CN206597460U - It is combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system - Google Patents
It is combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system Download PDFInfo
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- CN206597460U CN206597460U CN201720320185.3U CN201720320185U CN206597460U CN 206597460 U CN206597460 U CN 206597460U CN 201720320185 U CN201720320185 U CN 201720320185U CN 206597460 U CN206597460 U CN 206597460U
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Abstract
The utility model belongs to organic waste odor purification processing technology field, specifically provide a kind of compound complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, including spray column and photodissociation oxidation equipment, the air inlet entered for pending waste odour-gas is provided with the spray column, the gas outlet of the spray column is connected with the air inlet of the photodissociation oxidation equipment, equal drift net is provided between air inlet and gas outlet in the photodissociation oxidation equipment, 253.7nm wave band UV lamp pipe, first photooxidation catalytic plate, 185nm wave band UV lamp pipes and the second photooxidation catalytic plate.Pass through the 253.7nm wave band UV lamp pipes and 185nm wave band UV lamp pipes of introducing in the utility model, realize the compound complementary photodissociation catalysis oxidation of 253.7nm light waves and 185nm light waves, reach the thorough purified treatment to waste odour-gas such as constitutionally stable atom organic matter, halide, and sour gas can be handled, service life of equipment is long.
Description
Technical field
The utility model belongs to organic waste odor purification processing technology field, and in particular to one kind is combined complementary photodissociation and urged
Change oxidation waste odour-gas cleaning treatment system.
Background technology
UV photodissociation technologies are to handle organic exhaust gas, i.e. UV+O by the principle of the cold burning of ultraviolet light3, pass through strong ultraviolet light
Shortwave is cracked to emission molecule, interrupts strand, while produce substantial amounts of ozone carries out oxidation processes to waste gas, because its
Main oxidant is ozone (oxidizing potential of ozone is 2.07 volts), so only effective to the processing of general organic exhaust gas composition
Really, but to constitutionally stable atom organic matter, halide reaction is not produced, treatment effect is very poor.
Photooxidation catalytic treatment technology is to utilize extraordinary ultra-violet bands (UVD wave bands), in the presence of catalytic oxidant, light
Catalysis oxidation is that catalytic action occurs in the presence of extraneous visible ray, and photocatalysis oxidation reaction is using semiconductor and air to urge
Agent, is CO by organic matter degradation using light as energy2And H2O and other nontoxic compositions.Made using artificial ultraviolet light wave
For the energy, activity most strong, reaction efficiency highest nano-TiO after being handled through particular technology2Catalyst excites catalytic reaction, gives up
Odour reaches certain clean-up effect after treatment, but photooxidation catalytic treatment technology is also no to utilize UVC well
The service life of the purification function of wave band, it is impossible to handle sour gas, easily influence equipment.
Based on above reason, a kind of urgently new organic waste Odor control technology, is not influenceing to set to realize in the art
In the case of the standby life-span, remain to realize the purified treatment to waste odour-gas such as constitutionally stable atom organic matter, halide.
Utility model content
In order to solve the above mentioned problem of prior art presence, the utility model provides a kind of compound complementary photodissociation catalysis oxygen
Change waste odour-gas cleaning treatment system.The purified treatment to waste odour-gas such as constitutionally stable atom organic matter, halide can be reached
Thoroughly processing, and can handle sour gas, does not injure device systems in itself, device systems are used in decontamination process
Long lifespan.
The utility model is implemented by the following technical programs:
It is of the present utility model it is a kind of be combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, including spray column and
The air inlet entered for pending waste odour-gas is provided with photodissociation oxidation equipment, the spray column, the spray column goes out
Gas port is connected with the air inlet of the photodissociation oxidation equipment, air inlet and gas outlet in the photodissociation oxidation equipment
Between be provided with equal drift net, 253.7nm wave band UV lamps pipe, the first photooxidation catalytic plate, 185nm wave band UV lamp pipes and the second photooxidation and urge
Change plate.
