CN219328085U - Methane burner - Google Patents

Abstract

The utility model discloses a methane burner, which comprises an air inlet, a protective shell and an air outlet, wherein the air inlet comprises a methane air inlet and a combustion-supporting air inlet which are arranged at one side of a sleeving end; the protective housing is double-deck hollow structure, including outer tube, first inner tube and second inner tube all set up the inside at the outer tube, and first inner tube is inside to be equipped with the marsh gas pipeline, and the second inner tube sets up gas outlet one side, second inner tube passes through the separation blade with the outer tube and fixedly links to each other, and the inner wall of second inner tube is connected with first inner tube through the connecting piece, through being provided with combustion-supporting air inlet, and combustion-supporting air inlet position is equipped with diverging device, just so can be according to the concentration of marsh gas thereby adjust combustion-supporting gaseous volume, ensure that marsh gas not only can completely burn under combustion-supporting gaseous effect, make the temperature of burning obtain promoting simultaneously, reduce the production of pollutant such as dioxin.

Description

Methane burner

Technical Field

The utility model relates to the field of combustors, in particular to a methane combustor.

Background

The fermented biogas is a gas generated after anaerobic fermentation by utilizing wastes such as household garbage, excrement, sludge, sewage and the like, and mainly consists of methane, carbon dioxide, water vapor and various trace impurities. The collection and utilization of fermented biogas are becoming more and more important, and as the gases come from waste fermentation, the use and consumption of the fermented biogas belong to renewable energy sources, not only can replace non-renewable fossil fuels, but also can reduce the emission of greenhouse gases.

However, in the fermentation biogas treatment and utilization system, because of the mismatch between the produced gas and the used gas, it is often necessary to provide an incinerator to burn off the surplus gas intensively. In addition, since the sewage with high pollution concentration is discharged in the waste treatment process, the sewage is changed into "leachate" in a landfill, and the leachate is treated by using gas combustion generated by waste fermentation, so that the novel treatment mode of treating waste by waste is adopted. Biogas burners have been developed on this basis. Traditional biogas utilization is generally used as household fuel gas, and a corresponding burner, namely a kitchen range, is already a common combustion device, but no mature application exists at present for a large number of burners required in a gas burning or percolate burning evaporation process. In addition, in the combustion process of the existing burner, when the combustion temperature cannot meet the requirement, pollutants such as dioxin and the like can be generated by garbage incineration; how to solve this problem is therefore a dilemma we are currently faced with.

Disclosure of Invention

Aiming at the defects in the technology, the utility model provides the biogas burner, which is provided with the combustion-supporting air inlet, and the position of the combustion-supporting air inlet is provided with the flow dividing device, so that the amount of combustion-supporting gas can be adjusted according to the concentration of biogas, the biogas can be ensured to be completely combusted under the action of the combustion-supporting gas, the combustion temperature is increased, and the generation of pollutants such as dioxin is reduced.

In order to achieve the above purpose, the utility model provides a methane burner, which comprises an air inlet, a protective shell and an air outlet, wherein the protective shell comprises a sleeving end and a burning end, a spacer is arranged between the sleeving end and the burning end, the air outlet is arranged on one side of the burning end, the air inlet comprises a methane air inlet and a combustion-supporting air inlet, and the methane air inlet and the combustion-supporting air inlet are both arranged on one side of the sleeving end; the protection shell is of a double-layer hollow structure and comprises an outer pipe, a first inner pipe and a second inner pipe, wherein the first inner pipe and the second inner pipe are both arranged inside the outer pipe, a biogas pipeline is arranged inside the first inner pipe, the second inner pipe is arranged on one side of the air outlet, the second inner pipe is fixedly connected with the outer pipe through a baffle, and the inner wall of the second inner pipe is connected with the first inner pipe through a connecting piece.

Preferably, the combustion-supporting air inlet is internally provided with a flow dividing device, the flow dividing device comprises a shell, a flow dividing mark and a control valve, the control valve and the flow dividing mark are respectively arranged at the inner side and the outer side of the shell, the shell is of a cavity structure, and an air channel is arranged in the shell; one end of the shell is provided with a first air opening, the other end of the shell is provided with a second air opening, the flow dividing mark is arranged between the first air opening and the second air opening, and the first air opening is provided with two flow dividing marks which are respectively positioned on two sides of the flow dividing mark.

Preferably, the split flow mark is in a conical structure, and the vertex angle of the split flow mark faces one side of the second air port and is abutted against the air duct; the lower end of the flow dividing mark is movably pivoted on the inner side wall of the shell, and the flow dividing mark is driven to swing left and right under the action of the control valve and is abutted with two sides of the air duct.

Preferably, the second air port is further provided with a flow sensor, and the flow sensor is communicated with the display screen.

Preferably, the biogas pipeline is arranged in the first inner pipe, one side of the biogas pipeline is provided with an airflow controller, the other side of the biogas pipeline is provided with a nozzle, and the nozzle is provided with a plurality of micropores.

