UA54616C2 - Unit for gas burniing - Google Patents

Abstract

Unit for gas burning is used in industry, in municipal economy and in other areas of economy where gas is used as energy carrier. Unit for distribution of the gas-air mix is made as at least one flame stabilizer, at that the ratio of distance between stabilizer and the wall of the housing of the unit is 0.5 … 10. Tail part of the flame stabilizer is made as a flat wall installed in parallel to the axes of gas-distribution openings. Ratio of the distance between the gas-distribution openings to the diameter of those is 2…5. This unit for burning gas provides maximal possible completeness of gas burning, burning durability and ecological purity of the process of burning.

Description

Description of the invention

The invention relates to devices for burning gaseous fuel when mixing it 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 flame stabilizer intended for burning gas is known (see Author's certificate 5) 1592655 AI dated 12.05.1988), which contains a body in the form of a hollow streamlined profile, which has in the front part rows of gas distribution holes, the axes of which are perpendicular to the longitudinal axis of the stabilizer , the rear part in the form of a 70 shank and a fuel collector. The stabilizer is equipped with a hollow insert of a streamlined shape, installed with the formation of a cavity in the shank of the stabilizer and with nozzle holes facing towards the latter. The collector is installed in the cavity of the liner, and recesses are made on the middle part of the stabilizer housing.

The disadvantage of this stabilizer is the instability of combustion at high gas consumption, as well as its overheating. 12 A gas burner device, taken as a prototype, is known (see Gas burner devices. - Yu.V. Ivanov; ed. "Nedra", Moscow, 1972, p. 334), which contains a housing in which the gas distribution device is placed.

The disadvantage of this gas burner device is insufficient completeness of gas combustion due to the uneven distribution of gas in the air flow.

The basis of the invention is the task of increasing the completeness of gas combustion in the gas burning device, as well as improving the technical and economic, environmental indicators and increasing the reliability of the fuel combustion equipment due to the improvement of the design of the gas burning device.

The task is solved by the fact that in the device for burning gas, which contains a housing with a gas distribution device located in it, according to the invention, the gas distribution device is made in the form of at least one flame stabilizer, and the ratio of the distance between the flame stabilizer and with the wall of the body of the gas burning device up to the thickness of the stabilizer is 0.5...10. Gee)

The flame stabilizer contains a body in the form of a hollow streamlined profile, which has gas distribution holes and a shank, and the end part of the shank behind the gas distribution holes is equipped with a flat wall located perpendicular to the longitudinal axis of the flame stabilizer.

The stabilizer shaft is equipped with a vortex generator. at

The vortex generator is made in the form of a recess. "--

The ratio of the length of the recess to its depth is no more than 5.

The ratio of the distance between gas distribution holes to their diameter is 2...5. what

The execution of the shank of the stabilizer in the form of an elongated streamlined body leads to contact with the torch. "AND

This causes overheating of the stabilizer shank and the flame stabilizer as a whole, which leads to premature failure of the gas burning device. To avoid this, it is necessary to change the design of the shank. For this purpose, the end part of the shank of the stabilizer is equipped with a flat wall located perpendicular to the longitudinal axis of the flame stabilizer. This design of the shank allows you to avoid large contact of the torch with the stabilizer and avoid overheating of the stabilizer. In addition, the execution of the shank in the form of a flat wall, located perpendicular to the longitudinal axis of the flame stabilizer, allows you to significantly increase the durability of combustion due to the formation of an additional zone of recirculation of high-temperature combustion products, which is formed behind the above-mentioned flat wall. This is essential when applying several similar ones

From" stabilizers in gas burner devices. When the flame stabilizer is operating at high gas flows, equipping the stabilizer with a vortex generator in the form of a recess made in the flame stabilizer body is ineffective due to the formation of a single recirculation zone according to the system of jets and the stabilizer shank, 49 but leads to overheating of the flame stabilizer due to greater contact of the surface of the stabilizer body and the flame with high-temperature combustion products. Therefore, with high gas consumption, the stabilizer "IZ" is not equipped with a vortex generator, but only one recirculation zone is left available - behind the flame stabilizer shank. The duration of burning is regulated depending on the amount of gas consumption

