes by an amount equal to half of the above step. This arrangement of gas distribution holes in the rows allows to improve the aerodynamic structure of the gas-air mixture flow and the interaction of the reverse current zones behind each jet of gas-air mixture. These individual reverse current zones are combined into a single reverse current zone behind the system of jets, which helps to stabilize the flame due to the uniform front of the gas supply in the air stream. If the bottom row is not offset relative to the top row of the gas distribution holes by the declared pitch, then this leads to the merging of the jets of the air-gas mixture in the reverse current zone, which, in turn, violates the stabilization of the flame.

The upper and lower rows of gas distribution holes are preferably located from the end of the shank at a distance of 5 ^ 8-7 ^ 8, counted from the intersection of the axes of the extreme gas distribution holes of each row. The location of the gas-distributing holes at a specified distance from the end of the shank allows the air stream to evenly erode the gas stream before it enters the reverse current zone. If the distance from the gas-distributing holes to the end of the liner is different from the specified, then the gas-air mixture may be lean or re-enriched with air, which affects the combustion process. The creation of the optimal cross-sectional area for the passage of air necessary for combustion can be ensured by the fact that the distance between the flame stabilizers ΐ is 2 times greater than the distance between the flame stabilizer body and the wall of the outer case of the claimed device. In addition, the implementation of the stabilizer in the form of a recessed flat wall, perpendicular to the longitudinal axis of the flame stabilizer, can significantly increase the duration of combustion by creating an additional recirculation zone of high temperature flue gases. The regulation of the duration of combustion depending on the gas flow rate is carried out by changing the ratio of the ratio of the length of the recess 1 to its depth 11. which is preferably not less than 5, providing the necessary turbulence of the gas-air flow.

The proposed device is illustrated by the following drawings.

In FIG. 1 shows a device for burning gas with two stabilizers equipped with end vortex generators.

In FIG. 2-5, stabilizers with an end vortex generator in the form of a recessed flat wall are shown, gas-distributing holes are made in rectangular, square, round and triangular shapes, respectively.

The device for burning gas consists of an outer casing (1) and a gas distribution unit (2), which represents two rigidly installed and parallel to each other flame stabilizers (3) located at a distance of ΐ / 2 from the wall of the casing (1) and at a distance ΐ apart. The flame stabilizer (3) consists of a housing (4), which is made in the form of an empty streamlined profile having an upper row (5) and a lower row (6) of gas-distributing holes of rectangular, square, round and triangular shapes with a section length P located at a distance B from each other and at a distance X from the end of the shank (7). The axes of the gas distribution openings of the lower row (6) are offset relative to the axes of the gas distribution openings of the upper row (5) by the value b / 2. The end of the shank (7) is equipped with an end vortex generator in the form of a recessed flat wall (8) located perpendicular to the longitudinal axis of the flame stabilizer (3), with a length of 1 and a height of the recess 1.

The device for burning gas works in this way.

- 2 020004

The gas that is supplied to the gas distribution unit (2) is supplied to the flame stabilizer body (4) (3) and is directed through the upper row (5) and the lower row (6) of the gas distribution holes into the oncoming air stream, which is supplied to the body ( 1) devices for burning gas. The resulting gas-air mixture (9) is ignited and stabilized due to interaction with high-temperature combustion products that come from the recirculation zone (10) formed behind the recessed flat wall (8) of the shank (7). At the same time, the placement of gas-distributing holes with an absolute pitch L and the displacement of the upper row (5) and the lower row (6) of gas-distributing holes relative to each other by a value of L / 2 ensure that the mixture in the zone of reverse currents (10) is kept within a stable ignition range, the maximum gas combustion and persistent continuous combustion.

The use of the claimed device allows to increase the completeness and efficiency of fuel combustion, ignition stability and stabilization of the combustion front, the required length of the flame in the combustion chamber, the absence of overheating of the device elements, the minimum resistance to air and gas paths, the simplicity of manufacturing and maintenance of the device, the modularity that allows you to design the device necessary power. The proposed device can improve the technical, economic, environmental performance and increase the reliability of fuel-using equipment and can be used to burn fuel with calories from 2000 to 12000 kcal / m ³ such as natural gas, methane, coke oven gas, blast furnace gas and mixtures thereof.

Claims (7)

CLAIM 1. A device for burning gas, consisting of a housing with a gas distribution unit located in it, made in the form of at least two rigidly installed flame stabilizers, each of which consists of a hollow body of a streamlined profile with gas distribution holes and a shank, the latter is equipped with at least one vortex generator located at the end of the shank and made in the form of a recess located perpendicular to the longitudinal axis of the flame stabilizer, while on the housing of each flame stabilizer the gas distribution holes are arranged in at least two rows, in each row the gas distribution holes are spaced from each other with the same pitch, the size of which depends on the area of each of the gas distribution holes according to the formula B = 1.2 ^ 8-6.0 ^ 8 where b is the step size between the intersection of the axes of adjacent gas distribution holes, 8 is the area of the gas distribution hole, the axes of the gas distribution holes of the upper row are offset relative to the axes of the gas distribution holes of the lower row, preferably by half a step, and flame stabilizers are mounted parallel to each other. 2. The device according to claim 1, characterized in that the gas-distributing holes of each row of the flame stabilizer are preferably located at a distance of X = 5 ^ 8-7 ^ 8 from the end of the shank. 3. The device according to claim 1, characterized in that the recess of the vortex generator is made in the form of a flat wall, which has a ratio of the length of the recess to its depth of not less than 5. 4. The device according to claim 1, characterized in that the gas distribution holes are made in a rectangular shape. 5. The device according to claim 1, characterized in that the gas-distributing holes are square in shape. 6. The device according to claim 1, characterized in that the gas-distributing holes are made round. 7. The device according to claim 1, characterized in that the gas-distributing holes are made oval.