CN210662818U - Energy-saving environment-friendly boiler of composite fuel gas - Google Patents

Abstract

The utility model discloses a gaseous energy-concerving and environment-protective boiler of combined type fuel, include: one end of the heat exchanger is connected with the first combustion chamber, the other end of the heat exchanger is connected with the second combustion chamber, and the tail end of the second combustion chamber discharges the flue gas into the purifier through the second flue; one end of the chimney is arranged in the purifier, and the smoke passing through the purifier is discharged through the other end of the chimney; the liquid storage tank is connected with an oxyhydrogen generating tank, the oxyhydrogen generating tank is connected to a first combustion chamber, the first combustion chamber is connected to a second combustion chamber through an oxyhydrogen pipe, and an outlet of the oxyhydrogen generating tank is connected with a plasma generator; the coal feeder is connected to the inlet of the coal storage hopper; the inlet end of the electric door coal storage hopper and the inlet end of the gas producer are respectively provided with an electric door; ignition nozzles are respectively arranged on the first combustion chamber and the second combustion chamber and are respectively connected with an ignition device. The combustion is more sufficient, the contents of impurities and harmful substances in the discharged flue gas are reduced, and the energy-saving and environment-friendly effects are achieved.

Description

Energy-saving environment-friendly boiler of composite fuel gas

Technical Field

The utility model relates to a boiler technical field, more specifically relates to a gaseous energy-concerving and environment-protective boiler of combined type fuel.

Background

The boiler is an energy conversion device, the energy input to the boiler is in the forms of chemical energy, electric energy, heat energy of high-temperature flue gas and the like in fuel, and steam, high-temperature water or an organic heat carrier with certain heat energy is output outwards after conversion of the boiler, so that the boiler is widely applied to the fields of electric power, machinery, metallurgy, chemical engineering, textile papermaking, food, civil heating and the like.

At present, the boiler is in the use, only sets up a combustion chamber, and fuel burning is not enough, and the flue gas of fuel is at the emission process, and its impurity and the toxic substance content of smuggleing secretly is higher, still can produce partial carbon black suspended solid, and in addition, carry a large amount of heats in the flue gas and also can not obtain recycle, consequently, current boiler technique not only can not reach the environmental protection requirement that increases day by day, still can not be with the abundant recycle of heat of fuel, extravagant fuel resource.

Therefore, there is a need to develop an energy-saving and environment-friendly boiler using a composite fuel gas, which can sufficiently burn the fuel by adding a combustion chamber, reduce the contents of impurities and toxic substances in the fuel, and provide a waste heat recovery device at the end of a flue, so that the heat in the burned flue gas can be sufficiently utilized, the utilization rate of the fuel is improved, and the energy-saving and environment-friendly boiler is more environment-friendly and energy-saving.

The information disclosed in this background section of the invention is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information constitutes prior art already known to a person skilled in the art.

SUMMERY OF THE UTILITY MODEL

Problem to prior art existence, the utility model provides a gaseous energy-concerving and environment-protective boiler of combined type fuel, it can be through increasing the combustion chamber, makes the more abundant burning of fuel, improves the fuel rate of utilization, and is more energy-concerving and environment-protective.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a gaseous energy-concerving and environment-protective boiler of combined type fuel, including storing up the coal scuttle, set up in store up the coal gas producer of coal scuttle below, set up in the seal cover of coal gas producer lower extreme, and through first flue with the first combustion chamber that coal gas producer is connected, the lower part of coal gas producer is equipped with the air-blower, energy-concerving and environment-protective boiler still includes:

one end of the heat exchanger is connected with the first combustion chamber, the other end of the heat exchanger is connected with the second combustion chamber, the tail end of the second combustion chamber discharges flue gas into the purifier through a second flue, a waste heat recoverer is sleeved on the second flue, and the waste heat recoverer is communicated with the heat exchanger through a pipeline;

one end of the chimney is arranged in the purifier, and the smoke passing through the purifier is discharged through the other end of the chimney;

