CN113289459B - Organic waste gas treatment method and system - Google Patents

Abstract

The invention discloses an organic waste gas treatment system, which comprises a treatment tank, a nano-bubble generating device and a gas-liquid mixing pump, wherein an air inlet connecting pipe is fixedly arranged in the middle of the top end of the treatment tank; can disperse exhaust organic waste gas through the bottom fixed mounting at air inlet connecting pipe dispersion air-out device to improve the contact probability of pollutant in the organic waste gas and shower head spun water droplet.

Description

Organic waste gas treatment method and system

Technical Field

The invention relates to the technical field of waste gas treatment, in particular to an organic waste gas treatment method and system.

Background

The organic waste gas treatment refers to the treatment work of adsorption, filtration and purification of organic waste gas generated in the industrial production process. The organic waste gas treatment is generally carried out by an air purification treatment method of organic substances containing carbon, hydrogen and oxygen, such as formaldehyde organic waste gas treatment, benzene series organic waste gas treatment such as benzene toluene xylene, acetone butanone organic waste gas treatment, ethyl acetate waste gas treatment, oil mist organic waste gas treatment, furfural organic waste gas treatment, styrene and acrylic acid organic waste gas treatment, resin organic waste gas treatment, additive organic waste gas treatment, paint mist organic waste gas treatment, and Tianna water organic waste gas treatment.

Through patent search, there are known prior art solutions as follows:

chinese patent publication No. CN 108392961A, application date: 2018.03.27, application publication date: 2018.08.14. the invention discloses a method and a system for treating nano-bubble organic waste gas. The nano-bubble organic waste gas treatment system comprises a water tank, wherein nano solid particles with a bubble stabilizing function are added into water in the water tank. The nano-bubble organic waste gas treatment system disclosed by the invention is low in cost and long in service cycle, utilizes the characteristics of nano-bubbles to break up organic pollutant polymeric molecular groups, and quickly oxidizes and decomposes and degrades organic waste gas by generating free radical ions, so that the derived waste is simple to treat, has no secondary pollution, and is suitable for treating various organic matters, such as waste gas of ethyl acetate, toluenes, trimethylamine, methyl sulfide and the like.

But this equipment is direct discharges organic waste gas to pond surface through the connecting pipe when using to spray water on organic waste gas through the shower head and adsorb the pollutant in the organic waste gas, because the exhaust gas of connecting pipe spun is comparatively concentrated, lead to the water droplet that the organic waste gas far away apart from the shower head contacted less, thereby lead to partial pollutant can't be squeezed into in the pond, get rid of the effect of the pollutant in the organic waste gas not good.

Therefore, it is necessary to provide a method and a system for treating organic waste gas to solve the above technical problems.

Disclosure of Invention

The present invention provides a method and a system for treating organic waste gas, which are used to solve the problem of poor dispersion effect of organic waste gas when the organic waste gas is treated by the conventional organic waste gas treatment system in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an organic waste gas treatment system, includes treatment tank and nanometer bubble generating device, the middle part fixed mounting on treatment tank top has the air inlet connecting pipe, nanometer bubble generating device's output fixedly connected with aeration head, the aeration head is located the bottom of treatment tank inner chamber, the bottom fixed mounting of air inlet connecting pipe has dispersion air-out device, dispersion air-out device is used for discharging after the waste gas dispersion that will pour into through the mode of reposition of redundant personnel.

During the specific use, can disperse exhaust organic waste gas through the bottom fixed mounting at air inlet connecting pipe dispersion air-out device to improve the contact probability of pollutant and shower head spun water droplet among the organic waste gas, thereby improve exhaust-gas treatment efficiency.

