CN110772965B - Environment-friendly waste gas treatment process and device thereof - Google Patents

Abstract

The invention relates to the technical field of waste gas treatment, and particularly discloses an environment-friendly waste gas treatment process and a device thereof, wherein the environment-friendly waste gas treatment process comprises an integrally cylindrical waste gas treatment pipe, and a cooling water conveying cavity and a spray water circulating cavity are arranged in the waste gas treatment pipe; a water conveying pipeline is arranged in the cooling water conveying cavity, a first waste gas conveying pipeline penetrating through the water conveying pipeline is arranged between the first mounting plate and the third mounting plate, and a first spray water outlet is formed in the pipe wall of the upper end part of the first waste gas conveying pipeline; a spray water conveying cavity communicated with the spray water circulation cavity is formed by the cavity between the water conveying pipeline and the first waste gas conveying pipeline; the lower end of the third mounting plate is provided with a spray water circulation mechanism for collecting spray water, the spray water circulation mechanism is provided with a water pump, and the water outlet of the water pump is connected with a spray water circulation cavity through a pipeline. The invention effectively increases the contact area between the waste gas and the spray water, thereby effectively improving the waste gas purification effect of the spray water.

Description

Environment-friendly waste gas treatment process and device thereof

Technical Field

The invention relates to the technical field of waste gas treatment, in particular to an environment-friendly waste gas treatment process and device.

Background

In China, the heat lost by the exhaust gas emission of boilers and the like can be equivalent to the heat released by the complete combustion of tens of millions of tons of standard coal, however, the negative effect of the exhaust gas emission is not limited to the energy loss, and the air quality is seriously influenced by pollutants such as smoke dust, sulfur dioxide, nitrogen oxides and the like which are emitted in large quantities in tail gas. According to the analysis of relevant authorities, the main culprit of the haze weather is the pollutant discharged from the waste gas. The existing waste gas treatment device is mostly limited to heat recovery or environment-friendly treatment, and has the disadvantages of high manufacturing cost, low heat exchange coefficient, insufficient tail heat absorption, or poor environment-friendly treatment effect, so that the ideal effect cannot be achieved.

The patent document with the application number of CN201410156135.7 discloses a waste gas treatment and heat efficient recovery device, wherein an upper pipe pass of a tubular heat exchanger is connected with a waste gas inlet pipe, a lower pipe pass of the tubular heat exchanger is connected with an inlet of a water tank, an outlet of the water tank is connected with an inlet at the bottom of a spray tower, and an outlet at the top of the spray tower is connected with a waste gas outlet pipe; the spray tower is of a closed structure and is internally provided with a packing layer, a water distribution pipe and a rotary drum are arranged above the packing layer, holes are arranged on the water distribution pipe, and the water distribution pipe sprays water through the holes to drive the rotary drum and the water distribution pipe to spin; the water tank is communicated with the water distribution pipe through a water pump; the water tank is internally provided with a coil pipe, the inlet of the coil pipe is connected with a water inlet valve, the outlet of the coil pipe is connected with the lower shell pass of the tubular heat exchanger, and the upper shell pass of the tubular heat exchanger is connected with a water outlet valve. Although the invention achieves both environmental protection treatment and energy recovery, the invention has the defect of insufficient treatment of harmful substances in the waste gas because the effective contact area of the spray water and the waste gas is insufficient when the invention is used.

Disclosure of Invention

Aiming at the defect that harmful substances in waste gas cannot be better treated due to insufficient contact area of spray water and flue gas in the common waste gas treatment process in the prior art, the invention provides an environment-friendly waste gas treatment process and a device thereof. It can realize promoting the function to the exhaust-gas treatment effect.

In order to solve the technical problem, the invention is solved by the following technical scheme:

an environment-friendly waste gas treatment device comprises a waste gas treatment pipe which is integrally cylindrical, wherein a first mounting plate and a second mounting plate which are arranged at intervals up and down are arranged in the waste gas treatment pipe, and a cooling water conveying cavity for conveying cooling water is formed between the first mounting plate and the second mounting plate; a third mounting plate is arranged below the second mounting plate, and a spray water circulation cavity is formed between the second mounting plate and the third mounting plate; a plurality of second mounting through holes are formed in the second mounting plate, a water conveying pipeline with the end part fixedly connected with the first mounting plate and the second mounting through holes is arranged between the first mounting plate and the second mounting plate, a first waste gas conveying pipeline penetrating through the water conveying pipeline is arranged between the first mounting plate and the third mounting plate, and a first spray water outlet is formed in the pipe wall of the upper end part of the first waste gas conveying pipeline; a spray water conveying cavity communicated with the spray water circulation cavity is formed by the cavity between the water conveying pipeline and the first waste gas conveying pipeline; the lower tip of third mounting panel is equipped with the shower water circulation mechanism that is used for carrying out the collection to the shower water, is equipped with first exhaust port and is used for extracting the water pump of shower water on the shower water circulation mechanism, and the delivery port of water pump is connected with the shower water circulation chamber through the pipeline.