When the utility model is specifically used, waste odour-gas first pass through spray column elution, and spray column filter cuts its particulate matter
Stay, filter off the particulate matter of easy damaged system equipment and the gas of readily soluble aqueous, while reducing EGT.Then enter back into
The thorough purification of organic waste odour-gas is completed in photodissociation oxidation equipment.Specifically cleaning principle is:Pass through 253.7nm wave band UV lamps
Pipe launches the main ripples of 253.7nm, using the UVC ultraviolets of the main ripples of 253.7nm by the irradiation to microorganisms such as bacterium, viruses, breaks
The molecular structure of DNA (DNA) or RNA (ribonucleic acid) in bad microflora organisms cell, cause DNA to be broken,
The crosslinking rupture of nucleic acid and albumen, causes growth cell death and regenerative cell dead, reaches the effect of sterilizing.Ripple
Long 185nm UVD ultraviolets irradiation air, can decompose the oxygen O in air2Molecule, the O atom of generation again with O2Molecule knot
Close and produce ozone O3.Ozone O3With strong oxidation, the cell membrane of decomposing bacteria can be destroyed, Cellular Oxidation is penetrated into and decomposes broken
Bad glucose oxidase, ribonucleic acid (RNA), DNA (DNA), protein, lipid, polysaccharide macromolecular polymerization
Thing, the metabolism and reproductive process for making bacterium is destroyed, and then causes bacterial death, reaches the effect of sterilizing.Pass through
185nm wave band UV lamps pipe launches the main ripples of 185nm, and O is produced in conjunction with the UVD ultraviolets of the main ripples of 185nm3(ozone), ozone has
Strong oxidation, can effectively kill bacterium.Ultraviolet ray sterilization bactericidal is exactly, by ultraviolet irradiation, to destroy and change micro- life
DNA (DNA) structure of thing, makes bacterium dead at once or irreproducible offspring, reaches the purpose of sterilization.Real tool
Have bactericidal action is the main ripple UVC ultraviolets of 253.7nm because C-band ultraviolet very easily by organism DNA absorb, especially with
253.7nm or so ultraviolet is optimal, it is not necessary to be converted into visible ray, and 253.7nm wavelength is made with regard to that can play sterilization well
With because cell has a rule to the absorption line of light wave, having the absorption of maximum, doctor in 250~270nm ultraviolet
Learning proves that absorbed ultraviolet is substantially applied to cellular genetic material i.e. DNA, and it plays a kind of photochemical action, ultraviolet photon
Energy by DNA base-pair absorb, cause inhereditary material to morph, make bacterium dead at once or irreproducible offspring,
Reach the purpose of sterilization.For sterilization speed, the main ripple UVC of 253.7nm be in microorganism absworption peak within the scope of, can 1s it
The interior DNA structure by destroying microorganism kills virus and bacterium.The ultraviolet of 185nm wavelength is to become the oxygen in air
Ozone, ozone has strong oxidizing property, can effectively kill bacterium.Wavelength 185nm UVD ultraviolets can be by the oxygen O in air2Become
Into ozone O3, ozone has strong oxidation, can effectively kill bacterium, but wavelength 185nm ultraviolets itself are without sterilization
Disinfective action, and wavelength 185nm UVD ultraviolets can be by the oxygen O in air2Become ozone O3, the dispersivity that ozone has
Just can make up 253.7nm ultraviolets can only straightline propagation, sterilization have the shortcomings that dead angle, ozone can reach space with air
Any corner, makes sterilizing more thorough.Ozone sterilization principle:Wavelength 185nm UVD ultraviolets irradiation air, can be decomposed
Oxygen O in air2Molecule, the O atom of generation again with O2Molecule, which is combined, produces ozone O3.Ozone O3With strong oxidation, energy
The cell membrane of decomposing bacteria is destroyed, Cellular Oxidation is penetrated into and decomposes destruction glucose oxidase, ribonucleic acid (RNA), deoxidation core
Ribosomal ribonucleic acid (DNA), protein, lipid, polysaccharide macromolecular polymer, the metabolism and reproductive process for making bacterium destroyed and
Death, reaches the effect of sterilizing.
