CN115789627B - High-efficient burning tail gas processing apparatus of biomass energy - Google Patents

Abstract

The invention discloses a biomass energy efficient combustion tail gas treatment device which comprises a biomass energy combustion furnace, wherein the biomass energy combustion furnace comprises a combustion furnace body, a rotary type material lifting mechanism, a dust fall spraying mechanism, a smoke heat energy recovery cover, a top cover and a combustion detection chamber, the right end of the combustion furnace body is provided with a material inlet, the left end of the combustion furnace body is provided with a waste gas treatment chamber, the rotary type material lifting mechanism is divided into two groups and symmetrically arranged in the combustion furnace body, the dust fall spraying mechanism is arranged in the waste gas treatment chamber and comprises a water inlet pipe, a spraying pipe, a drainage pipe and a blow-down pipe, and the water inlet pipe is respectively connected with a plurality of groups of spraying pipes through a plurality of groups of pipes. The bioenergy combustion furnace designed by the invention can improve the efficiency of plant combustion, fully extract heat in the flue gas, improve the utilization rate of heat energy, and can carry out high-efficiency dust fall and combustion treatment on the generated waste gas to reduce the emission of harmful gas in the waste gas.

Description

High-efficient burning tail gas processing apparatus of biomass energy

Technical Field

The invention relates to the technical field of biomass energy waste gas treatment, in particular to a biomass energy efficient combustion tail gas treatment device.

Background

Biomass energy is energy provided by living plants in nature, which store solar energy as a medium by biomass, and belongs to renewable energy sources. Biomass is calculated to store 2 times more energy than the total world energy consumption. The ways of using biomass energy more effectively currently are: (1) Biogas is prepared by mainly utilizing urban and rural organic garbage, straw, water and human and animal feces, and combustible gas methane is produced by anaerobic digestion for life and production; (2) preparing alcohol by using biomass. In the current world energy structure, biomass energy occupies very little proportion, and the existing modes of processing biomass energy mostly adopt combustion modes, for example: the energy extraction is carried out by burning straw, plant rootstock, branches and leaves and the shell, and the combustion treatment is carried out by a special combustion furnace.

However, the existing combustion furnace for biomass energy combustion has the following problems in the use process: in the combustion process, a large amount of waste gas is usually generated, and the waste gas contains suspended matters, carbon dioxide and carbon monoxide, so that components enter the air to cause great pollution to the air, and the existing waste gas treatment mode mainly transfers the tail gas into special waste gas treatment equipment for treatment through a pipeline, thereby increasing the cost of waste gas treatment; (2) Plants are usually piled up together in the combustion furnace, and the plants positioned in the interior and at the bottom are difficult to sufficiently burn in the combustion process, so that energy is not sufficiently extracted and toxic gases such as carbon monoxide are easily generated. For this purpose, a corresponding technical solution is required to be designed to solve the existing technical problems.

Disclosure of Invention

The invention aims to provide a biomass energy efficient combustion tail gas treatment device, which solves the technical problems that a large amount of waste gas is usually generated in the combustion process, suspended matters, carbon dioxide and carbon monoxide are contained in the waste gas, so that components enter the air to cause larger pollution to the air, the tail gas is mainly transferred into special waste gas treatment equipment for treatment through a pipeline in the existing waste gas treatment mode, the cost of waste gas treatment is increased, plants are usually piled up in a combustion furnace, and plants in the interior and the bottom are difficult to fully burn in the combustion process, so that the energy is not fully extracted and toxic gases such as carbon monoxide are easily generated.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a biomass energy high-efficient burning tail gas processing apparatus, includes biomass energy combustion furnace, biomass energy combustion furnace includes combustion furnace body, rotation type material lifting mechanism, dust fall spraying mechanism, flue gas heat recovery cover, top cap and combustion detection room, the right-hand member of combustion furnace body is provided with the pan feeding mouth and installs the exhaust-gas treatment room in the left end, rotation type material lifting mechanism divides and is equipped with two sets of and symmetry to install in the inside of combustion furnace body, dust fall spraying mechanism installs in the exhaust-gas treatment room and includes water inlet pipe, shower, drainage tube and blow off pipe, the water inlet pipe is connected with a plurality of groups shower respectively through a plurality of groups pipeline, a plurality of groups shower evenly distributed is in the top of exhaust-gas treatment room, the drainage tube is installed in the bottom of exhaust-gas treatment room and is connected with the blow off pipe, the top machine shaping of combustion furnace body has the mounting groove, the flue gas heat recovery cover is embedded in the mounting groove, the top cap is installed in the top of heat recovery cover, the bottom of heat recovery cover is linked to each other and one end is connected with combustion detection room and detects the inside the exhaust pipe, the exhaust pipe is connected with the exhaust valve outside the exhaust pipe, the exhaust valve is connected with the exhaust pipe, the exhaust fan is connected with the exhaust valve outside the exhaust pipe.

