CN205760428U - A kind of waste gas purification apparatus - Google Patents

Abstract

The utility model discloses a kind of waste gas purification apparatus, including admission line and discharge duct, also include the sack cleaner being sequentially connected with by gas pipeline, low-light resonance exhaust processor and combustor, described admission line is connected with the air inlet of sack cleaner, described discharge duct is connected with the gas outlet of combustor, it is provided with at least one absorbing unit in gas pipeline between described low-light resonance exhaust processor and sack cleaner, at least one drying unit it is provided with in described discharge duct, cold water pipe is had on the outer wall of described combustor, this cold water pipe spiral surrounding is on the outer wall of combustor.This utility model by waste gas via dedusting, photochemical catalytic oxidation and burn processing after, waste gas effectively being purified, is particularly suited for the organic exhaust gas to producing in DYE PRODUCTION and processes, treatment effect is preferable, make waste gas obtain discharging standards, meet environmental requirement.

Description

A kind of waste gas purification apparatus

Technical field

This utility model belongs to technical field of waste gas treatment, is specifically related to a kind of waste gas purification apparatus.

Background technology

Along with current industry and commerce development and the enhancing of environmental consciousness, going from bad to worse by society of living environment With the most attention of industrial circle, wherein, flourish due to industry, air pollution diffusion rapidly, the face that harmful exhaust is stretched Long-pending vast, polluter direct harm people through respiratory system in waste gas healthy, for this development trend, various Technology and equipment about environment-friendly engineering is the most constantly developed.About the purified treatment of industrial waste gas, then it is many environmental protection Case is faced one of most important problem.

During existing industrial waste gas processes, occur in that a lot of waste gas processing method, such as low-light resonance exhaust processor are to adopt Add the purification of light oxygen catalytic waste gas with microwave to combine, by microwave energizer and conversion equipment, supporting independent rustless steel group Part, in independent limited space, strength excites electrodeless lamp tube, obtains the extraordinary ultraviolet of high output.High-strength is extraordinary purple Outside line and microwave mutually strengthen in independent resonator cavity, produce a large amount of ozone and free hydroxyl, strong destruction and oxidation gaseous effluent Molecule, thus reach the purpose of VOCs treatment.

The kind of existing technology waste gas is a lot, such as, produce the enterprise of dye and dye intermediate, in process of production first After base naphthalene sulfonation with formaldehyde condensation, neutralize, be dried produce dye dispersant MF (poly-naphthalene formaldehyde sulfonate salt), should during have portion Methyl naphthalene and substantial amounts of formaldehyde gas is divided to produce, if without effectively processing and will cause huge to surrounding and plant area's enterprise employee health Big impact.At present during such exhaust-gas treatment, first waste gas being carried out dedusting, then processed by deodorize, this processing method is to gas Dust removal effect is preferable, but little to organic removal effect, and gas sweetening effect is poor, and organic exhaust gas effect reaches Less than discharging standards.

Utility model content

This utility model provides a kind of waste gas purification apparatus, can carry out the organic exhaust gas produced during DYE PRODUCTION Effective process, makes up to discharging standards.

The technical solution of the utility model is: a kind of waste gas purification apparatus, including admission line and discharge duct, also includes Sack cleaner, low-light resonance exhaust processor, ionization mechanism and the combustor being sequentially connected with by gas pipeline, described in enter Feed channel is connected with the air inlet of sack cleaner, and described discharge duct is connected with the gas outlet of combustor, described low-light At least one absorbing unit it is provided with, in described discharge duct in gas pipeline between resonance exhaust processor and sack cleaner Being provided with at least one drying unit, the outer wall of described combustor has cold water pipe, this cold water pipe spiral surrounding is outside combustor On wall, described ionization mechanism includes that at least one ionization module, described ionization module include ionizing casing, sets in ionization chamber body There are anelectrode rod and negative electrode rod.