As a further scheme of the invention, the organic waste gas treatment system further comprises a gas-liquid mixing pump, a water tank is fixedly mounted at the top of an inner cavity of the treatment tank, an output end of the gas-liquid mixing pump is fixedly connected with a spray pipeline, the spray pipeline is communicated with the water tank, a plurality of spray headers are fixedly mounted at the bottom end of the water tank, an air inlet channel and an air outlet channel are arranged on the water tank, the air inlet connecting pipe penetrates through the air inlet channel, an air outlet connecting pipe is fixedly mounted at one side of the top end of the treatment tank, and the bottom end of the air outlet connecting pipe is positioned between the water tank and the top wall of the treatment tank

When the device is used specifically, firstly, water is injected into the inner cavity of the treatment tank, then the nano bubble generating device is opened, nano bubbles generated by the nano bubble generating device are dispersed in water through the aeration head, organic waste gas is injected into the air inlet connecting pipe through the air inlet pipeline, then organic waste gas is dispersed and sprayed out through the dispersed air outlet device, the gas-liquid mixing pump is opened, the gas-liquid mixing pump dissolves air into the water, the dissolved air water is pumped into the water tank through the spraying pipeline, the dissolved air water in the water tank is sprayed out through the spraying head, water drops sprayed out by the spraying head adsorb pollutants in the organic waste gas and then fall into the water, the organic pollutants are degraded through the nano bubbles in the water, the gas for removing the pollutants is discharged through the air outlet channel and the air outlet pipeline, the air outlet channel is arranged in the water tank, because the temperature of the water in the water tank is low, and the temperature of the waste gas is high, the condensation effect can be realized when the waste gas is discharged through the air outlet channel, the water vapor in the waste gas can be condensed and flows into the inner cavity at the bottom of the treatment tank, the dispersed organic waste gas can be dispersed by fixedly arranging the dispersed air outlet device at the bottom end of the air inlet of the connecting pipe, thereby, the water drops, the treatment efficiency is improved.

As a further scheme of the invention, the dispersed air outlet device comprises a cylinder and air outlet nozzles, wherein an air inlet is formed in the top end of the cylinder, the air inlet is fixedly connected with the bottom end of the air inlet connecting pipe, a plurality of air outlet nozzles are fixedly installed on the outer wall of the cylinder, an included angle between the axis of each air outlet nozzle and the tangent line of the outer wall of the cylinder where the air outlet nozzle is located is an acute angle, the included angle is preferably 60 degrees, and the air outlet nozzles are arranged in a plurality of horizontal planes.

When specifically using, the organic waste gas that the air inlet connecting pipe poured into through the air intake entering drum in, then spout through the air outlet nozzle, can disperse organic waste gas through setting up a plurality of air outlet nozzles, set up to the acute angle through the axis with the air outlet nozzle and the tangent line contained angle of the drum outer wall at this air outlet nozzle place for can be rotatory in handling the jar through air outlet nozzle spun waste gas, through setting up the air outlet nozzle in a plurality of horizontal planes, make organic waste gas can disperse on a plurality of horizontal planes.

As a further scheme of the invention, the bottom wall of the spray head is provided with a plurality of water outlet holes, an inner cavity of the spray head is provided with an anti-blocking mechanism, the anti-blocking mechanism comprises a support frame, an elastic supporting device and a cleaning device, the support frame is elastically connected with the inner wall of the spray head through the elastic supporting device, the bottom end of the support frame is provided with a plurality of cleaning devices, the cleaning device comprises a connecting column and a top column, the connecting column is arranged at the bottom end of the support frame, the bottom end of the connecting column is fixedly provided with the top column, the top column is positioned in the water outlet holes when the gas-liquid mixing pump is not operated, and the top column is positioned below the water outlet holes when the gas-liquid mixing pump is operated.

When specifically using, when spraying, under hydraulic effect, the support frame is the downshifting, the support frame passes through the spliced pole and drives the fore-set downshifting, make the fore-set and apopore separation, water passes through the apopore blowout, when not spraying, under elastic support device's elastic force effect, the support frame rebound, the fore-set inserts gradually in the apopore, thereby dredge the apopore that will be blockked up and open, the apopore that can avoid the shower head through preventing blockking up the mechanism is blockked up, and the spun water droplet is beated and can be dispersed on the fore-set, can improve the contact probability of the discarded object in water droplet and the organic waste gas after opening the water droplet.

As a further scheme of the invention, the top end of the connecting column is rotatably connected with the bottom wall of the support frame, and a driving impeller is fixedly mounted on the connecting column.

During the specific use, under the effect of rivers, the drive impeller rotates to it is rotatory to drive the fore-set through the spliced pole, and the fore-set is rotatory back, and the water droplet that falls to the fore-set surface can fly the splash, makes the dispersion effect of water droplet better.