As a preferable mode of the invention, the rotary type material lifting mechanism comprises a driving motor, a rotating shaft, lifting plates, a reset spring and a baffle plate, wherein the driving motor is arranged on the combustion furnace body, the power output end of the driving motor is fixed on the end part of the rotating shaft through bolts, the lifting plates are divided into a plurality of groups and are uniformly distributed on the rotating shaft in a ring shape, the lifting plates are movably connected with the rotating shaft through hinges, one side of each lifting plate is connected with the reset spring, the tail end of the reset spring is fixed on the rotating shaft, and the baffle plate is arranged on the inner wall of the combustion furnace body and is matched with the lifting plates for use.

As a preferable mode of the invention, the baffle comprises a base and a plate body arranged on the base, the lower surface of the plate body is in a cambered surface structure, and the outer end of the lifting plate positioned below is contacted with the plate body.

As a preferable mode of the invention, the spray pipe comprises a drainage pipeline and a plurality of groups of spray heads arranged below the drainage pipeline, and two adjacent groups of spray heads are distributed at equal intervals.

As a preferable mode of the invention, the flue gas heat energy recovery cover comprises a base plate and an arch cover arranged on the base plate, wherein an air flow channel is arranged on the base plate and is communicated with the waste gas treatment chamber, a cavity is formed between the base plate and the arch cover, a plurality of groups of ventilation holes are uniformly arranged on the surface of the arch cover, and heat absorbing pipes are paved on the surface of the arch cover.

As a preferable mode of the invention, one end of the heat absorbing pipe is connected with the water inlet pipe and distributed on the surface of the arched cover in a serpentine shape, and the heat absorbing pipe is positioned between the air holes.

As a preferable mode of the invention, the combustion detection chamber comprises a gas pipe, a mounting ring, an ignition head, a guide inner cover and a carbon monoxide concentration sensor, wherein the gas pipe is laid on the mounting ring, the ignition head is divided into a plurality of groups and uniformly distributed on the mounting ring, the ignition heads of the groups are connected with the gas pipe through pipelines, the guide inner cover is arranged on the inner side of the mounting ring, and the carbon monoxide concentration sensor is connected with a control console through a circuit.

As a preferable mode of the invention, the guiding inner cover is in an arc surface structure, the left end of the guiding inner cover is provided with the airflow ring in a machining mode, the inside of the airflow ring is provided with a plurality of groups of airflow channels in a machining mode, and the tail ends of the groups of airflow channels are distributed in one-to-one correspondence with the groups of ignition heads.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention improves the structure of a biomass energy efficient combustion furnace, a set of waste gas treatment mechanism is arranged on the combustion furnace, the biomass energy combustion furnace comprises a combustion furnace body, a rotary type material lifting mechanism, a dust fall spraying mechanism, a smoke heat energy recovery cover, a top cover and a combustion detection chamber, plants needing to be combusted are led into the furnace body from a feed inlet of the combustion furnace body to be combusted, the plants in the combustion furnace can be lifted and turned by the rotary type material lifting mechanism in the combustion process, the combustion effect of the plants is improved, waste gas generated by combustion enters the dust fall spraying mechanism, suspended matters and dust in the waste gas are subjected to dust fall treatment in a spraying mode, sewage after dust fall is discharged, the waste gas enters the smoke heat energy recovery cover along a channel after dust removal, the heat in the smoke is absorbed and fully utilized by the smoke heat energy recovery cover, the gas absorbed by the heat energy is led into the top cover, the gas is led into the combustion detection chamber in a sucking mode, and the carbon monoxide in the combustion chamber is fully combusted in a combustion mode, and the emission of harmful gas is reduced.