When the organic exhaust gas produced during this utility model DYE PRODUCTION processes, first by organic exhaust gas via entering Feed channel enters sack cleaner and carries out dedusting, and after sack cleaner dedusting, waste gas enters in gas pipeline, due to cloth bag Being provided with absorbing unit in conveyance conduit between cleaner unit and low-light resonance exhaust processor, therefore waste gas is in this gas pipeline During conveying, carry out decolorization adsorption process, finally enter low-light resonance exhaust processor via gas pipeline and process, Low-light resonance exhaust processor utilize the effect of photochemical catalytic oxidation produce the strongest hydroxyl radical free radical of oxidability and free oxygen from By base, the organic principle in oxidizing gas, utilizing microwave high energy high-penetrability, fracture emission molecule chain, produces one further High oxidation body (is commonly called as " plasma-based "), a kind of oxysome exceeding more than 2000 times than ozone oxidation ability of high oxidation body, can be by waste gas In Organic substance exhaustive oxidation become H₂O and CO₂。

After waste gas of the present utility model carries out oxidation processes in low-light resonance exhaust processor, enter via gas pipeline Multiple ionization is carried out, it is simple to follow-up catalysis burning in entering to ionize mechanism.Enter in combustor via gas pipeline after ionization Carrying out being catalyzed burn processing, remove the poisonous and harmful element in removing exhaust gas further, catalysis burning is exothermic reaction, in combustion process In can produce amount of heat, in order to prevent the waste of heat, outer wall of combustion chamber of the present utility model is provided with cold water pipe, cold water pipe With combustor generation heat exchange so that the water in cold water pipe heats up, then it is delivered to required operation via cold water pipe discharge and carries out Use, it is to avoid the waste of the energy.

After this utility model burn processing waste gas when discharging via discharge duct, can dry via in discharge duct Dry unit is dried, and finally discharges via discharge duct.

In this utility model, waste gas can pass through each absorbing unit one by one, thus disposably realizes the multistage suction to waste gas Attached, it is ensured that absorption is complete, seamless link between multi-stage absorption, simplify adsorption step, be greatly saved manpower.In like manner, drying unit Too.

As preferably in this utility model, described absorbing unit is the absorption cavity being filled with adsorbent, this absorption cavity Two sidewalls consistent with gas flow are the gas permeation net that supplied gas passes.The aperture of gas permeation net is will not make suction Attached dose spills, is beneficial to gas by being advisable simultaneously.

As preferably, described adsorbent is acticarbon.Acticarbon has physical absorption and chemisorbed Double grading, can selectively adsorb the various materials in gas phase, to reach decolorizing and refining, disinfecting, deodorizing and decontamination purify Etc. purpose.

As preferably, described drying unit is the dry cavity being filled with desiccant, this dry cavity and gas flow one Two sidewalls caused are the gas permeation net that supplied gas passes.The aperture of gas permeation net so that desiccant will not be made to spill, with Time beneficially gas by being advisable.In this utility model, desiccant can have multiple, such as silicon oxide.

As preferably, described discharge duct is serpentine pipe.The path of serpentine pipe is longer, and the waste gas that can slow down is at discharge duct In transfer rate, extend the time of contact of waste gas and drying unit, improve drying effect.

As preferably, described admission line is serpentine pipe.The path of serpentine pipe is longer, and the waste gas that can slow down is at admission line In transfer rate, extend waste gas and absorbing unit time of contact, improve adsorption effect.

Compared with prior art, the beneficial effects of the utility model are embodied in:

This utility model by waste gas via dedusting, photochemical catalytic oxidation and burn processing after so that waste gas obtains effectively Purification, be particularly suited in DYE PRODUCTION produce organic exhaust gas process, treatment effect is preferable so that waste gas obtains Discharging standards, meets environmental requirement.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

As it is shown in figure 1, this utility model includes admission line 1 and discharge duct 2, also include by gas pipeline 3 successively Sack cleaner 4, low-light resonance exhaust processor 5, ionization mechanism 8 and combustor 6, wherein admission line 1 and the cloth connected The air inlet of bag dust collector 4 is connected, and discharge duct 2 is connected with the gas outlet of combustor 6, low-light resonance exhaust processor 5 And it is provided with at least one absorbing unit 31 in the gas pipeline 3 between sack cleaner 4, in discharge duct 2, is provided with at least one Drying unit 21, the outer wall of combustor 6 has cold water pipe 7, and this cold water pipe 7 spiral surrounding is on the outer wall of combustor 6.Ionization machine Structure 8 includes at least one ionization module 81, and ionization module 81 includes ionizing casing 811, is provided with anelectrode in ionization casing 811 Rod 812 and negative electrode rod 813.

In this utility model, admission line 1 and discharge duct 2 are serpentine pipe.The path of serpentine pipe is longer, can slow down The transfer rate of waste gas, extends waste gas and drying unit and the time of contact of absorbing unit, improves and is dried and adsorption effect.