As a further scheme of the invention, the support frame comprises a plurality of circular rings and a plurality of beam frames, the radiuses of the circular rings are different, the circular rings are concentrically arranged in a plane, and the adjacent circular rings are fixedly connected through the beam frames.

When specifically using, spliced pole fixed mounting is in the bottom of ring, and rivers can flow downwards through the clearance between the ring when spraying, and simultaneously, the effort of rivers impact on the ring makes the ring can move down to drive the fore-set through the spliced pole and move down.

As a further scheme of the invention, the elastic supporting device comprises a supporting seat, a guide pillar, a supporting spring and a limiting cap, the supporting seat is fixedly mounted on the inner wall of the spray header, the top end of the guide pillar is fixedly connected with the bottom wall of the supporting frame, the guide pillar penetrates through the upper and lower walls of the supporting seat and is in sliding connection with the supporting seat, the supporting spring is sleeved on the guide pillar, the supporting spring is located between the supporting seat and the supporting frame, and the limiting cap is fixedly mounted at the bottom end of the guide pillar.

When the elastic support device is used specifically, the support frame is supported through the elastic support device, when the support frame moves downwards, the guide pillar slides downwards relative to the support base, the support spring is compressed, and when the support spring is not sprayed, the support frame moves upwards to reset under the elastic action of the support spring.

As a further scheme of the invention, the air outlet channels are arranged in a plurality, the air outlet channels are distributed in an annular array by taking the axis of the air inlet channel as the array center, and the spray headers are uniformly distributed on two sides of the bottom opening of the air outlet channel.

During specific use, through setting up a plurality of air-out passageways for the waste gas after the processing can flow out through a plurality of air-out passageways, disperses waste gas under the effect of a plurality of air-out airflows, and can make waste gas finally collect the below at the air-out passageway.

As a further scheme of the invention, the organic waste gas treatment system further comprises an air inlet pipeline and an air outlet pipeline, the top end of the air inlet connecting pipe is fixedly connected with the air outlet end of the air inlet pipeline, the top end of the air outlet connecting pipe is fixedly connected with the air inlet end of the air outlet pipeline, and the air outlet end of the air outlet pipeline is connected with a fan.

When the device is used specifically, organic waste gas generated in a factory is injected into the air inlet connecting pipe through the air inlet pipeline, and the treated organic waste gas is discharged through the air outlet pipeline under the action of the fan.

As a further scheme of the invention, a fixed cover is fixedly mounted at the top end of the air outlet channel, an air outlet hole is formed in the top wall of the fixed cover, a stirring shaft is rotatably mounted at the bottom end of the fixed cover, fan blades are fixedly mounted on the stirring shaft and positioned in the fixed cover, the bottom end of the stirring shaft is rotatably connected with the bottom wall of the treatment tank through a bearing, and a stirring impeller is fixedly mounted on the stirring shaft and positioned at the bottom of the inner cavity of the treatment tank.

During the specific use, under the effect of air current, the fan rotates to it is rotatory to drive impeller through the (mixing) shaft, stirs the water of both sides when impeller is rotatory, makes the water that the central point put shift to limit portion, thereby shifts limit portion with the nanobubble, thereby improves the nanobubble density in the region of keeping away from the aeration head, has improved the organic matter degradation speed in this region.

A method for treating organic waste gas by adopting the organic waste gas treatment system comprises the following steps:

s1, injecting water into an inner cavity of a treatment tank, then opening a nano bubble generating device, and dispersing nano bubbles generated by the nano bubble generating device in the water through an aerator;

s2, injecting organic waste gas into the air inlet connecting pipe through an air inlet pipeline, and then dispersedly ejecting the organic waste gas through a dispersive air outlet device;

s3, opening a gas-liquid mixing pump, dissolving air into water by the gas-liquid mixing pump, pumping the water-dissolved air into a water tank through a spraying pipeline, spraying the water-dissolved air in the water tank through a spraying head, adsorbing pollutants in the organic waste gas by water drops sprayed by the spraying head, then dropping the water drops into the water, and degrading the organic pollutants by nano bubbles in the water;

and S4, discharging the gas with the pollutants removed through an air outlet channel and an air outlet pipeline.