2. The bioenergy combustion furnace designed by the invention can improve the efficiency of plant combustion, fully extract heat in the flue gas, improve the utilization rate of heat energy, and perform high-efficiency dust fall and combustion treatment on the generated waste gas, so as to reduce the emission of harmful gases in the waste gas.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is a diagram of a rotary type material lifting mechanism according to the present invention;

FIG. 3 is a diagram of a shower structure in accordance with the present invention;

FIG. 4 is a diagram of a flue gas heat energy recovery hood structure according to the present invention;

FIG. 5 is a schematic view of a combustion detection chamber according to the present invention;

fig. 6 is a view showing the structure of the guide inner cover according to the present invention.

In the figure, 1, a combustion furnace body; 2. a rotary material lifting mechanism; 3. a dust fall spraying mechanism; 4. a flue gas heat energy recovery cover; 5. a top cover; 6. a combustion detection chamber; 7. a feed inlet; 8. an exhaust gas treatment chamber; 9. a water inlet pipe; 10. a shower pipe; 11. a drainage tube; 12. a blow-down pipe; 13. a mounting groove; 14. an exhaust fan; 15. a valve; 16. a console; 17. a driving motor; 18. a rotating shaft; 19. a lifting plate; 20. a return spring; 21. a baffle; 22. a base; 23. a plate body; 24. a drainage tube; 25. a spray header; 26. a substrate; 27. an arch cover; 28. an air flow channel; 29. a cavity; 30. ventilation holes; 31. a heat absorbing pipe; 32. a gas pipe; 33. a mounting ring; 34. igniting the head; 35. a guide inner cover; 36. a carbon monoxide concentration sensor; 37. an airflow ring; 38. an airflow channel; 39. and a smoke exhaust pipe.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a biomass energy high-efficient burning tail gas processing apparatus, including biomass energy combustion furnace, biomass energy combustion furnace includes combustion furnace body 1, rotatory material lifting mechanism 2, dust fall spraying mechanism 3, flue gas heat recovery cover 4, top cap 5 and burning detection chamber 6, the right-hand member of combustion furnace body 1 is provided with pan feeding mouth 7 and left end installs waste gas treatment chamber 8, rotatory material lifting mechanism 2 divides and has two sets of and symmetry to install in the inside of combustion furnace body 1, dust fall spraying mechanism 3 installs in waste gas treatment chamber 8 and includes intake pipe 9, spray pipe 10, drainage tube 11 and blow off pipe 12, intake pipe 9 is connected with a plurality of groups of spray pipes 10 respectively through a plurality of groups pipeline, a plurality of groups of spray pipes 10 evenly distributed are in the top of waste gas treatment chamber 8, drainage tube 11 is installed in the bottom of waste gas treatment chamber 8 and the end is connected with blow off pipe 12, the top machine shaping of combustion furnace body 1 has mounting groove 13, flue gas heat recovery cover 4 is embedded in mounting groove 13, top cap 5 installs in the top of heat recovery cover 4, the bottom of flue gas 4 is linked together with mounting groove 13 and is connected with the exhaust pipe 39 through the exhaust valve 15, the exhaust pipe 15 is connected with the exhaust pipe 39 is installed to the exhaust apparatus 15, the exhaust pipe 15 is connected with the exhaust apparatus end 39 is connected with the exhaust pipe 15 outside the combustion apparatus is installed to the exhaust apparatus 6.

