CN109925800A

CN109925800A - A kind of chemical emission processing method

Info

Publication number: CN109925800A
Application number: CN201910186364.6A
Authority: CN
Inventors: 不公告发明人
Original assignee: Quzhou Environmental Protection Technology Co Ltd Of Norcent
Current assignee: Quzhou Environmental Protection Technology Co Ltd Of Norcent
Priority date: 2019-03-12
Filing date: 2019-03-12
Publication date: 2019-06-25

Abstract

The invention discloses a kind of chemical emission processing methods, include the following steps: S1, dedusting: chemical emission being passed through in emission-control equipment and carries out out dirt, be discharged after dedusting；S2, washing: the chemical emission after dedusting being passed through in emission-control equipment and is washed, and exhaust gas and the cleaning solution of filler surface flow is allowed to come into full contact with, to adsorb acidity contained in exhaust gas or alkaline dirt；S3, absorption: it is adsorbed being passed through in emission-control equipment by the exhaust gas of washing.The present invention can focus on the dust in exhaust gas, discharge will not influence the quality of air in an atmosphere, the exhaust gas after dedusting is washed by wash mill, finally the containing benezene organic matter in exhaust gas is adsorbed, it is handled in several ways, handles more thorough feature, solved existing chemical emission processing and be not thorough, therefore the problem of remaining a large amount of harmful substances, seriously threaten the health of people.

Description

A kind of chemical emission processing method

Technical field

The present invention relates to chemical emission processing technology field more particularly to a kind of chemical emission processing methods.

Background technique

Exhaust gas refers to the poisonous and hazardous gas that the mankind are discharged in production and life process.All kinds of manufacturing enterprise's discharges Industrial waste gas is the important sources of atmosphere pollution.If big capacity industrial waste gas it is unprocessed it is up to standard after be discharged into atmosphere, necessarily make Atmosphere quality decline, brings serious harm to human health, brings about great losses to national economy.It is toxic in industrial waste gas After harmful substance can enter human body by respiratory tract and skin, long-term low concentration or the contact of short-term high concentration can cause exhaling for human body Systems such as suction, blood, liver and organ is temporary or permanent lesion, especially benzopyrenes polycyclic aromatic hydrocarbon can make human body direct It is carcinogenic, cause the great attention of the mankind.

The chemical emission processing unit that occurs currently on the market is mostly to handle chemical emission only with a kind of mode, this is right It is far from being enough for the chemical emission of complicated component, so that chemical emission, which exists, handles halfway deficiency, therefore residual A large amount of harmful substances are stayed, the health of people is seriously threatened, for this purpose, it is proposed that a kind of chemical emission processing method.

Summary of the invention

Technical problems based on background technology, the invention proposes a kind of chemical emission processing methods, have and pass through Various ways are handled, and more thorough feature is handled, and are solved existing chemical emission processing and are not thorough, therefore remain a large amount of Harmful substance, the problem of seriously threatening the health of people.

The invention provides the following technical scheme: a kind of chemical emission processing method, includes the following steps:

S1, dedusting: chemical emission being passed through in emission-control equipment and carries out out dirt, is discharged after dedusting；

S2, washing: the chemical emission after dedusting being passed through in emission-control equipment and is washed, and allows exhaust gas and filler table The dynamic cleaning solution of surface current comes into full contact with, to adsorb acidity contained in exhaust gas or alkaline dirt；

S3, absorption: adsorbing being passed through in emission-control equipment by the exhaust gas of washing, organic to containing benezene using active carbon Object is adsorbed, and discharge treated exhaust gas after the completion of absorption, active carbon utilizes heat using regeneration treatment is carried out after a certain period of time Organic matter stripping in active carbon can be come out, then be decomposed organic matter using high temperature；

The emission-control equipment that this method uses includes cabinet, dust-extraction unit, wash mill, adsorption box, battery and control panel, The dust-extraction unit is mounted on the bottom of cabinet wall, and the wash mill is mounted on the inner wall of cabinet and is located at dust-extraction unit Right side, at the top of the box body, the battery is mounted on the left side of cabinet wall, the control panel installation for the adsorption box installation In the side of cabinet and the position of corresponding battery.

Preferably, the dust-extraction unit is made of cyclone dust collectors and dust-collecting box, and the dust-collecting box is mounted on cyclone dust removal The bottom of device is communicated with air inlet pipe on the left of the cyclone dust collectors for collecting dust.