Also shown in FIG. 1, in this utility model, absorbing unit 31 is the absorption cavity 312 being filled with adsorbent 311, should Two sidewalls adsorbing cavity 312 consistent with gas flow are the gas permeation net 313 that supplied gas passes.Gas permeation net The aperture of 313 is so that adsorbent 311 will not be made to spill, be beneficial to gas by being advisable simultaneously.In this utility model, adsorbent 311 is for living Property carbon adsorbent.Acticarbon has the double grading of physical absorption and chemisorbed, can selectively adsorb gas phase In various materials, to reach the purposes such as decolorizing and refining, disinfecting, deodorizing and decontamination purification.

As it is shown in figure 1, drying unit 21 is the dry cavity 212 being filled with desiccant 211 in this utility model, this is dried Cavity 212 two sidewalls consistent with gas flow are the gas permeation net 213 that supplied gas passes.Gas permeation net 213 Aperture is so that desiccant will not be made to spill, be beneficial to gas by being advisable simultaneously.In this utility model, desiccant can have multiple, such as Silicon oxide.

When the organic exhaust gas produced during this utility model DYE PRODUCTION processes, first by organic exhaust gas via entering Feed channel 1 enters sack cleaner 4 and carries out dedusting, and after sack cleaner 4 dedusting, waste gas enters in gas pipeline 3, due to Being provided with absorbing unit 31 in conveyance conduit 3 between sack cleaner 4 and low-light resonance exhaust processor 5, therefore waste gas is at this In gas pipeline 3 during conveying, carry out preliminary decolorization adsorption and process, finally enter low-light resonance via gas pipeline 3 Exhaust processor 4 processes, and it is the strongest that low-light resonance exhaust processor 4 utilizes the effect of photochemical catalytic oxidation to produce oxidability Hydroxyl radical free radical and free oxygen free radical, the organic principle in oxidizing gas, utilize microwave high energy high-penetrability, rupture further Emission molecule chain, produces a high oxidation body (being commonly called as " plasma-based "), and high oxidation body one exceeds more than 2000 than ozone oxidation ability Oxysome again, can become H by the Organic substance exhaustive oxidation in waste gas₂O and CO₂。

After waste gas of the present utility model carries out oxidation processes in low-light resonance exhaust processor 4, via gas pipeline 3 Multiple ionization is carried out, it is simple to follow-up catalysis burning in entering ionization mechanism.Combustor is entered via gas pipeline 3 after ionization Carrying out in 6 being catalyzed burn processing, remove the poisonous and harmful element in removing exhaust gas further, burning due to the catalysis of waste gas is that heat release is anti- Should, amount of heat can be produced in combustion, in order to prevent the waste of heat, combustor 6 outer wall of the present utility model sets There are cold water pipe 7, cold water pipe 7 and combustor 6 that heat exchange occurs so that the water in cold water pipe 7 heats up, then via cold water pipe 7 row Go out to be delivered to required operation to use, it is to avoid the waste of the energy.

When waste gas after this utility model burn processing is discharged via discharge duct 2, can be via doing in discharge duct 2 Dry unit 21 is dried, and finally discharges via discharge duct 2.

Claims (6)

1. a waste gas purification apparatus, including admission line and discharge duct, it is characterised in that also include being depended on by gas pipeline The sack cleaner of secondary connection, low-light resonance exhaust processor, ionization mechanism and combustor, described admission line removes with cloth bag The air inlet of dirt device is connected, and described discharge duct is connected with the gas outlet of combustor, described low-light resonance exhaust processor And it is provided with at least one absorbing unit in the gas pipeline between sack cleaner, is provided with at least one in described discharge duct and does Dry unit, the outer wall of described combustor has cold water pipe, this cold water pipe spiral surrounding on the outer wall of combustor, described ionization machine Structure include at least one ionization module, described ionization module include ionize casing, be provided with in ionization chamber body anelectrode rod and Negative electrode rod.

2. waste gas purification apparatus as claimed in claim 1, it is characterised in that described absorbing unit is the suction being filled with adsorbent Attached cavity, this absorption cavity two sidewalls consistent with gas flow are the gas permeation net that supplied gas passes.

3. waste gas purification apparatus as claimed in claim 2, it is characterised in that described adsorbent is acticarbon.

4. waste gas purification apparatus as claimed in claim 1, it is characterised in that described drying unit is to be filled with doing of desiccant Dry cavity, this dry cavity two sidewalls consistent with gas flow are the gas permeation net that supplied gas passes.

5. waste gas purification apparatus as claimed in claim 1, it is characterised in that described discharge duct is serpentine pipe.

6. waste gas purification apparatus as claimed in claim 1, it is characterised in that described admission line is serpentine pipe.