CN217662337U - Exhaust treatment device for thermal power generation - Google Patents

Abstract

The utility model discloses a waste gas treatment device for thermal power generation, including the body unit, including the liquid reserve tank, set up in the transfusion case at liquid reserve tank top portion, set up in the dust fall case at transfusion case top portion, set up in dust fall roof portion support column all around, set up in the rose box at support column top portion, set up in the first transfer line of dust fall incasement chamber. The utility model discloses a set up the liquid reserve tank, played the effect that the storage of being convenient for falls the dirt liquid, through setting up the transfusion case, the effect of outrigger transfer pump has been played, through setting up the dust falling case, the effect of the first transfer line of outrigger has been played, through setting up the support column, the effect of outrigger rose box has been played, it adopts coal burning to generate electricity to have solved present most thermal power, and coal burning can produce a large amount of waste gases and the incomplete particulate matter of burning, the problem that can seriously pollute the atmospheric environment directly discharges.

Description

Exhaust treatment device for thermal power generation

Technical Field

The utility model relates to a thermal power technical field, especially a exhaust treatment device for thermal power.

Background

The thermal power generation is a power generation mode which utilizes the heat energy generated by combustible materials during combustion and converts the heat energy into electric energy through a power generation power device, and the power generation mode comprises pure power supply, power generation and heat supply according to the functions of the power generation power device, and mainly comprises steam turbine power generation, gas turbine power generation and diesel engine power generation according to the functions of a prime mover, and the thermal power generation power device mainly comprises coal-fired power generation, fuel oil power generation, gas power generation, garbage power generation, methane power generation, industrial boiler waste heat power generation and the like according to the used fuel.

SUMMERY OF THE UTILITY MODEL

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section and in the abstract of the specification and the title of the application to avoid obscuring the purpose of this section, the abstract of the specification and the title of the application, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or other problems with the conventional exhaust gas treatment apparatus for thermal power generation.

Therefore, the utility model aims to solve the problem that most thermal power adopt coal burning to generate electricity at present, and coal burning can produce a large amount of waste gas and the incomplete particulate matter of burning, and direct emission can seriously pollute the atmospheric environment.

In order to solve the technical problem, the utility model provides a following technical scheme: an exhaust gas treatment device for thermal power generation, comprising,

the body unit comprises a liquid storage tank, a transfusion tank arranged at the top of the liquid storage tank, a dust settling tank arranged at the top of the transfusion tank, support columns arranged around the top of the dust settling tank, a filter tank arranged at the top of the support columns, a first liquid conveying pipe arranged in an inner cavity of the dust settling tank and a water mist spray head arranged on the surface of the first liquid conveying pipe;

and the transmission unit comprises a first gas pipe, a front end arranged at the top of the dust settling box and a gas transmission pump arranged on the surface of the first gas pipe.

As a preferred scheme of exhaust treatment device for thermal power, wherein: the body unit further comprises an infusion pump and an inner cavity arranged in the infusion box.

As a preferred scheme of exhaust treatment device for thermal power, wherein: the body unit further comprises a second infusion tube and is arranged on the left side of the infusion pump.

As a preferred scheme of exhaust treatment device for thermal power, wherein: the body unit further comprises a supporting block and a lower end arranged in the inner cavity of the filter box.

As a preferred scheme of exhaust treatment device for thermal power, wherein: the body unit further comprises activated carbon and is arranged at the bottom of the supporting block.

As a preferred scheme of exhaust treatment device for thermal power, wherein: the transmission unit further comprises a third gas pipe and is arranged on the left side of the front surface of the dust settling box.

As a preferred scheme of exhaust treatment device for thermal power, wherein: the transmission unit further comprises a third infusion tube and is arranged on the right side of the front surface of the dust settling box.

As a preferred scheme of exhaust treatment device for thermal power, wherein: the transmission unit further comprises a valve and is arranged on the surface of the third infusion tube.