According to the organic waste gas treatment method and system, the dispersed air outlet device is fixedly installed at the bottom end of the air inlet connecting pipe, so that the discharged organic waste gas can be dispersed, and the dispersed organic waste gas is discharged outwards in a multi-strand airflow manner, so that the contact probability of pollutants in the organic waste gas and sprayed water drops is improved, and the waste gas treatment efficiency is improved.

Drawings

The invention is further illustrated by the following examples in conjunction with the drawings.

FIG. 1 is a schematic three-dimensional structure of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic sectional view of a treatment tank of the present invention;

FIG. 4 is an enlarged schematic view of FIG. 3 at A according to the present invention;

FIG. 5 is a schematic cross-sectional view of a showerhead according to the present invention;

FIG. 6 is an enlarged view of the structure at B in FIG. 5;

FIG. 7 is a schematic three-dimensional view of the anti-jamming mechanism of the present invention;

FIG. 8 is a schematic top view of the water tank of the present invention;

fig. 9 is a schematic three-dimensional structure diagram of the dispersion air outlet device of the present invention;

fig. 10 is a schematic top view of the dispersed air outlet device of the present invention.

In the figure: 1. a treatment tank; 101. an air inlet connecting pipe; 102. an air outlet connecting pipe; 2. an air inlet pipeline; 3. an air outlet pipeline; 4. a nano bubble generating device; 5. an aeration head; 6. a water tank; 601. an air inlet channel; 602. an air outlet channel; 7. a dispersed air outlet device; 701. a cylinder; 702. an air outlet nozzle; 703. an air inlet; 8. a shower head; 801. a water outlet hole; 9. an anti-clogging mechanism; 91. a support frame; 911. a circular ring; 912. a beam frame; 92. an elastic support device; 921. a supporting base; 922. a guide post; 923. a support spring; 924. a limiting cap; 93. a cleaning device; 931. connecting columns; 932. a drive impeller; 933. a top pillar; 10. a spray pipe; 11. a gas-liquid mixing pump; 12. a fixed cover; 121. an air outlet; 13. a fan blade; 14. a stirring shaft; 15. the impeller is stirred.

Detailed Description

As shown in fig. 1 to 3, an organic waste gas treatment system includes a treatment tank 1, a nano bubble generating device 4 and a gas-liquid mixing pump 11, wherein an air inlet connecting pipe 101 is fixedly installed in the middle of the top end of the treatment tank 1, an air outlet connecting pipe 102 is fixedly installed on one side of the top end of the treatment tank 1, an output end of the nano bubble generating device 4 is fixedly connected with an aeration head 5, the aeration head 5 is located at the bottom of an inner cavity of the treatment tank 1, a water tank 6 is fixedly installed at the top of the inner cavity of the treatment tank 1, the bottom end of the air outlet connecting pipe 102 is located between the water tank 6 and the top wall of the treatment tank 1, an output end of the gas-liquid mixing pump 11 is fixedly connected with a spray pipe 10, the spray pipe 10 is communicated with the water tank 6, a plurality of spray heads 8 are fixedly installed at the bottom end of the water tank 6, an air inlet channel 601 and an air outlet channel 602 are arranged on the water tank 6, the air inlet connecting pipe 101 penetrates through the air inlet channel 601, and a dispersed air outlet device 7 is fixedly installed at the bottom end of the air inlet connecting pipe 101.