the liquid storage tank is connected with an inlet of an oxyhydrogen generating tank through a liquid outlet pipeline, an outlet of the oxyhydrogen generating tank is connected to the first combustion chamber through an oxyhydrogen liquid pipe, the first combustion chamber is connected to the second combustion chamber through an oxyhydrogen pipe, and an outlet of the oxyhydrogen generating tank is connected with a plasma generator;

a coal loader connected to an inlet of the coal storage hopper;

the inlet end of the coal storage hopper and the inlet end of the gas producer are respectively provided with the electric door;

the first combustion chamber and the second combustion chamber are respectively provided with a first ignition nozzle and a second ignition nozzle, and are respectively connected with an ignition device;

wherein, the lateral wall of the gas producer is provided with a coke cleaning door, and the heat exchanger is provided with an ash cleaning door.

The utility model has the advantages that:

1) the second combustion chamber is arranged, so that the fuel is combusted more fully, and the contents of impurities and toxic substances in the discharged flue gas are reduced;

2) the waste heat recoverer is arranged on the flue, so that the heat in the discharged flue gas is fully utilized, and the energy is saved and the environment is protected;

3) due to the arrangement of the composite fuel, the coal resources are effectively saved, the combustion time of the coal resources is prolonged, and the utilization rate of the coal resources is improved.

The energy efficient and environmentally friendly boiler of the present invention has other features and advantages which will be apparent from or are set forth in detail in the accompanying drawings and the following detailed description, which are incorporated herein, and which together serve to explain certain principles of the present invention.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent by describing in more detail exemplary embodiments of the present invention with reference to the attached drawings, in which like reference numerals generally represent like parts in exemplary embodiments of the present invention.

Fig. 1 shows a schematic view of a composite fuel gas energy saving and environmental friendly boiler according to an exemplary embodiment of the present invention.

Fig. 2 shows a schematic view of a first combustion chamber of an exemplary embodiment of the present invention.

Fig. 3 shows a schematic view of a second combustion chamber of an exemplary embodiment of the present invention.

Fig. 4 shows a schematic connection diagram of a liquid mixing tank and a liquid storage tank according to an exemplary embodiment of the present invention.

Description of reference numerals:

1. feeding a coal machine; 2. a gas producer; 3. a coal storage hopper; 4. a first ignition nozzle; 5. an electrically operated door; 6. a oxyhydrogen gas pipe; 7. a hydrogen-oxygen liquid pipe; 8. a first flue; 9. a first water outlet;

10. a first combustion chamber; 101. the inner wall of the first combustion chamber; 102. a burner; 103. a combustion chamber flange; 104. a flue flange; 105. a burner mount; 106. a water outlet flange; 107. a water replenishing port flange; 108. a water through hole; 109. a first combustion chamber outer wall;

11. a first water replenishing port; 12. a dust removal door;

13. a second combustion chamber; 1301. a second water outlet; 1302. a second water replenishing port; 1303. a second combustion chamber inner wall; 1304. a second combustion chamber outer wall; 1305. an end connection flange;

14. a second flue; 15. a waste heat recoverer; 16. a chimney; 17. a dust processor; 18. a purifier; 19. an induced draft fan; 20. a second ignition nozzle; 21. a heat exchanger; 22. a liquid storage tank; 23. a liquid outlet pipeline; 24. an oxyhydrogen generation tank; 25. A blower; 26. a sealing sleeve; 27. a coke cleaning door; 28. an ignition device;

29. a liquid mixing tank; 2901. a water feeding pipeline; 2902. a ball valve; 2903. a liquid feeding hopper; 2904. a motor; 2905. a stirrer; 2906. a liquid level gauge; 2907. a pipeline liquid feeding pump; 2908. a fluid infusion pipeline; 30. a plasma electric controller.

Detailed Description

The invention will be described in more detail below with reference to the accompanying drawings. While the preferred embodiments of the present invention have been illustrated in the accompanying drawings, it is to be understood that the invention may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Fig. 1 shows a schematic view of a composite fuel gas energy saving and environmental friendly boiler according to an exemplary embodiment of the present invention.