As a preferred scheme of exhaust treatment device for thermal power, wherein: the transmission unit further comprises a vent groove and is arranged on two sides of the infusion box.

As a preferred scheme of exhaust treatment device for thermal power, wherein: the transmission unit further comprises a fourth gas conveying pipe and is arranged at the top of the filter box.

The utility model discloses beneficial effect does: through setting up the liquid reserve tank, the effect of being convenient for store and fall dirt liquid has been played, through setting up the transfusion case, the effect of outrigger transfer pump has been played, through setting up the dust case, the effect of the first transfer line of outrigger has been played, through setting up the support column, the effect of outrigger rose box has been played, through setting up the rose box, the effect of being convenient for carry out the collection to the gas after the dust fall has been played, mutually support through first transfer line and thin water smoke shower nozzle, the effect of dust fall is carried out to the waste gas of liquid reserve tank inner chamber to having played, mutually support through first gas-supply pipe and gas transmission pump, the effect of gas transmission to the rose box inner chamber after having played and being convenient for with the dust fall case dust fall has been played.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive labor. Wherein:

fig. 1 is a configuration diagram of an exhaust gas treatment device for thermal power generation.

Fig. 2 is a connection structure diagram of a filter box, a support block and activated carbon of the exhaust gas treatment device for thermal power generation.

FIG. 3 is a connection structure diagram of a dust box, a first liquid delivery pipe and a water mist nozzle of the waste gas treatment device for thermal power generation.

Fig. 4 is a connection structure diagram of the first infusion tube, the infusion pump, and the second infusion tube of the exhaust gas treatment device for thermal power generation.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying the present invention are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, the references herein to "one embodiment" or "an embodiment" refer to a particular feature, structure, or characteristic that may be included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 3, in accordance with a first embodiment of the present invention, there is provided an exhaust gas treatment apparatus for thermal power generation, including

The body unit 100 comprises a liquid storage tank 101, an infusion tank 102 arranged at the top of the liquid storage tank 101, a dust falling tank 103 arranged at the top of the infusion tank 102, supporting columns 104 arranged around the top of the dust falling tank 103, a filter tank 105 arranged at the top of the supporting column 104, a first infusion tube 106 arranged in an inner cavity of the dust falling tank 103, and a water mist sprayer 107 arranged on the surface of the first infusion tube 106.

The transmission unit 200 includes a first air pipe 201, a front end disposed at the top of the dust box 103, and an air pump 202 disposed on the surface of the first air pipe 201.

Specifically, the body unit 100 further comprises an infusion pump 108 and an inner cavity arranged in the infusion tank 102, and the infusion pump 108 is arranged to achieve the effect of conveniently conveying the dust-settling liquid in the inner cavity of the liquid storage tank 101 to the inner cavity of the first infusion tube 106 through the inner cavity of the second infusion tube 109.

Preferably, the body unit 100 further includes a second infusion tube 109 disposed on the left side of the infusion pump 108, and the second infusion tube 109 is disposed to achieve an effect of facilitating the transfer of the dustfall liquid in the inner cavity of the liquid storage tank 101 to the inner cavity of the infusion pump 108.

Preferably, the body unit 100 further includes a supporting block 110 disposed at a lower end of the inner cavity of the filtering box 105, and the supporting block 110 is disposed to stably support the activated carbon 111.