When the device is used specifically, firstly, water is injected into the inner cavity of the treatment tank 1, then the nano bubble generating device 4 is opened, nano bubbles generated by the nano bubble generating device 4 are dispersed in water through the aeration head 5, organic waste gas is injected into the air inlet connecting pipe 101 through the air inlet pipeline 2, then the organic waste gas is dispersed and sprayed out through the dispersed air outlet device 7, the gas-liquid mixing pump 11 is opened, the gas-liquid mixing pump 11 dissolves air into the water, the dissolved air water is pumped into the water tank 6 through the spraying pipeline 10, the dissolved air water in the water tank 6 is sprayed out through the spraying head 8, water drops sprayed out by the spraying head 8 absorb pollutants in the organic waste gas and then fall into the water, the organic pollutants are degraded through the nano bubbles in the water, the gas with the pollutants removed is discharged through the air outlet channel 602 and the air outlet pipeline 3, the air outlet channel 602 is arranged in the water tank 6, because of the lower water temperature in the water tank 6 and the temperature of the waste gas is higher, the waste gas can be condensed when the waste gas is discharged through the air outlet channel 602, the waste gas can be condensed and flow into the inner cavity of the treatment tank 1, the water drops can be fully condensed, and the water drops sprayed out of the waste gas, and the waste gas can be better mixed with the water drops, and the water drops with the organic waste gas sprayed out effect of the waste gas can be fully improved.

As shown in fig. 9 and 10, the dispersion air outlet device 7 includes a cylinder 701 and air outlets 702, an air inlet 703 is disposed at the top end of the cylinder 701, the air inlet 703 is fixedly connected to the bottom end of the air inlet connecting pipe 101, a plurality of air outlets 702 are fixedly mounted on the outer wall of the cylinder 701, an included angle between the axis of the air outlet 702 and the tangent line of the outer wall of the cylinder 701 where the air outlet 702 is located is an acute angle, the included angle is preferably 60 °, and the air outlets 702 are disposed in a plurality of horizontal planes.

During the specific use, the organic waste gas that air inlet connecting pipe 101 injected into gets into in the drum 701 through air intake 703, then spout through tuyere 702, can disperse organic waste gas through setting up a plurality of tuyeres 702, the tangent line contained angle through the axis with tuyere 702 and the drum 701 outer wall at this tuyere 702 place sets up to the acute angle, make can be at 1 internal rotation of treatment jar through tuyere 702 spun waste gas, the contact probability of organic waste gas with the water droplet has further been improved, through setting up tuyere 702 in a plurality of horizontal planes, make organic waste gas can disperse on a plurality of horizontal planes, the dispersion effect has further been improved.

As shown in fig. 5 to 7, a plurality of water outlets 801 are formed in the bottom wall of the shower head 8, the inner cavity of the shower head 8 is provided with an anti-clogging mechanism 9, the anti-clogging mechanism 9 includes a support frame 91, an elastic supporting device 92 and a cleaning device 93, the support frame 91 is elastically connected to the inner wall of the shower head 8 through the elastic supporting device 92, the bottom end of the support frame 91 is provided with a plurality of cleaning devices 93, the cleaning devices 93 include a connecting column 931 and a top column 933, the connecting column 931 is arranged at the bottom end of the support frame 91, the bottom end of the connecting column 931 is fixedly provided with a top column 933, the top column 933 is located in the water outlets 801 when the gas-liquid mixing pump 11 is not operated, and the top column 933 is located below the water outlets 801 when the gas-liquid mixing pump 11 is operated.

During specific use, during research, we find that organic waste gas contains some impurities, the impurities easily block the water outlet 801 of the spray head 8, and therefore the anti-blocking mechanism 9 is arranged, during spraying, under the action of water pressure, the support frame 91 moves downwards, the support frame 91 drives the top column 933 to move downwards through the connecting column 931, so that the top column 933 is separated from the water outlet 801, water is sprayed out through the water outlet 801, when not spraying, under the elastic action of the elastic supporting device 92, the support frame 91 moves upwards, the top column 933 is gradually inserted into the water outlet 801, so that the blocked water outlet 801 is dredged, the blockage of the water outlet 801 of the spray head 8 can be avoided through the anti-blocking mechanism 9, and sprayed water drops can be dispersed when hitting the top column 933, the contact probability of the water drops with waste in the organic waste gas can be improved after the water drops are dispersed, and the waste gas treatment efficiency is further improved.

As shown in fig. 7, the top end of the connecting column 931 is rotatably connected to the bottom wall of the supporting frame 91, and a driving impeller 932 is fixedly mounted on the connecting column 931.

During the specific use, under the effect of rivers, drive impeller 932 rotates to it is rotatory to drive fore-set 933 through spliced pole 931, and after the fore-set 933 is rotatory, the water droplet that falls to the fore-set 933 surface can fly away the splash, makes the dispersion effect of water droplet better, has further improved the contact probability of the discarded object in water droplet and the organic waste gas, and exhaust-gas treatment effect is better.