By changing the ratio of the length of the recess I to the height of the recess H, which is no more than 5. - 70 The ratio of the distance between the gas distribution holes to the relative step - the relative step - is 2...5. This is the value of the relative step, which allows you to realize the optimal mode of natural gas combustion in the flow of incoming air. The use of a relative step outside this range has a negative effect on the process of burning natural gas due to a change in the average composition of the gas mixture in the recirculation zone and deterioration of the aerodynamics of the gas mixture. 25 Insufficiently high completeness of gas combustion occurs due to insufficiently effective distribution of gas in the flow

HF) of the incoming air in the combustion device. It is proposed to change the design of the gas distribution device and make it in the form of one or more connected flame stabilizers. This design of the gas distribution device allows for the implementation of a highly efficient way of burning gas in the incoming air stream. Through the gas distribution holes in the stabilizers located with a relative pitch of 2...5, gas 60 is supplied to the incoming air flow. The use of such a design of the gas burning device allows for effective mixture formation, the possibility of effective cooling of the gas burning device, and ensures the maximum possible completeness of gas combustion. Effective mixture formation is achieved due to the crushing of gas jets in the system of gas distribution holes and the crushing of the air flow by the system of flame stabilizers, which allows creating the optimal ratio of gas and air for each jet of gas. The ratio of the distance between the flame stabilizer and the wall of the device for burning gas to the thickness of the stabilizer is chosen within 0.5...10. If this ratio is smaller than it, it will lead to over-enrichment of the gas mixture with gas due to a lack of air that cannot pass between the stabilizers in sufficient quantity. If the ratio of the distance between two adjacent stabilizers to the thickness of the stabilizer exceeds 10, then this will lead to a loss of effectiveness of the interaction of the stabilizer system.

The invention is explained with drawings.

Fig. 1 shows a device for burning gas with a flame stabilizer with a vortex generator.

Fig. 2 shows a device for burning gas with a flame stabilizer without a vortex generator. 70 The device for burning gas consists of a housing 1 and a gas distribution device 2, which contains flame stabilizers connected to each other, which are located at a distance from each other or from the wall of the housing 1.

The flame stabilizer Z has a body 4 with a thickness of B. The flame stabilizer Z is equipped with a vortex generator made in the form of a recess 5 with length I and height H, installed in the end part of the shank 6 behind the gas distribution holes 7. The end part of the shank b is equipped with a flat wall 8 , located 7/5 perpendicular to the longitudinal axis 9 of the flame stabilizer.

The gas burner device works as follows.

The gas entering the gas distribution device 2 is supplied to the housing 4 of the flame stabilizer and through the gas distribution holes 7 is directed into the incoming air flow, which is fed to the housing 1 of the gas burning device. The resulting gas-air mixture is engaged and stabilized due to interaction with high-temperature combustion products coming from the recirculation zone formed in the recess 5 and/or behind the flat wall 8 of the shank 6.

Thus, the device for burning gas with the use of flame stabilizers of the proposed design ensures the maximum possible completeness of gas combustion, durability of burning. with

Claims (6)

29 Formula of the invention of 1. A device for burning gas containing a housing with a gas-air mixture distribution unit located in it, which is characterized by the fact that the gas-air mixture distribution unit is made in the form of at least one flame stabilizer, and the distance ratio between the flame stabilizer and the wall of the body of the gas burning device to the thickness of the stabilizer is 0.5...10. "- 2. The device according to claim 1, which is characterized by the fact that the flame stabilizer contains a body in the form of a hollow with a streamlined profile and has gas distribution holes and a shank, and the end part of the shank behind the gas distribution holes is equipped with a flat wall located perpendicular to the longitudinal axis "35" of the flame stabilizer 'I. yu 3. The device according to claim 2, which differs in that the shank of the stabilizer is equipped with a vortex generator. 4. The device according to claim 3, which differs in that the vortex generator is made in the form of a recess. 5. The device according to claim 4, which differs in that the ratio of the length of the recess to its depth is no more than 5. 6. The device according to claim 2, which differs in that the ratio of the distance between the gas distribution holes to and from their diameter is 2...5. . and? 1 sh» (o) - 70 4) ime) 60 b5