Preferably, the connecting piece is of a circular ring structure and comprises an outer ring and an inner ring, wherein the inner ring is connected with the first inner pipe, the outer ring is fixedly connected with the inner wall of the second inner pipe, a connecting piece is arranged between the inner ring and the outer ring, and the connecting piece is obliquely arranged in a staggered mode to form an air hole for combustion-supporting gas to pass through.

Preferably, the methane pipeline further comprises an ignition gun, wherein the ignition gun is arranged at the inner position of the outer pipe, and one end of the ignition gun is fixed on the connecting piece and is positioned beside the outlet of the methane pipeline.

The beneficial effects of the utility model are as follows: compared with the prior art, the biogas burner provided by the utility model is provided with the two air inlets, one air inlet is connected with the biogas digester, the other air inlet is connected with the gas barrier, and the positions of the two air inlets are provided with the corresponding adjusting devices, so that the mixing proportion of flame retardant gas can be adjusted according to the concentration of biogas, the biogas can be completely combusted, the temperature is increased, the aim of reducing pollutant emission is finally achieved, and in addition, the biogas burner is also provided with the ignition gun, the rapid combustion of the biogas is realized by using the ignition gun, and the ignition success rate is effectively improved.

Drawings

FIG. 1 is a main view of the present utility model;

FIG. 2 is a cross-sectional view of the present utility model;

FIG. 3 is an enlarged view of a portion of the structure of the present utility model;

FIG. 4 is a side view of the shunt device of the present utility model;

fig. 5 is a rear view of the shunt structure of the present utility model.

The main reference numerals are as follows:

11. air outlet 12, protective housing 13, air inlet 14, outer tube 15, first inner tube 16, second inner tube

2. Air flow controller 3, spacer 4, ignition gun 5, biogas pipe 51, nozzle 6, connector 61, outer ring

62. Connection piece 63, inner ring 71, second tuyere 72, housing 73, first tuyere 74, flow dividing mark

75. Control valve 76, display screen.

Detailed Description

In order to more clearly describe the present utility model, the present utility model will be further described below with reference to the accompanying drawings, and the technical solutions in the embodiments of the present application will be clearly and entirely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to fall within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or the inclusion of a number of indicated features. Thus, a feature defining "a first" or "a second" may include, either explicitly or implicitly, one or more of the described features. In the description of the present utility model, the meaning of "a plurality" is two or more unless explicitly defined otherwise.

Referring to fig. 1 to 5, the present utility model provides a biogas burner, which comprises an air inlet 13, a protective housing 12 and an air outlet 11, wherein the protective housing 12 comprises a sleeving end and a burning end, a spacer 3 is arranged between the sleeving end and the burning end, the air outlet 11 is arranged at one side of the burning end, the air inlet 13 comprises a biogas air inlet 132 and a combustion-supporting air inlet 131, and both the air inlets are arranged at one side of the sleeving end; the protective shell 12 is of a double-layer hollow structure and comprises an outer tube 14, a first inner tube 15 and a second inner tube 16, wherein the first inner tube 15 and the second inner tube 16 are arranged in the outer tube 14, a biogas pipeline 5 is arranged in the first inner tube 15, the second inner tube 16 is arranged on one side of the air outlet 11, the second inner tube 16 is fixedly connected with the outer tube 14 through a baffle, and the inner wall of the second inner tube is connected with the first inner tube 15 through a connecting piece 6. In this embodiment, since the decomposition temperature of the pollutants, such as dioxin, is 500 degrees celsius, and the decomposition rate thereof is increased as the temperature increases, and the combustion temperature of the biogas is changed according to the proportion of the combustible gas, in order to make the removal of the pollutants possible to the greatest extent in the garbage combustion process, a certain amount of combustion-supporting substances can be introduced into the biogas, thereby increasing the combustion temperature, not only enabling the biogas to be fully combusted, but also effectively removing the pollutants.

The combustion-supporting air inlet 131 is internally provided with a flow dividing device 7, the flow dividing device 7 comprises a shell 72, a flow dividing mark 74 and a control valve 75, the control valve 75 and the flow dividing mark 74 are respectively arranged on the inner side and the outer side of the shell 72, the shell 74 is of a cavity structure, and an air channel is arranged in the shell; one end of the shell 72 is provided with a first air opening 73, the other end of the shell is provided with a second air opening 71, the flow dividing mark 74 is arranged between the first air opening 73 and the second air opening 71, and the number of the first air openings 73 is two and is respectively positioned at two sides of the flow dividing mark 74; the flow dividing mark 74 is in a conical structure, and the vertex angle of the flow dividing mark 74 faces one side of the second air port 71 and is abutted with the air duct; the lower end of the flow dividing mark 74 is movably pivoted on the inner side wall of the shell 72, and the flow dividing mark is driven to swing left and right under the action of the control valve 75 and is abutted with two sides of the air duct; the second tuyere 73 is also provided with a flow sensor, which is in communication with a display screen 76. In this embodiment, be provided with diverging device, thereby just so can adjust according to the user demand, and be equipped with two first tuyeres simultaneously, thereby just so can be according to the demand thereby simultaneously let in two kinds of combustion-supporting agents through first tuyeres, for example can let in hydrogen and oxygen simultaneously, and can adjust the ratio of hydrogen and oxygen according to the proportion that combustible gas accounts for in the marsh gas, thereby make when the gas outlet burns, not only make marsh gas fully burn, the temperature of burning has still effectively been improved simultaneously, the emission of pollutant is reduced, in specific use, two kinds of combustion-supporting thing can carry out different proportion's adjustment under the effect of diverging mark, thereby satisfy different user demands.