As shown in fig. 1, the utility model provides a gaseous energy-concerving and environment-protective boiler of combined type fuel, including coal storage bucket 3, set up in coal gas producer 2 of coal storage bucket 3 below, set up in the seal cover 26 of 2 lower extremes of coal gas producer, and the first combustion chamber 10 of being connected with coal gas producer 2 through first flue 8, the lower part of coal gas producer 2 is equipped with air-blower 25, its characterized in that, energy-concerving and environment-protective boiler still includes:

one end of the heat exchanger 21 is connected with the first combustion chamber 10, the other end of the heat exchanger 21 is connected with the second combustion chamber 13, the tail end of the second combustion chamber 13 discharges the flue gas into the purifier 18 through the second flue 14, the waste heat recoverer 15 is sleeved on the second flue 14, and the waste heat recoverer 15 is communicated with the heat exchanger 21 through a pipeline;

one end of the chimney 16 is arranged in the purifier 18, and the smoke passing through the purifier 18 is discharged through the other end of the chimney 16;

a liquid storage tank 22 connected with an inlet of an oxyhydrogen generation tank 24 through a liquid outlet pipe 23, an outlet of the oxyhydrogen generation tank 24 is connected to the first combustion chamber 10 through an oxyhydrogen liquid pipe 7, the first combustion chamber 10 is connected to the second combustion chamber 13 through an oxyhydrogen pipe 6, and an outlet of the oxyhydrogen generation tank 24 is connected with a plasma generator 30;

the coal feeder 1 is connected to the inlet of the coal storage hopper 3;

the electric door 5 is arranged at the inlet end of the coal storage hopper 3 and the inlet end of the gas producer 2 respectively;

wherein, the first combustion chamber 10 and the second combustion chamber 13 are respectively provided with a first ignition nozzle 4 and a second ignition nozzle 20, and are respectively connected with an ignition device 28;

wherein, the side wall of the gas producer 2 is provided with a coke cleaning door 27, and the heat exchanger 21 is provided with an ash cleaning door 12.

The electric door 5 can control the size of the opening of the coal storage hopper 3 and the size of the inlet of the coal gas producer 2, so that the quantity of coal entering the electric door can be effectively controlled, a proper amount of coal is put into the electric door according to actual needs, and coal resources can be effectively saved.

By arranging the second combustion chamber 13, the fuel is more fully combusted, and the contents of impurities and toxic substances in the discharged flue gas are reduced; the waste heat recoverer 15 is arranged on the flue, so that the heat in the discharged flue gas is fully utilized, and the energy is saved and the environment is protected; due to the arrangement of the composite fuel, the coal resources are effectively saved, the combustion time of the coal resources is prolonged, and the utilization rate of the coal resources is improved.

Wherein, the automatic control of hydrogen and coal gas needs to ensure the prior flame of the energy-saving environment-friendly boiler (namely the prior flame passes through the ignition device 28), and then gas is introduced to prevent the gas from backfiring and deflagrating in the pipeline; the height of the oxyhydrogen generating tank 24 is 200-300mm, preferably 273mm, the wall thickness is 55-65mm, preferably 60mm, the voltage of the energy-saving and environment-friendly boiler motor is 380V, the plasma electric controller 30 sends 7500-8500KW plasma frequency, the current is 300-500A, and the output temperature of the oxyhydrogen generating tank 24 is 50-60 ℃.

As a preferred scheme, the gas production per hour of the hydrogen-oxygen generation tank 24 of the 1-ton energy-saving environment-friendly boiler is 30-50 cubic meters, a flowmeter needs to be additionally arranged at the moment, and the number of the suitable flowmeters is selected according to the gas production per hour.

When the gas producer 2 is used for feeding and discharging coal and slag, the 1-ton energy-saving and environment-friendly boiler is usually used for feeding and discharging the coal and the slag manually, the energy-saving and environment-friendly boiler with the weight of more than 1 ton needs to be fed and discharged automatically, and the automatic slag discharge is preferably a rotary furnace.

Further, the second chimney 14 includes:

the inlet end of the vertical section flue is connected with the second combustion chamber 13, and the waste heat recoverer 15 is sleeved on the vertical section flue;

and the inlet of the third flue is connected with the outlet of the vertical section of flue, and the outlet of the third flue is positioned in the purifier 18.