Preferably, the wash mill is made of washer box and spray tank, and the top of the cyclone dust collectors passes through first Appendix is connected to washer box, and the washer box is mounted on the top of spray tank, and the side of the spray tank is connected by perfusion tube It is connected with infusion pump, the infusion pump is connected to by perfusion tube with washer box, and the surface of perfusion tube and the inside for being located at washer box Multiple spray heads are provided with, the spray head is located at the top of washer box.

Preferably, inlet tube is communicated at the top of the side of the spray tank, the bottom of the spray tank side is communicated with Outlet tube, the bottom of the washer box side are communicated with drain pipe, and the surface of the inlet tube, outlet tube and drain pipe is respectively provided with There is valve.

Preferably, the inner wall of the adsorption box is provided with the first web plate, the second web plate and active carbon filling block, the washing Case is connected to by the second appendix with adsorption box, and the active carbon filling block is placed between the first web plate and the second web plate, institute It states and is provided with exhaust outlet at the top of adsorption box.

Preferably, the left side of the adsorption box and position of corresponding active carbon filling block is provided with dismountable first gear The position of plate, the right side of the adsorption box and corresponding active carbon filling block is provided with dismountable second baffle, first net The inclination angle of plate and the second web plate is 5-15 degree.

Preferably, the surface of the control panel is equipped with display screen, the surface of the control panel and is located at display screen Bottom be provided with control button.

The present invention provides a kind of chemical emission processing methods, the dust in exhaust gas can be focused on, discharge It will not influence the quality of air, very energy conservation and environmental protection in an atmosphere, the exhaust gas after dedusting washed by wash mill, from And acidity contained in exhaust gas or alkaline dirt are adsorbed, finally the containing benezene organic matter in exhaust gas is adsorbed, by a variety of Mode is handled, and more thorough feature is handled, and is solved existing chemical emission processing and is not thorough, therefore remains a large amount of harmful Substance, the problem of seriously threatening the health of people.

Detailed description of the invention

Fig. 1 is process flow chart of the invention；

Fig. 2 is the structural schematic diagram for the emission-control equipment that this method uses；

Fig. 3 is dust-extraction unit structural schematic diagram shown in Fig. 2；

Fig. 4 is wash mill structural schematic diagram shown in Fig. 2；

Fig. 5 is adsorption box structural schematic diagram shown in Fig. 2；

Fig. 6 is control panel structural schematic diagram shown in Fig. 2.

In figure: 1 cabinet, 2 dust-extraction units, 3 wash mills, 4 adsorption boxes, 5 batteries, 6 control panels, 7 cyclone dust collectors, 8 Dust-collecting box, 9 air inlet pipe, 10 first appendixs, 11 washer boxs, 12 spray tanks, 13 perfusion tubes, 14 infusion pumps, 15 spray heads, 16 feed liquors Pipe, 17 outlet tubes, 18 drain pipes, 19 second appendixs, 20 first web plates, 21 second web plates, 22 active carbon filling blocks, 23 exhausts Mouth, 24 first baffles, 25 second baffles, 26 display screens, 27 control buttons.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Please refer to Fig. 1-6, the present invention provides a kind of technical solution: a kind of chemical emission processing method includes the following steps:

The emission-control equipment that this method uses includes cabinet 1, dust-extraction unit 2, wash mill 3, adsorption box 4, battery 5 and control Panel 6, dust-extraction unit 2 are mounted on the bottom of 1 inner wall of cabinet, and wash mill 3 is mounted on the inner wall of cabinet 1 and is located at dust-extraction unit 2 right side, adsorption box 4 are mounted on the top of cabinet 1, and battery 5 is mounted on the left side of 1 inner wall of cabinet, and control panel 6 is mounted on case The side of body 1 and the position of corresponding battery 5.

In the present invention, the dust in exhaust gas can be focused on, discharge will not influence the matter of air in an atmosphere Amount, very energy conservation and environmental protection, wash the exhaust gas after dedusting by wash mill 3, to adsorb acidity contained in exhaust gas Or alkaline dirt, finally the containing benezene organic matter in exhaust gas is adsorbed, is handled in several ways, is handled more thorough The characteristics of bottom, solves existing chemical emission processing and is not thorough, therefore remains a large amount of harmful substances, seriously threatens the body of people The problem of body health.