As shown in fig. 7, the supporting frame 91 comprises a plurality of rings 911 and a plurality of beam mounts 912, wherein the radii of the plurality of rings 911 are different, the plurality of rings 911 are concentrically arranged in a plane, and adjacent rings 911 are fixedly connected through the beam mounts 912.

During the specific use, spliced pole 931 fixed mounting is in the bottom of ring 911, and rivers can flow downwards through the clearance between the ring 911 when spraying, and simultaneously, the effort of rivers impact on ring 911 makes ring 911 can move downwards to drive the top post 933 through spliced pole 931 and move downwards.

As shown in fig. 6, the elastic supporting device 92 includes a supporting seat 921, a guide pillar 922, a supporting spring 923 and a limiting cap 924, the supporting seat 921 is fixedly mounted on the inner wall of the shower head 8, the top end of the guide pillar 922 is fixedly connected with the bottom wall of the supporting frame 91, the guide pillar 922 penetrates through the upper and lower walls of the supporting seat 921, the guide pillar 922 is slidably connected with the supporting seat 921, the supporting spring 923 is sleeved on the guide pillar 922, the supporting spring 923 is located between the supporting seat 921 and the supporting frame 91, and the limiting cap 924 is fixedly mounted at the bottom end of the guide pillar 922.

During the specific use, support 91 through elastic supporting device 92, when support 91 moves down, guide pillar 922 slides downwards relative supporting seat 921, and supporting spring 923 compresses, and when not spraying, under supporting spring 923's spring action, support 91 rebound resets, can carry on spacingly to guide pillar 922 through spacing cap 924, prevents that guide pillar 922 and supporting seat 921 from separating.

As shown in fig. 3 and 8, the air outlet channel 602 is provided with a plurality of air outlet channels 602, and the plurality of air outlet channels 602 are distributed in an annular array by taking the axis of the air inlet channel 601 as the array center, and the shower heads 8 are uniformly distributed on two sides of the bottom opening of the air outlet channel 602.

During the specific use, through setting up a plurality of air-out passageways 602, make the waste gas after the processing flow out through a plurality of air-out passageways 602, disperse waste gas under the effect of a plurality of air-out airflows, and can make waste gas finally collect in the below of air-out passageway 602, through the bottom opening both sides with 8 evenly distributed showerheads at air-out passageway 602, make the water droplet of air-out passageway 602 below more, can be better handle the waste gas that is about to get into air-out passageway 602.

As shown in fig. 1, the organic waste gas treatment system further includes an air inlet pipeline 2 and an air outlet pipeline 3, the top end of the air inlet connecting pipe 101 is fixedly connected with the air outlet end of the air inlet pipeline 2, the top end of the air outlet connecting pipe 102 is fixedly connected with the air inlet end of the air outlet pipeline 3, and the air outlet end of the air outlet pipeline 3 is connected with a fan.

When the device is used specifically, organic waste gas generated in a factory is injected into the air inlet connecting pipe 101 through the air inlet pipeline 2, and the treated organic waste gas is discharged through the air outlet pipeline 3 under the action of the fan.

As shown in fig. 3 and fig. 4, the top fixed mounting of air-out passageway 602 has fixed cover 12, exhaust vent 121 has been seted up to the roof of fixed cover 12, the bottom of fixed cover 12 is rotated and is installed (mixing) shaft 14, fixed mounting has flabellum 13 on the (mixing) shaft 14, flabellum 13 is located fixed cover 12, the bottom of (mixing) shaft 14 is passed through the bearing and is connected with the diapire rotation of processing jar 1, fixed mounting has impeller 15 on the (mixing) shaft 14, impeller 15 is located the bottom of processing jar 1 inner chamber.