The lower end of the waste heat recoverer 15 is provided with an opening, and the opening is convenient for connecting the third flue with the lower end of the vertical section flue.

As the preferred scheme, energy-concerving and environment-protective boiler still includes:

and the induced draft fan 19 is arranged at the inlet of the third flue.

The induced draft fan 19 is arranged at the tail end of the energy-saving and environment-friendly boiler, the tail end of the second flue 14 can perform high-temperature combustion on the discharged flue gas through hydrogen, the flue gas is discharged from the chimney 16 through the purifier 18, the outlet temperature of the second flue 14 is 45-55 ℃, and the 4.5KW induced draft fan 19 and the 2.5KW blower 25 are adopted in the 1-ton energy-saving and environment-friendly boiler generally.

Further, the energy-saving and environment-friendly boiler further comprises:

the dust processor 17, the dust processor 17 is arranged on the middle section of the chimney 16.

The content of impurities and harmful substances discharged into the air is reduced.

Fig. 2 shows a schematic view of a first combustion chamber 10 of an exemplary embodiment of the present invention.

As shown in fig. 2, the first combustion chamber 10 has a hollow cylindrical shape and includes:

the first combustion chamber inner wall 101 and the first combustion chamber outer wall 109 form a first water passing area;

the first water outlet 9 and the first water replenishing port 11 are respectively arranged on the outer wall 109 of the first combustion chamber and communicated with the first water passing area, a water outlet flange 106 is arranged on the first water outlet 9, and a water replenishing port flange 107 is arranged on the first water replenishing port 11;

a combustion chamber flange 103 provided on one end surface of the first combustion chamber 10;

the combustor support 105 is a plurality of vertical rods, is positioned in the first combustion chamber 10, is uniformly arranged along the circumferential direction of the combustion chamber flange 103, and is fixed on the combustion chamber flange 103;

a burner 102, the burner 102 being wound on a burner holder 105;

wherein, the other end face of the first combustion chamber 10 is connected to the outer plate of the heat exchanger 21, and a plurality of water through holes 108 are uniformly arranged at the connection position of the outer plate of the heat exchanger 21 and the first water through area along the circumferential direction.

Further, a through hole is formed in the center of the combustion chamber flange 103, the through hole is connected to the outlet end of the first flue 8, and a flue flange 104 is arranged on the outlet end close to the first flue 8.

Preferably, the first ignition torch 4 is disposed on the first flue 8 between the flue flange 104 and the combustion chamber flange 103.

Fig. 3 shows a schematic view of a second combustion chamber of an exemplary embodiment of the present invention.

As shown in fig. 3, the second combustion chamber 13 has a hollow cylindrical shape and includes:

the inner wall 1303 of the second combustion chamber and the outer wall 1304 of the second combustion chamber are hermetically connected, and two ends of the inner wall 1303 of the second combustion chamber and the outer wall 1304 of the second combustion chamber are hermetically connected to form a second water passing area;

the second water outlet 1301 and the second water replenishing port 1302 are respectively arranged on the outer wall 1304 of the second combustion chamber and are communicated with the second water passing area, a water outlet flange is arranged on the second water outlet 1301, a water replenishing port flange is arranged on the second water replenishing port 1302, the second water replenishing port 1302 is connected with the heat exchanger 21, and the second water outlet 1301 is connected with the waste heat recoverer 15;

end connecting flanges 1305, the pair of end connecting flanges 1305 being provided on both end surfaces of the second combustion chamber 13, respectively, and connecting both ends of the second combustion chamber 13 to the heat exchanger 21 and the second flue 14, respectively;

the second ignition mouth 20 is disposed on the inner wall 1303 of the second combustion chamber, and penetrates through the outer wall 1304 of the second combustion chamber.

The first combustion chamber inner wall 101 and the second combustion chamber inner wall 1303 are preferably made of white steel, and the first combustion chamber outer wall 109 and the second combustion chamber outer wall 1304 may be formed by machining and modifying other steel plates, wherein after both ends of the second combustion chamber inner wall 1303 are reamed, the second combustion chamber inner wall 1303 is connected with the second combustion chamber outer wall 1304, and the joints between both ends of the second combustion chamber inner wall 1303 and the second combustion chamber outer wall 1304 are welded and sealed.