Further improved, as shown in fig. 2: the rotary type material lifting mechanism 2 comprises a driving motor 17, a rotating shaft 18, a material lifting plate 19, a reset spring 20 and a baffle plate 21, wherein the driving motor 17 is arranged on the combustion furnace body 1, the power output end is fixed on the end part of the rotating shaft 18 through bolts, the material lifting plate 19 is divided into a plurality of groups and is annularly and uniformly distributed on the rotating shaft 18, the material lifting plate 19 is movably connected with the rotating shaft 18 through hinges, one side of the material lifting plate is connected with the reset spring 20, the tail end of the reset spring 20 is fixed on the rotating shaft 18, the baffle plate 21 is arranged on the inner wall of the combustion furnace body 1 and is matched with the material lifting plate 19 for use, the driving motor 17 drives the rotating shaft 18 to rotate, the material lifting plate 19 is driven to synchronously rotate in the rotating process, when the material lifting plate 19 rotates to the baffle plate 21 position, the reset spring 20 is extruded and stored due to the blocking of the baffle plate 21, when the material lifting plate 19 is separated from the baffle plate 21 due to the angle adjustment, the material lifting plate 19 is rapidly reset through the elasticity of the reset spring 20, so that the purpose of lifting internal plant fuel is achieved, and the combustion efficiency of internal plants is improved.

Further improved, as shown in fig. 2: the baffle 21 comprises a base 22 and a plate body 23 arranged on the base 22, the lower surface of the plate body 23 is in an arc surface structure, the outer end of the lifting blade 19 positioned below is in contact with the plate body 23, and the design mode can provide resistance of the lifting blade 19 and provide storage force for the lifting blade 19.

Further improved, as shown in fig. 3: the spray pipe 10 comprises a drainage pipeline 24 and a plurality of groups of spray heads 25 arranged below the drainage pipeline 24, wherein two adjacent groups of spray heads 25 are distributed at equal intervals, and dust fall treatment can be carried out on the waste gas below through the spray heads 25.

Further improved, as shown in fig. 4: the flue gas heat energy recovery cover 4 comprises a base plate 26 and an arch cover 27 arranged on the base plate 26, an airflow channel 28 is formed in the base plate 26, the airflow channel 28 is communicated with the waste gas treatment chamber 8, a cavity 29 is formed between the base plate 26 and the arch cover 27, a plurality of groups of ventilation holes 30 are uniformly formed in the surface of the arch cover 27, a heat absorption pipe 31 is paved on the surface of the ventilation hole, and water flows in the heat absorption pipe 31.

Further improved, as shown in fig. 4: one end of the heat absorbing pipe 31 is connected with the water inlet pipe 9 and distributed on the surface of the arched cover 27 in a serpentine shape, and the heat absorbing pipe 31 is positioned between the air holes 30, so that the heat in the flue gas can be absorbed better in a distributed mode.

Further improved, as shown in fig. 5: the combustion detection chamber 6 comprises a gas pipe 32, a mounting ring 33, an ignition head 34, a guide inner cover 35 and a carbon monoxide concentration sensor 36, wherein the gas pipe 32 is paved on the mounting ring 33, the ignition head 34 is divided into a plurality of groups and uniformly distributed on the mounting ring 33, the ignition heads 34 of the groups are connected with the gas pipe 32 through pipelines, the guide inner cover 35 is arranged on the inner side of the mounting ring 33, the carbon monoxide concentration sensor 36 is connected with the control console 16 through a circuit, the upper end of the mounting ring 33 is of an arch structure, the lower end of the mounting ring is of a horizontal structure, and carbon monoxide can be fully combusted through the combustion detection chamber 6.

Specifically, the guiding inner cover 35 is of a cambered surface structure, the left end of the guiding inner cover is provided with an airflow ring 37 in a machining mode, the inner part of the airflow ring 37 is provided with a plurality of groups of airflow channels 38 in a machining mode, the tail ends of the groups of airflow channels 38 are distributed in one-to-one correspondence with the groups of ignition heads 34, waste gas in the top cover 5 is sucked to one side of the combustion detection chamber 6 through the exhaust fan 14, the waste gas enters the combustion detection chamber 6 along the airflow channels 38 in the airflow ring 37 due to the blocking of the guiding inner cover 35, and carbon monoxide in the waste gas is combusted through the ignition heads 34 due to the fact that the airflow channels 38 are close to the ignition heads 34, so that the combustion efficiency and the combustion effect of the carbon monoxide can be greatly improved.