During specific use, we find during the use, because the nanometer bubble that aeration head 5 produced gives off for some, lead to keeping away from aeration head 5 regional nanometer bubble's density lower, make this regional organic matter degradation effect relatively poor, stirring shaft 14 has consequently been set up, under the effect of air current, the fan rotates, thereby it is rotatory to drive impeller 15 through stirring shaft 14, stir the water of both sides when impeller 15 is rotatory, make the water of central point position shift to limit portion, thereby shift nanometer bubble to limit portion, thereby improve the nanometer bubble density in the region of keeping away from aeration head 5, the organic matter degradation speed in this region has been improved.

A method for treating organic waste gas by adopting the organic waste gas treatment system comprises the following steps:

s1, injecting water into an inner cavity of a treatment tank 1, then opening a nano bubble generating device 4, and dispersing nano bubbles generated by the nano bubble generating device 4 into the water through an aerator 5;

s2, injecting organic waste gas into an air inlet connecting pipe 101 through an air inlet pipeline 2, and then dispersedly spraying out the organic waste gas through a dispersive air outlet device 7;

s3, opening a gas-liquid mixing pump 11, dissolving air into water by the gas-liquid mixing pump 11, pumping the gas-dissolved water into a water tank 6 through a spraying pipeline 10, spraying the gas-dissolved water in the water tank 6 through a spraying head 8, enabling water drops sprayed by the spraying head 8 to absorb pollutants in the organic waste gas and then fall into the water, and degrading the organic pollutants through nano bubbles in the water;

s4, discharging the gas with the pollutants removed through the air outlet channel 602 and the air outlet pipeline 3.

The working principle is as follows: firstly, injecting water into the inner cavity of a treatment tank 1, then opening a nano-bubble generating device 4, dispersing nano-bubbles generated by the nano-bubble generating device 4 in water through an aeration head 5, injecting organic waste gas into an air inlet connecting pipe 101 through an air inlet pipeline 2, then dispersing and spraying the organic waste gas through a dispersing and air outlet device 7, opening a gas-liquid mixing pump 11, dissolving air into the water through the gas-liquid mixing pump 11, pumping the dissolved air water into a water tank 6 through a spraying pipeline 10, spraying the dissolved air water in the water tank 6 through a spraying head 8, enabling water drops sprayed by the spraying head 8 to fall into the water after adsorbing pollutants in the organic waste gas, degrading the organic pollutants through the nano-bubbles in the water, and discharging the gas without the pollutants through an air outlet channel 602 and an air outlet pipeline 3, during the spraying, under hydraulic effect, support frame 91 moves down, support frame 91 drives fore-set 933 downstream through spliced pole 931, make fore-set 933 and apopore 801 separation, water passes through apopore 801 blowout, and simultaneously, under the effect of rivers, drive impeller 932 rotates, thereby it is rotatory to drive fore-set 933 through spliced pole 931, after the fore-set 933 is rotatory, the water droplet that falls to the fore-set 933 surface can fly away, make the dispersion effect of water droplet better, the contact probability of the discarded object in water droplet and the organic waste gas has further been improved, when not spraying, under elastic supporting device 92's elasticity effect, support frame 91 rebound, the fore-set 933 inserts in the apopore 801 gradually, thereby the 801 mediation apopore that will be blockked up is opened.

Claims (7)

1. The utility model provides an organic waste gas treatment system, includes treatment tank and nanobubble generating device, its characterized in that: an air inlet connecting pipe is fixedly installed in the middle of the top end of the treatment tank, an aeration head is fixedly connected to the output end of the nano bubble generating device, the aeration head is located at the bottom of the inner cavity of the treatment tank, a dispersing air outlet device is fixedly installed at the bottom end of the air inlet connecting pipe, and the dispersing air outlet device is used for dispersing injected waste gas in a shunting manner and then discharging the waste gas;

the organic waste gas treatment system also comprises a gas-liquid mixing pump, a water tank is fixedly mounted at the top of the inner cavity of the treatment tank, a spray pipeline is fixedly connected to the output end of the gas-liquid mixing pump and communicated with the water tank, a plurality of spray heads are fixedly mounted at the bottom end of the water tank, an air inlet channel and an air outlet channel are arranged on the water tank, the air inlet connecting pipe penetrates through the air inlet channel, an air outlet connecting pipe is fixedly mounted at one side of the top end of the treatment tank, and the bottom end of the air outlet connecting pipe is positioned between the water tank and the top wall of the treatment tank;