The biogas pipeline 5 is arranged in the first inner pipe 15, one side of the biogas pipeline 5 is provided with the airflow controller 2, the other side is provided with the nozzle 51, and a plurality of micropores are formed in the nozzle 51. In the embodiment, the air flow controller is arranged in the biogas pipeline, so that the flow rate of biogas can be controlled, and combustion is realized after the biogas is mixed with flame-retardant gas.

The connecting piece 6 is of a circular ring structure and comprises an outer ring 61 and an inner ring 63, the inner ring 63 is connected with the first inner pipe 15, the outer ring 61 is fixedly connected with the inner wall of the second inner pipe 16, a connecting piece 62 is arranged between the inner ring 63 and the outer ring 61, and the connecting piece 62 is obliquely arranged in a dislocation manner to form an air hole for passing combustion-supporting gas; the methane pipeline methane generating device further comprises an ignition gun 4, wherein the ignition gun 4 is arranged at the inner position of the outer pipe, and one end of the ignition gun is fixed on the connecting piece 6 and is positioned beside the outlet of the methane pipeline 5. In the embodiment, the connecting piece is arranged to play a role in blocking, and in the combustion process, the outward injection force is formed under the action of the micropores and the air holes of the nozzle, so that the dangerous condition of tempering during combustion is avoided, the existence of the ignition gun ignites methane in the initial stage, and the ignition success rate is improved.

The above disclosure is only a few specific embodiments of the present utility model, but the present utility model is not limited thereto, and any changes that can be thought by those skilled in the art should fall within the protection scope of the present utility model.

Claims (7)

1. The methane burner is characterized by comprising an air inlet, a protective shell and an air outlet, wherein the protective shell comprises a sleeving end and a combustion end, a spacer is arranged between the sleeving end and the combustion end, the air outlet is arranged on one side of the combustion end, and the air inlet comprises a methane air inlet and a combustion-supporting air inlet which are both arranged on one side of the sleeving end; the protection shell is of a double-layer hollow structure and comprises an outer pipe, a first inner pipe and a second inner pipe, wherein the first inner pipe and the second inner pipe are both arranged inside the outer pipe, a biogas pipeline is arranged inside the first inner pipe, the second inner pipe is arranged on one side of the air outlet, the second inner pipe is fixedly connected with the outer pipe through a baffle, and the inner wall of the second inner pipe is connected with the first inner pipe through a connecting piece.

2. The biogas burner according to claim 1, wherein the combustion-supporting air inlet is internally provided with a flow dividing device, the flow dividing device comprises a shell, a flow dividing mark and a control valve, the control valve and the flow dividing mark are respectively arranged at the inner side and the outer side of the shell, the shell is of a cavity structure, and an air duct is arranged in the shell; one end of the shell is provided with a first air opening, the other end of the shell is provided with a second air opening, the flow dividing mark is arranged between the first air opening and the second air opening, and the first air opening is provided with two flow dividing marks which are respectively positioned on two sides of the flow dividing mark.

3. The biogas burner according to claim 2, wherein the split-flow mark has a conical structure, and the vertex angle of the split-flow mark faces one side of the second tuyere and is abutted against the air duct; the lower end of the flow dividing mark is movably pivoted on the inner side wall of the shell, and the flow dividing mark is driven to swing left and right under the action of the control valve and is abutted with two sides of the air duct.

4. The biogas burner according to claim 2, wherein the second tuyere position is further provided with a flow sensor, which is in communication with a display screen.

5. The biogas burner according to claim 1, wherein the biogas conduit is arranged in the first inner tube, wherein an air flow controller is arranged on one side of the biogas conduit, a nozzle is arranged on the other side of the biogas conduit, and a plurality of micropores are formed in the nozzle.

6. The biogas burner according to claim 1, wherein the connecting piece is of a circular ring structure, and comprises an outer ring and an inner ring, wherein the inner ring is connected with the first inner pipe, the outer ring is fixedly connected with the inner wall of the second inner pipe, a connecting piece is arranged between the inner ring and the outer ring, and the connecting piece is obliquely arranged in a staggered manner to form an air hole for passing combustion-supporting gas.

7. The biogas burner according to claim 1, further comprising an ignition gun, said ignition gun being arranged in the inner position of said outer tube, one end of the ignition gun being fixed to the connecting piece and being located beside the outlet of the biogas conduit.

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