When in use: according to the invention, plant fuel to be combusted is led into the combustion furnace body 1 through the feed inlet 7, the rotary type lifting mechanism 2 is opened in the process of combusting plants in the combustion furnace body 1, the driving motor 17 drives the rotating shaft 18 to rotate, the rotating shaft 18 drives the lifting plates 19 to synchronously rotate in the rotating process, when the lifting plates 19 rotate to the position of the baffle plate 21, the return springs 20 are extruded and contracted due to the blocking of the baffle plate 21 and accumulate force, when the lifting plates 19 are separated from the baffle plate 21 due to angle adjustment, the lifting plates 19 are quickly reset through the elasticity of the return springs 20, so that the aim of lifting the internal plant fuel is fulfilled, the combustion efficiency of the internal plants is improved, waste gas generated by combustion enters into the waste gas treatment chamber 8 on one side, dust fall treatment is carried out on the waste gas on one side through the spray header 25, sewage generated by dust fall enters into the drainage tube 11, and is discharged outside through the blow-down pipe 12, the heat energy recovery cover 4 above the dust fall is filled with the waste gas, the heat recovery cover is capable of sucking heat in the smoke gas through the suction 31, the heat in the smoke gas is sucked through the suction cover and the heat recovery spring 20, the carbon monoxide is fully sucked into the top cover 5 through the top cover, the combustion chamber is fully utilized, the combustion efficiency is detected through the top cover 35, and the combustion efficiency is fully detected in the combustion chamber is improved, and the exhaust gas flow channel is detected through the top cover 35, and the combustion efficiency is detected in the combustion chamber is closed to the combustion chamber is in the combustion chamber 38, and the exhaust gas is detected by the exhaust gas is introduced into the combustion chamber 38, and is in the combustion chamber is detected by the combustion chamber and is in the combustion chamber is in the combustion is in the and is in the.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (1)