Embodiment one:

Dedusting: chemical emission being passed through in emission-control equipment and carries out out dirt, is discharged after dedusting；

Washing: the chemical emission after dedusting being passed through in emission-control equipment and is washed, and allows exhaust gas and filler surface The cleaning solution of flowing comes into full contact with, to adsorb acidity contained in exhaust gas or alkaline dirt；

Absorption: it is adsorbed being passed through in emission-control equipment by the exhaust gas of washing, using active carbon to containing benezene organic matter It is adsorbed, discharge treated exhaust gas after the completion of absorption, active carbon utilizes thermal energy using regeneration treatment is carried out after a certain period of time Organic matter stripping in active carbon is come out, is then decomposed organic matter using high temperature.

Embodiment two:

The emission-control equipment that this method uses includes cabinet 1, dust-extraction unit 2, wash mill 3, adsorption box 4,5 and of battery Control panel 6, dust-extraction unit 2 are mounted on the bottom of 1 inner wall of cabinet, and wash mill 3 is mounted on the inner wall of cabinet 1 and is located at dedusting The right side of device 2, adsorption box 4 are mounted on the top of cabinet 1, and battery 5 is mounted on the left side of 1 inner wall of cabinet, and control panel 6 is installed In the side of cabinet 1 and the position of corresponding battery 5.

Embodiment three:

The emission-control equipment that this method uses includes cabinet 1, dust-extraction unit 2, wash mill 3, adsorption box 4,5 and of battery Control panel 6, dust-extraction unit 2 are mounted on the bottom of 1 inner wall of cabinet, and wash mill 3 is mounted on the inner wall of cabinet 1 and is located at dedusting The right side of device 2, adsorption box 4 are mounted on the top of cabinet 1, and battery 5 is mounted on the left side of 1 inner wall of cabinet, and control panel 6 is installed In the side of cabinet 1 and the position of corresponding battery 5, dust-extraction unit 2 is made of cyclone dust collectors 7 and dust-collecting box 8, and dust-collecting box 8 is pacified Mounted in the bottom of cyclone dust collectors 7 for collecting dust, the left side of cyclone dust collectors 7 is communicated with air inlet pipe 9.

Example IV:

Wash mill 3 is made of washer box 11 and spray tank 12, the tops of cyclone dust collectors 7 by the first appendix 10 with Washer box 11 is connected to, and washer box 11 is mounted on the top of spray tank 12, and the side of spray tank 12 is communicated with defeated by perfusion tube 13 Liquid pump 14, infusion pump 14 are connected to by perfusion tube 13 with washer box 11, and the surface of perfusion tube 13 and positioned at the interior of washer box 11 Portion is provided with multiple spray heads 15, and spray head 15 is located at the top of washer box 11, is communicated with inlet tube at the top of the side of spray tank 12 16, the bottom of 12 side of spray tank is communicated with outlet tube 17, and the bottom of 11 side of washer box is communicated with drain pipe 18, inlet tube 16, the surface of outlet tube 17 and drain pipe 18 is provided with valve.

Embodiment five:

The inner wall of adsorption box 4 is provided with the first web plate 20, the second web plate 21 and active carbon filling block 22, washer box 11 and passes through Second appendix 19 is connected to adsorption box 4, and active carbon filling block 22 is placed between the first web plate 20 and the second web plate 21, absorption The top of case 4 is provided with exhaust outlet 23.

Embodiment six:

The inner wall of adsorption box 4 is provided with the first web plate 20, the second web plate 21 and active carbon filling block 22, washer box 11 and passes through Second appendix 19 is connected to adsorption box 4, and active carbon filling block 22 is placed between the first web plate 20 and the second web plate 21, absorption The top of case 4 is provided with exhaust outlet 23,

The left side of the adsorption box 4 and position of corresponding active carbon filling block 22 is provided with dismountable first baffle 24, adsorption box 4 The right side and position of corresponding active carbon filling block 22 is provided with dismountable second baffle 25, the first web plate 20 and the second web plate 21 Inclination angle be 5-15 degree.