The utility model exactly make use of irradiation of the UVC ultraviolets ultraviolet to microorganisms such as bacterium, viruses, destroy micro- life
The molecular structure of DNA (DNA) or RNA (ribonucleic acid) in thing body cell, cause DNA fracture, nucleic acid and
The crosslinking rupture of albumen, causes growth cell death and regenerative cell dead, reaches the effect of sterilizing.Fully tie again
The UVD ultraviolets irradiation air of 185nm wavelength has been closed, the oxygen O in air can be decomposed2Molecule, the O atom of generation again with O2
Molecule, which is combined, produces ozone O3.Ozone O3With strong oxidation, the cell membrane of decomposing bacteria can be destroyed, Cellular Oxidation is penetrated into
Destruction glucose oxidase, ribonucleic acid (RNA), DNA (DNA), protein, lipid, polysaccharide is decomposed to divide greatly
Sub- polymer, the metabolism and reproductive process for making bacterium is destroyed and dead, reaches the effect of sterilization, sterilization, deodorization.Due to smelly
The middle ultraviolet radioactive that oxygen is shorter than 300nm to the wavelength in stratosphere has absorbability, changes the molecule of its grease with ultraviolet light
Chain, while this ultraviolet light after the oxygen reaction in air with producing ozone, by the cold combustion generation carbon dioxide of grease molecules and water, oil
Organic matter in cigarette is aoxidized by photodissociation, and different smell is also eliminated therewith.
Based on principles above, the utility model is by 253.7nm and the main ripple features of 185nm two, and both mutually assist
Same synergy, is completed for resistant bacteria, the decomposition of rock-steady structure organic matter and purified treatment jointly, and to organic waste odour-gas
Purified treatment effect it is very excellent.
According to specific embodiment of the utility model, further advantageous embodiment, in addition to main tracheae and several branch gas
Pipe, one end of the main tracheae is connected with the air inlet of the spray column, and described bronchial one end is connected with the main tracheae,
The bronchial other end is provided with gas skirt.Can be with convenient by the bronchus and gas skirt set up in the improvement project
The collection for realizing waste odour-gas, the bronchus and gas skirt auxiliary plan are particularly suitable for use in grease drying room.
According to specific embodiment of the utility model, further advantageous embodiment, in addition to centrifugal blower and chimney, it is described
The air inlet of centrifugal blower is connected with the gas outlet of the photodissociation oxidation equipment, the gas outlet of the centrifugal blower with it is described
The bottom air inlet connection of chimney.First can be to processing gas in the utility model system by the traction of centrifugal blower
Drainage is played in circulation, and next can be delivered into the gas purified by chimney, and height is aerial, and further reduction is to week
The influence on side.The height of chimney may be designed as 15m.
According to specific embodiment of the utility model, further advantageous embodiment, in the photodissociation oxidation equipment
Air inlet is flowed to being provided with to set gradually from air inlet direction to gas outlet direction in air channel, the air channel between gas outlet
Net, 253.7nm wave band UV lamps pipe, the first photooxidation catalytic plate, 185nm wave band UV lamp pipes and the second photooxidation catalytic plate.This practicality is new
Equal drift net, 253.7nm wave band UV lamps pipe, the first photooxidation catalytic plate, 185nm wave band UV lamp pipes and the second photooxidation provided in type is urged
Change the layout type of plate, 253.7nm wave bands that the first photooxidation catalytic plate is also sent respectively to two kinds of UV lamp pipes and 185nm wave bands
Diffuse light wave and play compartmentation, can improve purified treatment effect of the utility model for waste odour-gas.
According to specific embodiment of the utility model, further advantageous embodiment, the photooxidation catalytic plate is nanoscale
TiO2Catalytic plate.
In order to further lift the deacidification in spray column except particulate matter effect, according to specific embodiment of the utility model,
Middle and upper part in further advantageous embodiment, the spray column, which is provided with spray piping, the spray piping, to be provided with and communicated with
Bottom in several atomizers, the spray column is provided with collecting tank, the collecting tank and is provided with water circulating pump, described to follow
The liquid outlet of ring water pump is connected by liquid pushing tube with the spray piping.Spray liquid can pass through " spray piping --- atomization
Device --- collecting tank --- water circulating pump --- liquid pushing tube --- spray piping " circulated sprinkling is carried out, resource has been saved, has been improved
Spray liquid utilization rate, improves the absorption assimilation effect to acid and particulate matter.