1. The utility model provides a biomass energy high-efficient burning tail gas processing apparatus, includes biomass energy combustion furnace, its characterized in that: the biomass energy combustion furnace comprises a combustion furnace body (1), a rotary type lifting mechanism (2), a dust fall spraying mechanism (3), a flue gas heat energy recovery cover (4), a top cover (5) and a combustion detection chamber (6), wherein the right end of the combustion furnace body (1) is provided with a feeding port (7) and the left end of the combustion furnace body is provided with an exhaust gas treatment chamber (8), the rotary type lifting mechanism (2) is divided into two groups and symmetrically arranged in the combustion furnace body (1), the dust fall spraying mechanism (3) is arranged in the exhaust gas treatment chamber (8) and comprises a water inlet pipe (9), a spray pipe (10), a drainage pipe (11) and a blow-off pipe (12), the water inlet pipe (9) is respectively connected with a plurality of groups of spray pipes (10) through a plurality of pipelines, the spray pipes (10) are uniformly distributed at the top of the exhaust gas treatment chamber (8), the drainage pipe (11) is arranged at the bottom of the exhaust gas treatment chamber (8) and is connected with the tail end of the exhaust gas treatment chamber (12), the top of the combustion furnace body (1) is provided with a processing groove (13), the flue gas heat energy recovery cover (4) is arranged in the top cover (4), the bottom of the flue gas heat energy recovery cover (4) is connected with the mounting groove (13) and one end of the flue gas heat energy recovery cover is connected with the combustion detection chamber (6), an exhaust fan (14) is arranged at the outer end of the combustion detection chamber (6), a smoke exhaust pipe (39) is arranged at the outer end of the exhaust fan (14), a valve (15) is arranged on the smoke exhaust pipe (39), a control console (16) is connected with the valve (15) through a circuit, the rotary type material lifting mechanism (2) comprises a driving motor (17), a rotating shaft (18), a material lifting plate (19), a reset spring (20) and a baffle plate (21), the driving motor (17) is arranged on the combustion furnace body (1) and the power output end of the driving motor is fixed on the end of the rotating shaft (18) through bolts, the material lifting plate (19) is divided into a plurality of groups and is annularly and evenly distributed on the rotating shaft (18), the material lifting plate (19) is movably connected with the rotating shaft (18) through a hinge, one side of the valve is connected with the reset spring (20), the tail end of the reset spring (20) is fixed on the rotating shaft (18), the tail end of the reset spring (20) is arranged on the rotating shaft (18), the driving motor (17) is arranged on the combustion furnace body (1) and is matched with the inner wall (21) and comprises a base (22), the lower surface of the plate body (23) is in an arc surface structure, the outer end of the lifting plate (19) positioned below is in contact with the plate body (23), the spray pipe (10) comprises a drainage pipeline (24) and a plurality of groups of spray heads (25) arranged below the drainage pipeline (24), two adjacent groups of spray heads (25) are equidistantly distributed, the flue gas heat energy recovery cover (4) comprises a base plate (26) and an arch cover (27) arranged on the base plate (26), an air flow channel (28) is arranged on the base plate (26), the air flow channel (28) is communicated with the waste gas treatment chamber (8), a cavity (29) is formed between the base plate (26) and the arch cover (27), a plurality of groups of air holes (30) are uniformly formed in the surface of the arch cover (27), one end of the heat absorption pipe (31) is connected with a water inlet pipe (9) and is distributed on the surface of the arch cover (27) in a serpentine shape, the heat absorption pipe (31) is positioned between the air holes (30), the air holes (30) are arranged in the detection chamber (6), the ignition ring (33) and the ignition ring (32) are arranged on the ignition ring (32) and the ignition ring (33) and the ignition ring (32) are arranged on the ignition ring (33), the ignition head (34) is divided into a plurality of groups and evenly distributed on the mounting ring (33), the ignition heads (34) are connected with the gas pipe (32) through pipelines, the guide inner cover (35) is arranged inside the mounting ring (33), the carbon monoxide concentration sensor (36) is connected with the control console (16) through a circuit, the guide inner cover (35) is of a cambered surface structure, the left end of the guide inner cover is provided with the gas flow ring (37) in a processing mode, the inside of the gas flow ring (37) is provided with a plurality of groups of gas flow channels (38), the tail ends of the gas flow channels (38) and the ignition heads (34) of the groups are distributed in a one-to-one correspondence mode, plant fuel to be combusted is led into the combustion furnace body (1) through the feed inlet (7), in the combustion furnace body (1) burning process, the rotary type material lifting mechanism (2) is opened, the rotary type material lifting mechanism (18) is driven to rotate, the rotary type material lifting plate (19) is driven to synchronously rotate in the rotating shaft (18), when the rotary type material lifting plate (19) rotates, the rotary type material lifting plate (19) is rapidly rotated in the rotating process, the rotary type material lifting plate (19) is rapidly rotates to the reset spring (21) and the reset angle is enabled to be separated from the reset baffle plate (20) due to the reset spring (21) due to the fact that the reset angle is adjusted to the reset spring (21), thereby reach the purpose to inside plant fuel raise, the combustion efficiency of inside plant has been improved, the produced waste gas of burning enters into in waste gas treatment room (8) of one side, carry out the dust fall to the waste gas of entering through shower head (25) and handle, the produced sewage of dust fall enters into drainage tube (11), and discharge outward through blow off pipe (12), the flue gas after the dust fall enters into in flue gas heat recovery cover (4) of top, can absorb and make full use of with the heat in the flue gas through heat pipe (31), the gas after the processing enters into in top cover (5) of top, will be located in top cover (5) waste gas to the suction of burning detection room (6) side through air exhauster (14), because the obstruction of guide inner cover (35), waste gas enters into burning detection room (6) along air current passageway (38) in air current ring (37), because air current passageway (38) are close to ignition head (34), the carbon monoxide in the ignition waste gas burns, the carbon monoxide of burning in the mode of burning can improve the combustion efficiency greatly like this.