Generally, in order to ensure the temperature in the energy-saving and environment-friendly boiler at night, the combustion of ever-burning fire needs to be ensured so as to ensure the heating temperature at night. Wherein, the fuel can adopt methanol, and a certain amount of diluent is added into the methanol, so that the methanol can heat the fire in the environment-friendly boiler, and the fire in the energy-saving environment-friendly boiler is prevented from extinguishing, thereby bringing unnecessary economic loss.

Fig. 4 shows a schematic connection diagram of a liquid mixing tank and a liquid storage tank according to an exemplary embodiment of the present invention.

As shown in fig. 4, the energy-saving and environment-friendly boiler further comprises:

the inlet of the liquid mixing tank 29 is connected with the water feeding pipeline 2901, the outlet of the liquid mixing tank 29 is connected with the inlet of the liquid storage tank 22 through the liquid supplementing pipeline 2908, and the outlet of the liquid storage tank 22 is connected with the inlet of the oxyhydrogen generation tank 24 through the liquid outlet pipeline 23;

a pipe liquid feeding pump 2907 provided on the liquid replenishing pipe 2908;

a stirrer 2905, one end of the stirrer 2905 is arranged in the liquid mixing tank 29, and the other end is connected with a motor 2904;

a liquid feeding funnel 2903 provided on the liquid mixing tank 29 and communicating with the liquid mixing tank 29;

liquid level meters 2906 are provided on the liquid mixing tank 29 and the liquid storage tank 22.

The liquid mixing box can be used for various raw materials for combustion to be mixed and stirred evenly through the electric stirrer, so that the combustion is more sufficient and uniform, and the utilization rate of fuel is improved.

The level gauge 2906 is installed to facilitate observation of the water yield therein and avoid dry burning.

Wherein, the water adding pipe 2901, the liquid supplementing pipe 2908 and the liquid outlet pipe 23 are provided with ball valves 2902, and the inlet of the liquid adding hopper 2903 is provided with a ball valve 2902.

Ball valves 2902 are used to control the opening and closing of the various conduits.

The foregoing description of the embodiments of the invention has been presented for purposes of illustration and not limitation, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the illustrated embodiments. The terminology used herein is chosen in order to best explain the principles of the embodiments, the practical application, or improvements made to the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (10)

1. The utility model provides a gaseous energy-concerving and environment-protective boiler of combined type fuel, including storing up the coal scuttle, set up in store up the coal gas producer of coal scuttle below, set up in the seal cover of coal gas producer lower extreme, and through first flue with the first combustion chamber that coal gas producer is connected, the lower part of coal gas producer is equipped with the air-blower, its characterized in that, energy-concerving and environment-protective boiler still includes:

one end of the heat exchanger is connected with the first combustion chamber, the other end of the heat exchanger is connected with the second combustion chamber, the tail end of the second combustion chamber discharges flue gas into the purifier through a second flue, a waste heat recoverer is sleeved on the second flue, and the waste heat recoverer is communicated with the heat exchanger through a pipeline;

one end of the chimney is arranged in the purifier, and the smoke passing through the purifier is discharged through the other end of the chimney;

the liquid storage tank is connected with an inlet of an oxyhydrogen generating tank through a liquid outlet pipeline, an outlet of the oxyhydrogen generating tank is connected to the first combustion chamber through an oxyhydrogen liquid pipe, the first combustion chamber is connected to the second combustion chamber through an oxyhydrogen pipe, and an outlet of the oxyhydrogen generating tank is connected with a plasma generator;

a coal loader connected to an inlet of the coal storage hopper;

the inlet end of the coal storage hopper and the inlet end of the gas producer are respectively provided with the electric door;

the first combustion chamber and the second combustion chamber are respectively provided with a first ignition nozzle and a second ignition nozzle, and are respectively connected with an ignition device;

wherein, the lateral wall of the gas producer is provided with a coke cleaning door, and the heat exchanger is provided with an ash cleaning door.