Through the arrangement of the cooling water conveying cavity, the spray water circulating cavity and the spray water conveying cavity, spray water sprayed from the first spray water outlet can react with waste gas, and the heat of the waste gas is recycled. Compared with the waste gas treatment and heat efficient recovery device in the comparison document, the waste gas treatment and heat efficient recovery device effectively increases the contact area of the waste gas and the spray water, thereby effectively improving the waste gas purification effect of the spray water. Compared with an exhaust gas treatment and heat efficient recovery device in a document, the exhaust gas treatment and heat efficient recovery device has the advantages that the first spray water outlet is arranged in the first exhaust gas conveying pipeline, so that the space occupation is small when the exhaust gas treatment and heat efficient recovery device is used.

Preferably, a plurality of first mounting through holes are formed in the first mounting plate, a plurality of third mounting through holes matched with the first mounting through holes are formed in the third mounting plate, and the outer side walls of the two end portions of the first waste gas conveying pipeline are fixedly connected with the inner walls of the first mounting through holes and the inner walls of the third mounting through holes.

According to the exhaust gas conveying device, the first mounting through hole and the third mounting through hole are arranged, so that the two end parts of the first exhaust gas conveying pipeline are respectively fixed in the first mounting through hole and the third mounting through hole to complete the mounting of the first exhaust gas conveying pipeline during the mounting of the first exhaust gas conveying pipeline, and the mounting of the first exhaust gas conveying pipeline is conveniently realized.

Preferably, a cylindrical connecting base fixedly connected with the edge of the first mounting plate and the edge of the second mounting plate is arranged between the first mounting plate and the second mounting plate, a cooling water conveying cavity is formed among the first mounting plate, the second mounting plate, the cylindrical connecting base and the water conveying pipeline, a cooling water inlet communicated with the cooling water conveying cavity is formed in the lower end part of the outer side wall of the cylindrical connecting base, and a cooling water outlet communicated with the cooling water conveying cavity is formed in the upper end part of the outer side wall of the cylindrical connecting base.

According to the invention, through the arrangement of the cylindrical connecting seat, when the environment-friendly waste gas treatment device is installed, the first waste gas conveying pipeline and the water conveying pipeline can be installed between the first installation plate and the second installation plate firstly, and then the cylindrical connecting seat is installed between the first installation plate and the second installation plate, so that the installation of the environment-friendly waste gas treatment device is realized more conveniently; the arrangement of the cooling water inlet and the cooling water outlet enables cooling water to enter the cooling water conveying cavity from the cooling water inlet and flow out from the cooling water outlet, and therefore the flowing of the cooling water in the cooling water conveying cavity is achieved.

Preferably, the upper end face of the first mounting plate is provided with an upper floating head cover, the upper floating head cover is provided with a waste gas inlet, the lower end face of the third mounting plate is provided with a lower floating head cover, and the bottom end of the lower floating head cover is provided with a waste gas outlet; the waste gas outlet is connected with the spray water circulation mechanism through a pipeline.

According to the invention, through the arrangement of the floating cover, the waste gas discharged from the exhaust port of the filter hopper can enter the first waste gas conveying pipeline through the floating cover, so that the waste gas discharged from the exhaust port of the filter hopper can be conveniently discharged into the first waste gas conveying pipeline; the setting of lower floating head cover can make during exhaust waste gas and shower water discharge the water tank through lower floating head cover in the first waste gas conveying pipeline to comparatively convenient realization waste gas and shower water's collection.

Preferably, the edge on the bottom surface of the second mounting plate is provided with a connecting seat, the bottom surface of the connecting seat is fixedly connected with the upper surface of the third mounting plate, and the second mounting plate, the third mounting plate and the connecting seat jointly form a spray water circulation cavity.

According to the environment-friendly waste gas treatment device, due to the arrangement of the connecting seat, when the environment-friendly waste gas treatment device is installed, a worker can install the third mounting plate on the connecting seat, so that the spray water circulation cavity is formed between the first mounting plate and the third mounting plate, and the spray water circulation cavity is conveniently arranged.

Preferably, the spray water circulation mechanism comprises a water tank arranged below the lower floating head cover, a water storage cavity is arranged in the water tank, a second filter screen is arranged at the center of the water tank and divides the water storage cavity into a first sub water storage cavity and a second sub water storage cavity, the waste gas outlet is connected with the first sub water storage cavity through a pipeline, a water tank water outlet is arranged at the bottom end of the second sub water storage cavity, and the water tank water outlet is connected with the water pump through a pipeline; the first air outlet is arranged on the side wall of the upper end part of the water tank.

Preferably, the side wall of the connecting seat is provided with a plurality of spray water inlets, the water pump is connected with a liquid flow divider through a pipeline, the liquid flow divider is provided with a plurality of flow divider water outlets, and the flow divider water outlets are connected with the spray water inlets through pipelines.

According to the invention, through the arrangement of the specific structure of the spray water circulation mechanism, the waste gas and spray water discharged from the lower floating head cover can be collected, so that the waste gas discharged from the first waste gas conveying pipeline can enter the waste gas input cavity through the first exhaust port; so that the spray water flowing into the first sub water storage cavity can flow into the second sub water storage cavity through the filtration of the second filter screen and be recycled through the extraction of the water pump.