When the dust-settling gas conveying pump is used, firstly, waste gas is conveyed to the inner cavity of the dust-settling box 103 through the third gas conveying pipe 203, then the infusion pump 108 is started, the infusion pump 108 is enabled to convey dust-settling liquid in the inner cavity of the liquid storage box 101 to the inner cavity of the first liquid conveying pipe 106 through the second liquid conveying pipe 109, then the dust-settling liquid is conveyed to the inner cavity of the fine water mist sprayer 107 through the inner cavity of the first liquid conveying pipe 106, so that the waste gas conveyed to the inner cavity of the liquid storage box 101 is subjected to dust settling through the fine water mist sprayer 107, incomplete combustion particles in the waste gas are mixed with the dust-settling liquid, then, the valve 205 is opened, the dust-settling liquid mixed with the incomplete combustion particles in the inner cavity of the liquid storage box 101 is conveyed out of the inner cavity of the liquid storage box 101 through the third liquid conveying pipe 204, then, the air pump 202 is started to convey the dust-settled gas in the inner cavity of the dust-settling box 103 to the inner cavity of the filter box 105 through the first gas conveying pipe 201, then, the gas is filtered through the activated carbon 111, then the filtered gas is conveyed to the outer environment through the fourth gas conveying pipe 207, when the infusion pump 108 is in the operation, heat is generated to raise the temperature of the inner cavity 206 of the infusion pump 102, and then, so as to cool the infusion pump 108.

Example 2

Referring to fig. 1 to 4, in order to implement the second embodiment of the present invention, the present embodiment is based on the previous embodiment:

specifically, the body unit 100 further comprises activated carbon 111 disposed at the bottom of the supporting block 110, and the activated carbon 111 is disposed to filter the gas transmitted to the inner cavity of the filtering box 105.

Preferably, the transmission unit 200 further comprises a third air pipe 203 arranged on the left side of the front surface of the dust falling box 103, and the third air pipe 203 is arranged to achieve the effect of facilitating the transmission of waste gas to the inner cavity of the liquid storage box 101.

Preferably, the transmission unit 200 further comprises a third infusion tube 204 disposed on the right side of the front surface of the dust falling box 103, and the third infusion tube 204 is disposed to achieve the effect of conveniently transmitting the used dust falling liquid out of the inner cavity of the liquid storage box 101.

When the dust-settling gas transmission pump is used, firstly, the waste gas is transmitted to the inner cavity of the dust-settling box 103 through the third gas pipe 203, then the liquid transmission pump 108 is started, the dust-settling liquid in the inner cavity of the liquid storage box 101 is transmitted to the inner cavity of the first liquid transmission pipe 106 through the second liquid transmission pipe 109 by the liquid transmission pump 108, then the dust-settling liquid is transmitted to the inner cavity of the fine water mist nozzle 107 through the inner cavity of the first liquid transmission pipe 106, so that the waste gas transmitted to the inner cavity of the liquid storage box 101 is subjected to dust settling by the fine water mist nozzle 107, incomplete combustion particles in the waste gas are mixed with the dust-settling liquid, then the valve 205 is opened, the dust-settling liquid mixed with the incomplete combustion particles in the inner cavity of the liquid storage box 101 is transmitted out of the inner cavity of the liquid storage box 101 through the third liquid transmission pipe 204, then, through starting the gas transmission pump 202, the gas transmission pump 202 transmits the dust-settled gas in the inner cavity of the dust-settling box 103 to the inner cavity of the filter box 105 through the first gas pipe 201, then the gas transmission pipe 111 is filtered, and then the filtered gas is transmitted to the external environment through the fourth gas transmission pipe 207.

Example 3

Referring to fig. 1 and 2, in order to illustrate a third embodiment of the present invention, this embodiment is based on the first two embodiments:

specifically, the transmission unit 200 further includes a valve 205 disposed on a surface of the third infusion tube 204, and the valve 205 is disposed to achieve an effect of conveniently controlling the flow rate of the dustfall liquid in the inner cavity of the third infusion tube 204.

Preferably, the transmission unit 200 further includes a vent groove 206 disposed on two sides of the infusion tank 102, and the vent groove 206 is disposed to facilitate transmission of heat generated by the operation of the infusion pump 108 out of the inner cavity of the infusion tank 102.

Preferably, the transmission unit 200 further includes a fourth air pipe 207 disposed at the top of the filter box 105, and the fourth air pipe 207 is disposed to facilitate transmission of the filtered air in the inner cavity of the filter box 105 to the external environment.