2. The combined fuel gas energy saving and environmental friendly boiler according to claim 1, wherein said second flue comprises:

the inlet end of the vertical section flue is connected with the second combustion chamber, and the waste heat recoverer is sleeved on the vertical section flue;

and the inlet of the third flue is connected with the outlet of the vertical section flue, and the outlet of the third flue is positioned in the purifier.

3. The energy efficient and environmentally friendly boiler of composite fuel gas as recited in claim 2, further comprising:

and the induced draft fan is arranged at the inlet of the third flue.

4. The energy efficient and environmentally friendly boiler of composite fuel gas as claimed in claim 1, further comprising:

the dust processor is arranged on the middle section of the chimney.

5. The energy-saving and environment-friendly boiler using composite fuel gas as claimed in claim 1, wherein the first combustion chamber has a hollow cylindrical shape and comprises:

the combustor comprises a first combustor inner wall and a first combustor outer wall, wherein the first combustor inner wall and the first combustor outer wall form a first water passing area;

the first water outlet and the first water replenishing port are respectively arranged on the outer wall of the first combustion chamber and are communicated with the first water passing area, a water outlet flange is arranged on the first water outlet, and a water replenishing port flange is arranged on the first water replenishing port;

the combustion chamber flange is arranged on one end surface of the first combustion chamber;

the combustor support is provided with a plurality of vertical rods, is positioned in the first combustion chamber, is uniformly arranged along the circumferential direction of the combustion chamber flange and is fixed on the combustion chamber flange;

a burner wound around the burner mount;

the other end face of the first combustion chamber is connected to an outer plate of the heat exchanger, and a plurality of water through holes are uniformly formed in the connection position of the outer plate of the heat exchanger and the first water through area along the circumferential direction.

6. The energy-saving and environment-friendly boiler using composite fuel gas as claimed in claim 5, wherein a through hole is formed at the center of the combustion chamber flange, the through hole is connected to the outlet end of the first flue, and a flue flange is provided at the outlet end close to the first flue.

7. The composite fuel gas energy saving and environmental friendly boiler according to claim 6, wherein the first ignition burner is disposed on the first flue between the flue flange and the combustion chamber flange.

8. The energy-saving and environment-friendly boiler using composite fuel gas as claimed in claim 1, wherein the second combustion chamber is formed in a hollow cylindrical shape and comprises:

the inner wall of the second combustion chamber and the outer wall of the second combustion chamber are hermetically connected at two ends to form a second water passing area;

the second water outlet and the second water replenishing port are respectively arranged on the outer wall of the second combustion chamber and are communicated with the second water passing area, a water outlet flange is arranged on the second water outlet, a water replenishing port flange is arranged on the second water replenishing port, the second water replenishing port is connected with the heat exchanger, and the second water outlet is connected with the waste heat recoverer;

the end connecting flanges are respectively arranged on two end faces of the second combustion chamber, so that two ends of the second combustion chamber are respectively connected with the heat exchanger and the second flue;

the second ignition nozzle is arranged on the inner wall of the second combustion chamber and penetrates through the outer wall of the second combustion chamber.

9. The energy efficient and environmentally friendly boiler of composite fuel gas as claimed in claim 1, further comprising:

the inlet of the liquid mixing tank is connected with a water feeding pipeline, the outlet of the liquid mixing tank is connected with the inlet of the liquid storage tank through a liquid supplementing pipeline, and the outlet of the liquid storage tank is connected to the inlet of the oxyhydrogen generation tank through the liquid outlet pipeline;

the pipeline liquid feeding pump is arranged on the liquid supplementing pipeline;

one end of the stirrer is arranged in the liquid mixing box, and the other end of the stirrer is connected with the motor;

the liquid adding hopper is arranged on the liquid mixing box and is communicated with the liquid mixing box;

wherein, the liquid mixing tank and the liquid storage tank are provided with liquid level gauges.

10. The energy-saving and environment-friendly boiler using composite fuel gas as claimed in claim 9, wherein ball valves are disposed on the water feeding pipeline, the liquid replenishing pipeline and the liquid outlet pipeline, and the ball valve is disposed at an inlet of the liquid feeding hopper.

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