Preferably, a fourth mounting plate which is positioned above the second mounting plate and below the cooling water inlet is arranged in the waste gas treatment pipe, the fourth mounting plate and the second mounting plate form a waste gas input cavity, and the first exhaust port is connected with the waste gas input cavity through a pipeline; a fifth mounting plate which is positioned below the first mounting plate and above the cooling water outlet is arranged in the waste gas treatment pipe, the first mounting plate and the fifth mounting plate form a waste gas discharge cavity, and a plurality of second exhaust ports are arranged on the side wall of the waste gas discharge cavity; a fourth mounting through hole with the diameter larger than that of the water pipeline is arranged on the fourth mounting plate, a fifth mounting through hole with the diameter larger than that of the water pipeline is arranged on the fifth mounting plate, a second waste gas conveying pipeline with two ends respectively fixedly connected with the fourth mounting through hole and the fifth mounting through hole is arranged between the fourth mounting through hole and the fifth mounting through hole, the water pipeline penetrates through the second waste gas conveying pipeline, a spray cavity communicated with the waste gas input cavity and the waste gas discharge cavity is formed by a cavity between the water pipeline and the second waste gas conveying pipeline, and a second spray water outlet is arranged on the side wall of the upper end part of the water pipeline; the edges of the second mounting plate and the third mounting plate are provided with drainage through holes, and drainage pipelines are arranged between the drainage through holes in the second mounting plate and the drainage through holes in the third mounting plate.

According to the invention, through the arrangement of the waste gas input cavity, the waste gas exhaust cavity and the second waste gas conveying pipeline, the waste gas exhausted through the first exhaust port can enter the spraying cavity through the waste gas input cavity, and in the spraying cavity, the spraying water sprayed out of the second spraying water outlet can react with the waste gas again, so that the waste gas is further purified. The spray water sprayed from the second spray water outlet flows into the lower floating head cover through the waste gas input cavity and the water discharge pipeline, and finally flows into the first sub water storage cavity through the waste gas outlet in the lower floating head cover. According to the waste gas input cavity, the waste gas discharge cavity and the second waste gas conveying pipeline, on the premise that the size of the environment-friendly waste gas treatment device is not increased, the waste gas is purified again, and therefore the waste gas purification effect of the environment-friendly waste gas treatment device is improved.

Preferably, the side wall of the waste gas input cavity is provided with a plurality of waste gas input ports, the first exhaust port is connected with a gas splitter through a pipeline, the gas splitter is provided with a plurality of splitter air outlets, and the splitter air outlets are connected with the waste gas input ports through pipelines.

According to the invention, through the arrangement of the gas splitter and the waste gas input port, waste gas discharged by the first exhaust port can uniformly enter the waste gas input cavity, so that waste gas in the waste gas input cavity can uniformly enter the spraying cavity, and the waste gas purification effect is improved.

The invention also provides a waste gas treatment process based on any one of the environment-friendly waste gas treatment devices, which comprises the following steps:

step one, introducing waste gas into the upper floating head cover, switching on a power supply of a water pump, enabling the waste gas to flow into the lower floating head cover through a first waste gas conveying pipeline, and enabling sprayed spray water in a first spray water outlet to react with the waste gas when the gas flows through the first waste gas conveying pipeline;

step two, the waste gas flowing into the lower floating head cover through the first waste gas conveying pipeline and the spray water enter the water tank through a waste gas outlet, the spray water is filtered by a second filter screen in the water tank and then is pumped into the spray water circulation cavity by the water pump, and then the spray water flows into the spray water conveying cavity through the spray water circulation cavity;

step three, the waste gas flowing into the water tank flows into the waste gas input cavity through the first exhaust port and the pipeline, the waste gas flowing into the waste gas input cavity rises into the spraying cavity, and in the spraying cavity, spraying water sprayed out of the second spraying water outlet reacts with the waste gas again;

step four, the waste gas in the spraying cavity continuously rises to a waste gas discharging cavity and is discharged through a second exhaust port on the waste gas discharging cavity;

and step five, the spray water flowing down through the spray cavity falls into the waste gas input cavity, then flows into the lower floating head cover through the drainage pipeline, and then flows into the water tank through the waste gas outlet.

Drawings

Fig. 1 is a schematic structural view of an environment-friendly exhaust gas treatment device according to embodiment 1.

FIG. 2 is a cross-sectional view of the exhaust treatment conduit of FIG. 1.

Fig. 3 is a schematic structural view of a portion a in fig. 2.

Fig. 4 is a schematic structural view of the second mounting plate in fig. 2.

Fig. 5 is a schematic structural diagram of the first mounting plate in fig. 2.

Fig. 6 is a schematic structural view of the third mounting plate in fig. 2.

Fig. 7 is a schematic view of the liquid diverter of fig. 1.

Fig. 8 is a schematic structural view of the fourth mounting plate in fig. 2.

Fig. 9 is a schematic structural view of the fifth mounting plate in fig. 2.

Fig. 10 is a schematic structural view of a portion B in fig. 2.

Fig. 11 is a schematic view of the gas splitter of fig. 2.

Fig. 12 is a cross-sectional view of the filter bowl of fig. 2.