When the dust-settling device is used, firstly, the waste gas is transmitted to the inner cavity of the dust-settling box 103 through the third gas pipe 203, then the infusion pump 108 is started, the infusion pump 108 transmits dust-settling liquid in the inner cavity of the liquid storage box 101 to the inner cavity of the first liquid pipe 106 through the second liquid pipe 109, then the dust-settling liquid is transmitted to the inner cavity of the fine water mist nozzle 107 through the inner cavity of the first liquid pipe 106, so that the waste gas transmitted to the inner cavity of the liquid storage box 101 is subjected to dust settling through the fine water mist nozzle 107, incomplete combustion particles in the waste gas are mixed with the dust-settling liquid, then the valve 205 is opened, the dust-settling liquid mixed with the incomplete combustion particles in the inner cavity of the liquid storage box 101 is transmitted out of the inner cavity of the liquid storage box 101 through the third liquid pipe 204, then, the air pump 202 is started to transmit the dust-settled gas in the inner cavity of the dust-settling box 103 to the inner cavity of the filter box 105 through the first gas pipe 201, then the gas is filtered through the activated carbon 111, then the filtered gas is transmitted to the external environment through the fourth gas pump 207, when the infusion pump 108 is in operation, heat is generated to increase the temperature of the inner cavity of the infusion box 102, at this moment, and the inner cavity of the infusion pump 108 is cooled air conveying tank 102, and the infusion pump 108 is discharged out of the infusion pump 108.

It should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (10)

1. An exhaust gas treatment device for thermal power generation, characterized in that: comprises the steps of (a) preparing a substrate,

the body unit (100) comprises a liquid storage tank (101), a transfusion tank (102) arranged at the top of the liquid storage tank (101), a dust falling tank (103) arranged at the top of the transfusion tank (102), supporting columns (104) arranged around the top of the dust falling tank (103), a filter tank (105) arranged at the top of the supporting column (104), a first liquid conveying pipe (106) arranged in an inner cavity of the dust falling tank (103), and a fine water mist sprayer (107) arranged on the surface of the first liquid conveying pipe (106);

the transmission unit (200) comprises a first air conveying pipe (201), the front end of the top of the dust falling box (103) and an air conveying pump (202) arranged on the surface of the first air conveying pipe (201).

2. The exhaust gas treatment device for thermal power generation according to claim 1, characterized in that: the body unit (100) further comprises an infusion pump (108) and an inner cavity arranged in the infusion box (102).

3. The exhaust gas treatment device for thermal power generation according to claim 2, characterized in that: the body unit (100) further comprises a second infusion tube (109) and is arranged on the left side of the infusion pump (108).

4. The exhaust gas treatment device for thermal power generation according to claim 3, characterized in that: the body unit (100) further comprises a supporting block (110) arranged at the lower end of the inner cavity of the filter box (105).

5. The exhaust gas treatment device for thermal power generation according to claim 4, characterized in that: the body unit (100) further comprises activated carbon (111) arranged at the bottom of the supporting block (110).

6. The exhaust gas treatment device for thermal power generation according to any one of claims 2 to 5, characterized in that: the transmission unit (200) further comprises a third air conveying pipe (203) arranged on the left side of the front face of the dust falling box (103).

7. The exhaust gas treatment device for thermal power generation according to claim 6, characterized in that: the transmission unit (200) further comprises a third infusion tube (204) and is arranged on the right side of the front face of the dust falling box (103).

8. The exhaust gas treatment device for thermal power generation according to claim 7, characterized in that: the transmission unit (200) further comprises a valve (205) arranged on the surface of the third infusion tube (204).

9. The exhaust gas treatment device for thermal power generation according to claim 8, characterized in that: the transmission unit (200) further comprises a ventilation groove (206) arranged on two sides of the infusion box (102).

10. The exhaust gas treatment device for thermal power generation according to any one of claims 7 to 9, characterized in that: the transmission unit (200) further comprises a fourth gas conveying pipe (207) arranged at the top of the filter box (105).

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