the bottom wall of the spray head is provided with a plurality of water outlet holes, an inner cavity of the spray head is provided with an anti-blocking mechanism, the anti-blocking mechanism comprises a support frame, an elastic supporting device and a cleaning device, the support frame is elastically connected with the inner wall of the spray head through the elastic supporting device, the bottom end of the support frame is provided with a plurality of cleaning devices, each cleaning device comprises a connecting column and a top column, the connecting column is arranged at the bottom end of the support frame, the top column is fixedly arranged at the bottom end of the connecting column, the top column is positioned in the water outlet holes when the gas-liquid mixing pump is not operated, and the top column is positioned below the water outlet holes when the gas-liquid mixing pump is operated;

the support frame drives the ejection column to move downwards through the connecting column, so that the ejection column is separated from the water outlet hole, water is ejected out through the water outlet hole, when the water is not sprayed, the support frame moves upwards under the elastic action of the elastic support device, the ejection column is gradually inserted into the water outlet hole, the blocked water outlet hole is dredged, and the ejected water drops are sprayed on the ejection column for dispersion;

the top of spliced pole with the diapire of support frame rotates to be connected, fixed mounting has the drive impeller on the spliced pole.

2. The organic waste gas treatment system according to claim 1, wherein: the dispersion air-out device includes drum and air outlet nozzle, the air intake has been seted up on the top of drum, the bottom fixed connection of air intake and air inlet connecting pipe, the outer wall fixed mounting of drum has a plurality of air outlet nozzle, the axis of air outlet nozzle and the tangent line contained angle of the drum outer wall at this air outlet nozzle place are the acute angle.

3. The organic waste gas treatment system according to claim 1, wherein: the support frame includes a plurality of ring and a plurality of roof beam structure, a plurality of ring radius diverse, and a plurality of the ring sets up in a plane with one heart, and is adjacent the ring passes through roof beam structure fixed connection.

4. The organic waste gas treatment system according to claim 1, wherein: the elastic supporting device comprises a supporting seat, a guide pillar, a supporting spring and a limiting cap, the supporting seat is fixedly installed on the inner wall of the spray header, the top end of the guide pillar is fixedly connected with the bottom wall of the supporting frame, the guide pillar penetrates through the upper wall and the lower wall of the supporting seat, the guide pillar is in sliding connection with the supporting seat, the supporting spring is sleeved on the guide pillar and located between the supporting seat and the supporting frame, and the limiting cap is fixedly installed at the bottom end of the guide pillar.

5. The organic waste gas treatment system according to claim 1, wherein: the air outlet channel is provided with a plurality of air outlet channels, the air outlet channels are distributed in an annular array mode by taking the axis of the air inlet channel as the array center, and the spray headers are evenly distributed on two sides of the bottom opening of the air outlet channel.

6. The organic waste gas treatment system according to claim 1, wherein: the organic waste gas treatment system further comprises an air inlet pipeline and an air outlet pipeline, the top end of the air inlet connecting pipe is fixedly connected with the air outlet end of the air inlet pipeline, the top end of the air outlet connecting pipe is fixedly connected with the air inlet end of the air outlet pipeline, and the air outlet end of the air outlet pipeline is connected with a fan.

7. A method for treating an organic exhaust gas using the organic exhaust gas treatment system according to any one of claims 1 to 6, comprising the steps of:

s1, injecting water into an inner cavity of a treatment tank, then opening a nano bubble generating device, and dispersing nano bubbles generated by the nano bubble generating device into the water through an aerator;

s2, injecting organic waste gas into the air inlet connecting pipe through an air inlet pipeline, and then dispersedly ejecting the organic waste gas through a dispersive air outlet device;

s3, opening a gas-liquid mixing pump, dissolving air into water by the gas-liquid mixing pump, pumping the water-dissolved air into a water tank through a spraying pipeline, spraying the water-dissolved air in the water tank through a spraying head, adsorbing pollutants in the organic waste gas by water drops sprayed by the spraying head, then dropping the water drops into the water, and degrading the organic pollutants by nano bubbles in the water;

and S4, discharging the gas with the pollutants removed through an air outlet channel and an air outlet pipeline.

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