The names of the parts indicated by the numerical references in the drawings are as follows:

100. an exhaust gas treatment pipe; 110. a cylindrical connecting seat; 111. a second exhaust port; 112. an exhaust gas inlet; 120. a floating head cover; 130. a lower floating head cover; 140. a water tank; 150. a liquid diverter; 160. a gas splitter; 170. a filter hopper; 171. an air intake duct; 210. a first mounting plate; 220. a second mounting plate; 230. a third mounting plate; 240. a fourth mounting plate; 250. a fifth mounting plate; 260. a cooling water delivery chamber; 261. a cooling water inlet; 262. a cooling water outlet; 263. an exhaust gas input chamber; 264. an exhaust gas discharge chamber; 270. a spray water circulation chamber; 281. A first exhaust port; 282. a water pump; 283a, a first sub water storage cavity; 283b and a second sub water storage cavity; 284. a second filter screen; 285. a water outlet of the water tank; 291. an exhaust gas inlet; 292. an exhaust gas outlet; 310. a water delivery pipeline; 320. a first exhaust gas delivery conduit; 330. a first spray water outlet; 340. a spray water delivery chamber; 350. a second exhaust gas delivery conduit; 360. a spray chamber; 370. a second spray water outlet; 410. a second mounting through hole; 420. a connecting seat; 430. a spray water inlet; 440. a drain through hole; 510. a first mounting through hole; 610. a third mounting through hole; 710. a water outlet of the flow divider; 810. a fourth mounting through hole; 910. a fifth mounting through hole; 1010. a water discharge pipeline; 1110. A diverter air outlet; 1210. a filter chamber; 1220. an exhaust port of the filter hopper; 1230. a first filter screen; 1240. a cover plate; 1250. a motor; 1260. a dust scraping plate; 1270. an ash discharge port; 1280. an ash discharge pipeline; 1281. a valve; 1290. an inclined surface.

Detailed Description

For a further understanding of the invention, reference should be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It is to be understood that the examples are illustrative of the invention and not limiting.

Example 1

As shown in fig. 1 to 12, the present embodiment provides an environment-friendly exhaust gas treatment device, which includes a filter hopper 170, a filter chamber 1210 is disposed in the filter hopper 170, an air inlet pipe 171 communicated with the filter chamber 1210 is disposed on a side wall of the filter hopper 170, a filter hopper air outlet 1220 is disposed on an opposite end of the air inlet pipe 171 on the side wall of the filter hopper 170, and a first filter mesh 1230 covering the filter hopper air outlet 1220 is disposed at the filter hopper air outlet 1220; a cover plate 1240 used for sealing the filter cavity 1210 is arranged at the upper end part of the filter hopper 170, a motor 1250 is arranged on the cover plate 1240, a rotating shaft of the motor 1250 penetrates through the cover plate 1240 and extends into the filter cavity 1210, and an ash scraping plate 1260 matched with the first filter screen 1230 is arranged at the end part of the rotating shaft of the motor 1250 extending into the filter cavity 1210; the exhaust treatment pipe 100 is connected with the filter hopper exhaust port 1220 through a pipeline, the exhaust treatment pipe 100 comprises the exhaust treatment pipe 100 which is integrally cylindrical, a first mounting plate 210 and a second mounting plate 220 which are arranged at intervals up and down are arranged in the exhaust treatment pipe 100, and a cooling water conveying cavity 260 for conveying cooling water is formed between the first mounting plate 210 and the second mounting plate 220; a third mounting plate 230 is arranged below the second mounting plate 220, and a spray water circulation cavity 270 is formed between the second mounting plate 220 and the third mounting plate 230; a plurality of second mounting through holes 410 are formed in the second mounting plate 220, a water conveying pipeline 310 with the end portions fixedly connected with the first mounting plate 210 and the second mounting through holes 410 is arranged between the first mounting plate 210 and the second mounting plate 220, a first waste gas conveying pipeline 320 penetrating through the water conveying pipeline 310 is arranged between the first mounting plate 210 and the third mounting plate 230, and a first spray water outlet 330 is formed in the pipe wall of the upper end portion of the first waste gas conveying pipeline 320; the cavity between the water pipe 310 and the first exhaust gas conveying pipe 320 forms a spray water conveying cavity 340 communicated with the spray water circulation cavity 270; the lower end of the third mounting plate 230 is provided with a shower water circulation mechanism for collecting shower water, the shower water circulation mechanism is provided with a first exhaust port 281 and a water pump 282 for pumping the shower water, and a water outlet of the water pump 282 is connected with the shower water circulation chamber 270 through a pipeline.

Through the cooling water conveying cavity 260 in this embodiment, the setting of spray water circulation cavity 270 and spray water conveying cavity 340, can make waste gas when passing through first waste gas conveying pipeline 320, the first spray water export 330 spun spray water of spray water conveying cavity 340 upper end will react with waste gas, thereby purify waste gas, the heat that contains in the waste gas passes through first waste gas conveying pipeline 320, spray water and water pipeline 310 transmit to in proper order cooling water conveying cavity 260, thereby heat the rivers in cooling water conveying cavity 260, thereby realized the recycle to the waste gas heat. Environmental protection type exhaust treatment device in this embodiment compares exhaust-gas treatment and the high-efficient recovery unit of heat in the comparison file through set up first shower water export 330 in first exhaust-gas conveying pipeline 320, comparatively effectual increase the area of contact of waste gas with the shower water to comparatively effectively promoted the purifying effect of shower water to waste gas. Meanwhile, compared with the waste gas treatment and heat efficient recovery device in the document, the environment-friendly waste gas treatment device in the embodiment is provided with the first spray water outlet 330 in the first waste gas conveying pipeline 320, so that the environment-friendly waste gas treatment device in the embodiment is not required to be provided with waste gas purification mechanisms such as a spray tower, and the space of the environment-friendly waste gas treatment device in the embodiment is small in occupied space when the environment-friendly waste gas treatment device is used. Due to the arrangement of the filter hopper 170, pretreatment of the exhaust gas is effectively realized, and collection of dust with large particles of the exhaust gas is realized, so that the influence on heat conduction of the first exhaust gas conveying pipeline 320 due to the fact that substances such as dust are attached to the first exhaust gas conveying pipeline 320 is reduced; the dust scraping plate 1260 can scrape off the dust and other attachments on the first filter screen 1230, so that the use effect of the first filter screen 1230 is improved.