Embodiment seven:

The emission-control equipment that this method uses includes cabinet 1, dust-extraction unit 2, wash mill 3, adsorption box 4,5 and of battery Control panel 6, dust-extraction unit 2 are mounted on the bottom of 1 inner wall of cabinet, and wash mill 3 is mounted on the inner wall of cabinet 1 and is located at dedusting The right side of device 2, adsorption box 4 are mounted on the top of cabinet 1, and battery 5 is mounted on the left side of 1 inner wall of cabinet, and control panel 6 is installed In the side of cabinet 1 and the position of corresponding battery 5, dust-extraction unit 2 is made of cyclone dust collectors 7 and dust-collecting box 8, and dust-collecting box 8 is pacified Mounted in the bottom of cyclone dust collectors 7 for collecting dust, the left side of cyclone dust collectors 7 is communicated with air inlet pipe 9, control panel 6 Surface is equipped with display screen 26, the surface of the control panel 6 and bottom for being located at display screen 26 is provided with control button 27.

The inner wall of adsorption box 4 is provided with the first web plate 20, the second web plate 21 and active carbon filling block 22, washer box 11 and passes through Second appendix 19 is connected to adsorption box 4, and active carbon filling block 22 is placed between the first web plate 20 and the second web plate 21, absorption The top of case 4 is provided with exhaust outlet 23, and the position of the left side of adsorption box 4 and corresponding active carbon filling block 22 is provided with removably The position of first baffle 24, the right side of adsorption box 4 and corresponding active carbon filling block 22 is provided with dismountable second baffle 25, the The inclination angle of one web plate 20 and the second web plate 21 is 5-15 degree.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims

1. a kind of chemical emission processing method, characterized by the following steps:

The emission-control equipment that this method uses includes cabinet (1), dust-extraction unit (2), wash mill (3), adsorption box (4), electricity Pond (5) and control panel (6), the dust-extraction unit (2) are mounted on the bottom of cabinet (1) inner wall, wash mill (3) installation Inner wall in cabinet (1) and the right side positioned at dust-extraction unit (2), the adsorption box (4) is mounted on the top of cabinet (1), described Battery (5) is mounted on the left side of cabinet (1) inner wall, and the control panel (6) is mounted on the side of cabinet (1) and corresponding battery (5) position.

2. a kind of chemical emission processing method according to claim 1, it is characterised in that: the dust-extraction unit (2) is by revolving Wind deduster (7) and dust-collecting box (8) composition, the dust-collecting box (8) are mounted on the bottom of cyclone dust collectors (7) for collecting ash Dirt is communicated with air inlet pipe (9) on the left of the cyclone dust collectors (7).

3. a kind of chemical emission processing method according to claim 2, it is characterised in that: the wash mill (3) is by washing Case (11) and spray tank (12) composition are washed, the top of the cyclone dust collectors (7) passes through the first appendix (10) and washer box (11) it is connected to, the washer box (11) is mounted on the top of spray tank (12), and the side of the spray tank (12) passes through perfusion tube (13) it is communicated with infusion pump (14), the infusion pump (14) is connected to by perfusion tube (13) with washer box (11), and perfusion tube (13) surface and being internally provided with multiple spray heads (15) positioned at washer box (11), the spray head (15) is located at washer box (11) Top.

4. a kind of chemical emission processing method according to claim 3, it is characterised in that: the side of the spray tank (12) Top be communicated with inlet tube (16), the bottom of spray tank (12) side is communicated with outlet tube (17), the washer box (11) bottom of side is communicated with drain pipe (18), and the surface of the inlet tube (16), outlet tube (17) and drain pipe (18) is equal It is provided with valve.

5. a kind of chemical emission processing method according to claim 4, it is characterised in that: the inner wall of the adsorption box (4) It is provided with the first web plate (20), the second web plate (21) and active carbon filling block (22), the washer box (11) passes through the second gas transmission Pipe (19) is connected to adsorption box (4), the active carbon filling block (22) be placed on the first web plate (20) and the second web plate (21) it Between, exhaust outlet (23) are provided at the top of the adsorption box (4).

6. a kind of chemical emission processing method according to claim 5, it is characterised in that: the left side of the adsorption box (4) And the position of corresponding active carbon filling block (22) is provided with dismountable first baffle (24), the right side of the adsorption box (4) and The position of corresponding active carbon filling block (22) is provided with dismountable second baffle (25), first web plate (20) and the second net The inclination angle of plate (21) is 5-15 degree.

7. a kind of chemical emission processing method according to claim 1, it is characterised in that: the table of the control panel (6) Face is equipped with display screen (26), the surface of the control panel (6) and be located at display screen (26) bottom be provided with control button (27).