In this embodiment, the center of the bottom end of the filter hopper 170 is provided with an ash discharge hole 1270, the ash discharge hole 1270 is provided with an ash discharge pipe 1280 vertically arranged downwards, and the ash discharge pipe 1280 is provided with a valve 1281.

Through the arrangement of the dust outlet 1270 and the dust exhaust pipe 1280 in the embodiment, after dust is accumulated in the filter chamber 1210, the valve 1281 on the dust exhaust pipe 1280 can be opened to exhaust the dust, and substances such as dust in waste gas can be conveniently exhausted out of the filter chamber 1210.

In this embodiment, the filter chamber 1210 has an inclined surface 1290 formed from the dust outlet 1270 to an upper end edge of the dust outlet 1270.

Through the setting of inclined plane 1290 in this embodiment, can make the bottom of filter chamber 1210 of the easier landing of material such as dust that falls into filter chamber 1210 to comparatively convenient realization the collection of dust in filter chamber 1210, thereby made things convenient for material such as dust to discharge from arranging grey pipeline 1280.

In this embodiment, a cylindrical connection seat 110 fixedly connected to the edge of the first mounting plate 210 and the edge of the second mounting plate 220 is disposed between the first mounting plate 210 and the second mounting plate 220, a cooling water delivery cavity 260 is formed between the first mounting plate 210, the second mounting plate 220, the cylindrical connection seat 110 and the water delivery pipe 310, a cooling water inlet 261 communicated with the cooling water delivery cavity 260 is disposed at a lower end of an outer side wall of the cylindrical connection seat 110, and a cooling water outlet 262 communicated with the cooling water delivery cavity 260 is disposed at an upper end of an outer side wall of the cylindrical connection seat 110.

Through the arrangement of the cylindrical connecting seat 110 in this embodiment, when the environment-friendly exhaust gas treatment device is installed, the first exhaust gas delivery pipe 320 and the water delivery pipe 310 may be installed between the first installation plate 210 and the second installation plate 220, and then the cylindrical connecting seat 110 is installed between the first installation plate 210 and the second installation plate 220, so that the installation of the environment-friendly exhaust gas treatment device in this embodiment is conveniently achieved; the cooling water inlet 261 and the cooling water outlet 262 are arranged such that cooling water can enter the cooling water delivery chamber 260 from the cooling water inlet 261 and flow out from the cooling water outlet 262, thereby achieving the flow of cooling water in the cooling water delivery chamber 260.

In this embodiment, the edge of the bottom surface of the second mounting plate 220 is provided with a connecting seat 420, the bottom surface of the connecting seat 420 is fixedly connected with the upper surface of the third mounting plate 230, and the second mounting plate 220, the third mounting plate 230 and the connecting seat 420 together form the shower water circulation chamber 270.

Through the setting of connecting seat 420 in this embodiment, can make when carrying out the installation of this environment-friendly exhaust treatment device, the staff can install third mounting panel 230 on connecting seat 420 and make and form spray water circulation chamber 270 between first mounting panel 210 and the third mounting panel 230 to comparatively convenient realization is to the setting of spray water circulation chamber 270.

In this embodiment, the upper end surface of the first mounting plate 210 is provided with the upper floating cover 120, the upper floating cover 120 is provided with the exhaust gas inlet 291, and the filter hopper exhaust port 1220 is connected with the exhaust gas inlet 291 through a pipe; the lower end surface of the third mounting plate 230 is provided with a lower floating head cover 130, and the bottom end of the lower floating head cover 130 is provided with an exhaust gas outlet 292; the exhaust gas outlet 292 is connected to the shower water circulation mechanism through a pipe.

Through the arrangement of the upper floating cover 120 in the embodiment, the exhaust gas discharged from the filter hopper exhaust port 1220 can enter the first exhaust gas conveying pipeline 320 through the upper floating cover 120, so that the exhaust gas discharged from the filter hopper exhaust port 1220 can be conveniently discharged into the first exhaust gas conveying pipeline 320; the arrangement of the lower floating head cover 130 can enable the exhaust waste gas and the spray water in the first waste gas conveying pipeline 320 to be discharged into the water tank 140 through the lower floating head cover 130, so that the collection of the waste gas and the spray water is conveniently realized.

In this embodiment, the shower water circulation mechanism includes a water tank 140 disposed below the lower floating cover 130, a water storage cavity 283 is disposed in the water tank 140, a second filter screen 284 is disposed at the center of the water tank 140, the second filter screen 284 divides the water storage cavity 283 into a first sub-water storage cavity 283a and a second sub-water storage cavity 283b, the waste gas outlet 292 is connected with the first sub-water storage cavity 283a through a pipe, a water tank water outlet 285 is disposed at the bottom end of the second sub-water storage cavity 283b, and the water tank water outlet 285 is connected with the water pump 282 through a pipe; the first air outlet 281 is provided on an upper end side wall of the water tank 140.

Through the arrangement of the specific structure of the spray water circulation mechanism in the embodiment, the exhaust gas and the spray water discharged from the lower floating cover 130 can be collected, so that the exhaust gas discharged from the first exhaust gas conveying pipe 320 can enter the exhaust gas input cavity 263 through the first exhaust port 281; so that the shower water flowing into the first sub-reservoir 283a may be filtered by the second screen 284 to flow into the second sub-reservoir 283b and be pumped by the water pump 282 for recycling.

In this embodiment, a fourth mounting plate 240 is disposed above the second mounting plate 220 and below the cooling water inlet 261 in the exhaust gas treatment pipe 100, the fourth mounting plate 240 and the second mounting plate 220 form an exhaust gas input cavity 263, and the first exhaust port 281 is connected to the exhaust gas input cavity 263 through a pipeline; a fifth mounting plate 250 which is positioned below the first mounting plate 210 and above the cooling water outlet 262 is arranged in the exhaust gas treatment pipe 100, the first mounting plate 210 and the fifth mounting plate 250 form an exhaust gas discharge cavity 264, and a plurality of second exhaust ports 111 are arranged on the side wall of the exhaust gas discharge cavity 264; a fourth mounting through hole 810 with a diameter larger than that of the water pipe 310 is arranged on the fourth mounting plate 240, a fifth mounting through hole 910 with a diameter larger than that of the water pipe 310 is arranged on the fifth mounting plate 250, a second waste gas conveying pipe 350 with two ends respectively fixedly connected with the fourth mounting through hole 810 and the fifth mounting through hole 910 is arranged between the fourth mounting through hole 810 and the fifth mounting through hole 910, the water pipe 310 penetrates through the second waste gas conveying pipe 350, a spraying cavity 360 communicated with the waste gas input cavity 263 and the waste gas discharge cavity 264 is formed by a cavity between the water pipe 310 and the second waste gas conveying pipe 350, and a second spraying water outlet 370 is arranged on the side wall of the upper end part of the water pipe 310; the edges of the second mounting plate 220 and the third mounting plate 230 are provided with drain through holes 440, and a drain pipe 1010 is arranged between the drain through holes 440 of the second mounting plate 220 and the drain through holes 440 of the third mounting plate 230.

Through the arrangement of the waste gas input cavity 263, the waste gas exhaust cavity 264 and the second waste gas conveying pipeline 350 in the embodiment, the waste gas exhausted through the first exhaust port 281 can enter the spraying cavity 360 through the waste gas input cavity 263, and in the spraying cavity 360, the spraying water sprayed out of the second spraying water outlet 370 will react with the waste gas again, so that the waste gas is further purified. The shower water sprayed from the second shower water outlet 370 will flow into the lower floating cover 130 through the exhaust gas inlet chamber 263 and the water outlet pipe 1010, and finally flow into the first sub-reservoir chamber 283a through the exhaust gas outlet 292 of the lower floating cover 130. Waste gas input chamber 263, exhaust gas discharge chamber 264 and second exhaust gas conveying pipeline 350 in this embodiment have realized purifying waste gas once more under the prerequisite that the volume of this environment-friendly exhaust gas treatment device does not increase to the purifying effect of this environment-friendly exhaust gas treatment device to waste gas has been promoted.

In this embodiment, the sidewall of the waste gas input cavity 263 is provided with a plurality of waste gas input ports 112, the first exhaust port 281 is connected to a gas splitter 160 through a pipeline, the gas splitter 160 is provided with a plurality of splitter outlet ports 1110, and the splitter outlet ports 1110 are connected to the waste gas input ports 112 through a pipeline.

Through the arrangement of the gas splitter 160 and the waste gas input port 112 in this embodiment, the waste gas exhausted from the first exhaust port 281 can uniformly enter the waste gas input cavity 263, so that the waste gas in the waste gas input cavity 263 can uniformly enter the spray cavity 360, thereby improving the purification effect on the waste gas.

In this embodiment, the first mounting plate 210 is provided with a plurality of first mounting holes 510, the third mounting plate 230 is provided with a plurality of third mounting holes 610 matching with the first mounting holes 510, and the outer sidewalls of the two ends of the first exhaust gas conveying pipeline 320 are fixedly connected with the inner walls of the first mounting holes 510 and the third mounting holes 610.

Through the arrangement of the first mounting through hole 510 and the third mounting through hole 610 in the embodiment, when the first exhaust gas conveying pipeline 320 is mounted, the two end portions of the first exhaust gas conveying pipeline 320 are respectively fixed in the first mounting through hole 510 and the third mounting through hole 610 to complete the mounting of the first exhaust gas conveying pipeline 320, so that the first exhaust gas conveying pipeline 320 can be mounted conveniently.

In this embodiment, the side wall of the connecting seat 420 is provided with a plurality of spray water inlets 430, the water pump 282 is connected with a liquid splitter 150 through a pipeline, the liquid splitter 150 is provided with a plurality of splitter water outlets 710, and the splitter water outlets 710 are connected with the spray water inlets 430 through a pipeline.

Through the setting of liquid shunt 150 and shower water inlet 430 in this embodiment, can make the shower water of extraction in the water pump 282 can be in comparatively even entering shower water circulation chamber 270 to make the shower water in the shower water circulation chamber 270 can be in comparatively even distribution to the shower water transport chamber 340.

The embodiment also provides an exhaust gas treatment process based on the environment-friendly exhaust gas treatment device, which comprises the following steps:

step one, introducing waste gas obtained by incineration into the filter hopper 170, filtering the waste gas in the filter cavity 1210 through the first filter screen 1230 to retain large-particle dust in the waste gas in the filter cavity 1210, and discharging the filtered waste gas through the filter hopper exhaust port 1220;

step two, the waste gas discharged by the filter hopper enters the upper floating head cover 120, the power supply of the water pump 282 is switched on, the waste gas flows into the lower floating head cover 130 through the first waste gas conveying pipeline 320, and when the gas flows through the first waste gas conveying pipeline 320, the sprayed spray water in the first spray water outlet 330 reacts with the waste gas;

step three, the exhaust gas flowing into the lower floating head cover 130 through the first exhaust gas conveying pipe 320 and the shower water enter the water tank 140 through the exhaust gas outlet 292, the shower water is filtered by the second filter screen 284 in the water tank 140 and then is pumped into the shower water circulation cavity 270 by the water pump 282, and then flows into the shower water conveying cavity 340 through the shower water circulation cavity 270;

step four, the exhaust gas flowing into the water tank 140 flows into the exhaust gas input cavity 263 through a pipeline via the first exhaust port 281, the exhaust gas flowing into the exhaust gas input cavity 263 rises into the spray cavity 360, and in the spray cavity 360, the spray water sprayed out of the second spray water outlet 370 reacts with the exhaust gas again;

step five, the waste gas in the spraying cavity 360 continuously rises to the waste gas discharging cavity 264 and is discharged through the second exhaust port 111 on the waste gas discharging cavity 264;

in step six, the shower water flowing down through the shower chamber 360 falls into the exhaust gas inlet chamber 263, then flows into the lower floating head cover 130 through the drain pipe 1010, and then flows into the water tank 140 through the exhaust gas outlet 292.

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made in the claims of the present invention should be covered by the claims of the present invention.

Claims (7)

1. The environment-friendly waste gas treatment device is characterized in that: the device comprises an integrally cylindrical waste gas treatment pipe (100), wherein a first mounting plate (210) and a second mounting plate (220) which are arranged at intervals up and down are arranged in the waste gas treatment pipe (100), and a cooling water conveying cavity (260) for conveying cooling water is formed between the first mounting plate (210) and the second mounting plate (220); a third mounting plate (230) is arranged below the second mounting plate (220), and a spray water circulation cavity (270) is formed between the second mounting plate (220) and the third mounting plate (230); a plurality of second mounting through holes (410) are formed in the second mounting plate (220), a water conveying pipeline (310) with the end portions fixedly connected with the first mounting plate (210) and the second mounting through holes (410) is arranged between the first mounting plate (210) and the second mounting plate (220), a first waste gas conveying pipeline (320) penetrating through the water conveying pipeline (310) is arranged between the first mounting plate (210) and the third mounting plate (230), and a first spray water outlet (330) is formed in the pipe wall of the upper end portion of the first waste gas conveying pipeline (320); a spray water conveying cavity (340) communicated with the spray water circulating cavity (270) is formed by a cavity between the water conveying pipeline (310) and the first waste gas conveying pipeline (320); a spray water circulating mechanism for collecting spray water is arranged at the lower end part of the third mounting plate (230), a first exhaust port (281) and a water pump (282) for pumping the spray water are arranged on the spray water circulating mechanism, and a water outlet of the water pump (282) is connected with the spray water circulating cavity (270) through a pipeline; the upper end face of the first mounting plate (210) is provided with an upper floating head cover (120), the upper floating head cover (120) is provided with a waste gas inlet (291), the lower end face of the third mounting plate (230) is provided with a lower floating head cover (130), and the bottom end of the lower floating head cover (130) is provided with a waste gas outlet (292); the waste gas outlet (292) is connected with the spray water circulation mechanism through a pipeline; the spray water circulation mechanism comprises a water tank (140) arranged below a lower floating head cover (130), a water storage cavity (283) is arranged in the water tank (140), a second filter screen (284) is arranged at the center of the water tank (140), the water storage cavity (283) is divided into a first sub water storage cavity (283a) and a second sub water storage cavity (283b) by the second filter screen (284), an exhaust gas outlet (292) is connected with the first sub water storage cavity (283a) through a pipeline, a water tank water outlet (285) is arranged at the bottom end of the second sub water storage cavity (283b), and the water tank water outlet (285) is connected with a water pump (282) through a pipeline; a first air outlet (281) is arranged on the side wall of the upper end part of the water tank (140); a fourth mounting plate (240) which is positioned above the second mounting plate (220) and below the cooling water inlet (261) is arranged in the waste gas treatment pipe (100), the fourth mounting plate (240) and the second mounting plate (220) form a waste gas input cavity (263), and the first exhaust port (281) is connected with the waste gas input cavity (263) through a pipeline; a fifth mounting plate (250) which is positioned below the first mounting plate (210) and above the cooling water outlet (262) is arranged in the waste gas treatment pipe (100), the first mounting plate (210) and the fifth mounting plate (250) form a waste gas discharge cavity (264), and a plurality of second exhaust ports (111) are arranged on the side wall of the waste gas discharge cavity (264); a fourth mounting through hole (810) with the diameter larger than that of the water pipeline (310) is formed in the fourth mounting plate (240), a fifth mounting through hole (910) with the diameter larger than that of the water pipeline (310) is formed in the fifth mounting plate (250), a second waste gas conveying pipeline (350) with two ends fixedly connected with the fourth mounting through hole (810) and the fifth mounting through hole (910) is arranged between the fourth mounting through hole (810) and the fifth mounting through hole (910), the water pipeline (310) penetrates through the second waste gas conveying pipeline (350), a spraying cavity (360) communicated with the waste gas input cavity (263) and the waste gas discharge cavity (264) is formed by a cavity between the water pipeline (310) and the second waste gas conveying pipeline (350), and a second spraying water outlet (370) is formed in the side wall of the upper end portion of the water pipeline (310); the edges of the second mounting plate (220) and the third mounting plate (230) are provided with drainage through holes (440), and drainage pipelines (1010) are arranged between the drainage through holes (440) of the second mounting plate (220) and the drainage through holes (440) of the third mounting plate (230).

2. The environment-friendly exhaust gas treatment device according to claim 1, wherein: be equipped with a plurality of first installation through-hole (510) on first mounting panel (210), be equipped with a plurality of and first installation through-hole (510) matched with third installation through-hole (610) on third mounting panel (230), the lateral wall at first exhaust gas conveying pipeline (320) both ends and the inner wall fixed connection of first installation through-hole (510) and third installation through-hole (610).

3. The environment-friendly exhaust gas treatment device according to claim 1, wherein: be equipped with between first mounting panel (210) and second mounting panel (220) with first mounting panel (210) edge and second mounting panel (220) edge fixed connection's cylindric connecting seat (110), first mounting panel (210), second mounting panel (220), constitute cooling water between cylindric connecting seat (110) and conduit (310) and carry chamber (260), the lower tip of cylindric connecting seat (110) lateral wall is equipped with and carries communicating cooling water inlet (261) in chamber (260) with the cooling water, the upper end of cylindric connecting seat (110) lateral wall is equipped with and carries communicating cooling water outlet (262) in chamber (260) with the cooling water.

4. The environment-friendly exhaust gas treatment device according to claim 1, wherein: the edge on the bottom surface of second mounting panel (220) is equipped with connecting seat (420), and the bottom surface of connecting seat (420) is connected with the last fixed surface of third mounting panel (230), and second mounting panel (220), third mounting panel (230), connecting seat (420) constitute spray water circulation chamber (270) jointly.

5. The environment-friendly exhaust gas treatment device according to claim 1, wherein: the side wall of the connecting seat (420) is provided with a plurality of spray water inlets (430), the water pump (282) is connected with a liquid splitter (150) through a pipeline, the liquid splitter (150) is provided with a plurality of splitter water outlets (710), and the splitter water outlets (710) are connected with the spray water inlets (430) through a pipeline.

6. The environment-friendly exhaust gas treatment device according to claim 1, wherein: the side wall of the waste gas input cavity (263) is provided with a plurality of waste gas input ports (112), the first exhaust port (281) is connected with a gas flow divider (160) through a pipeline, the gas flow divider (160) is provided with a plurality of flow divider gas outlets (1110), and the flow divider gas outlets (1110) are connected with the waste gas input ports (112) through a pipeline.

7. An exhaust gas treatment process based on the environment-friendly exhaust gas treatment device according to any one of claims 1 to 6, comprising the steps of:

step one, introducing waste gas into the upper floating head cover (120), switching on a power supply of a water pump (282), enabling the waste gas to flow into the lower floating head cover (130) through a first waste gas conveying pipeline (320), and enabling sprayed spray water in a first spray water outlet (330) to react with the waste gas when the gas flows through the first waste gas conveying pipeline (320);

step two, the exhaust gas flowing into the lower floating head cover (130) through the first exhaust gas conveying pipeline (320) and the spray water enter the water tank (140) through an exhaust gas outlet (292), the spray water is filtered by a second filter screen (284) in the water tank (140), then is pumped into the spray water circulation cavity (270) through a water pump (282), and then flows into the spray water conveying cavity (340) through the spray water circulation cavity (270);

step three, the waste gas flowing into the water tank (140) flows into the waste gas input cavity (263) through a pipeline through the first exhaust port (281), the waste gas flowing into the waste gas input cavity (263) rises into the spraying cavity (360), and in the spraying cavity (360), the spraying water sprayed out of the second spraying water outlet (370) reacts with the waste gas again;

step four, the waste gas in the spraying cavity (360) continuously rises to a waste gas discharging cavity (264), and then is discharged through a second exhaust port (111) on the waste gas discharging cavity (264);

and step five, the spray water flowing down through the spray cavity (360) falls into the waste gas input cavity (263), then flows into the lower floating head cover (130) through the water discharge pipeline (1010), and then flows into the water tank (140) through the waste gas outlet (292).

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