According to specific embodiment of the utility model, further advantageous embodiment is additionally provided with filler in the spray column
Layer.The filler of packing layer is the spray liquid under loose and porous structure, packing layer load atomizer spray, and pending waste gas is passed through and filled out
The spray liquid loaded during the bed of material with packing layer is fully contacted, and further lifting deacidification removes particulate matter effect.
According to specific embodiment of the utility model, in order to further lift spray preliminary purification effect, reduce to equipment
Two layers of spray piping is provided with damage influence, further advantageous embodiment, the spray column, two layers of spray piping is respectively position
Connect on first spray piping on spray column top and the second spray piping in the middle part of spray column, first spray piping
Logical be provided with several the first shower nozzles, second spray piping is provided with and communicated with several the second shower nozzles, described filler layer
It is made up of the first packing layer and the second packing layer, first packing layer is correspondingly arranged in below the first shower nozzle, and described second fills out
The bed of material is correspondingly arranged in below the second shower nozzle, and second packing layer is located above the first shower nozzle.The top of second shower nozzle is also set
It is equipped with one layer of demisting layer.
According to specific embodiment of the utility model, further advantageous embodiment is set at the gas outlet of the spray column
There is demister.Pending waste gas enters before photodissociation oxidation equipment, if containing substantial amounts of moisture, also can be catalyzed oxygen to photodissociation
Change equipment produces the demister newly established in damage, the utility model in itself can realize the effect of gas-liquid separation, by spray column
The liquid in waste gas at gas outlet is separated, and then ensures that the pending waste gas for entering photodissociation oxidation equipment is drying
Gas, and then extend the service life of the utility model equipment, it is further preferred according to specific embodiment of the utility model
Improve, the demister can obtain more excellent aqueous vapor isolation of purified drying effect when being wire mesh demister.
In summary, it is real by the 253.7nm wave band UV lamp pipes and 185nm wave band UV lamp pipes of introducing in the utility model
The compound complementary photodissociation catalysis oxidation of existing 253.7nm light waves and 185nm light waves, and then reach organic to constitutionally stable atom
The thorough purified treatment of the waste odour-gas such as thing, halide, and sour gas can be handled, do not injure and set in decontamination process
In itself, device systems service life is long for standby system.
Brief description of the drawings
, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art
Or the accompanying drawing used required in description of the prior art is briefly described, it should be apparent that, drawings in the following description are only
It is some embodiments of the present utility model, for those of ordinary skill in the art, is not paying the premise of creative work
Under, other accompanying drawings can also be obtained according to these accompanying drawings.
Fig. 1 is the structural representation of the present utility model for being combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system
Figure.
1- gas skirts in figure;The main tracheaes of 2-;3- spray columns, the shower nozzles of 31- first, the packing layers of 32- first, the shower nozzles of 33- second,
The packing layers of 34- second;4- photodissociation oxidation equipments, the equal drift nets of 41-, 42-253.7nm wave band UV lamp pipes, 43-185nm wave bands
UV lamp pipe, 44- the first photooxidation catalytic plates, 45- the second photooxidation catalytic plates;5- centrifugal blowers;6- chimneys.
Embodiment
, below will be to technology of the present utility model to make the purpose of this utility model, technical scheme and advantage clearer
Scheme is described in detail.Obviously, described embodiment is only a part of embodiment of the utility model, rather than all
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not before creative work is made
Resulting all other embodiment is put, the scope that the utility model is protected is belonged to.
Embodiment:
The present embodiment provides one kind compound complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, including spray column 3,
Photodissociation oxidation equipment 4, centrifugal blower 5, chimney 6, main tracheae 2 and several bronchuses.
The air inlet entered for pending waste odour-gas, the gas outlet of the spray column 3 and institute are provided with the spray column 3
State the air inlet connection of photodissociation oxidation equipment 4.Two layers of spray piping, two layers of spray piping are provided with the spray column 3
Respectively positioned at first spray piping and the second spray piping positioned at the middle part of spray column 3 on the top of spray column 3, first spray
It is provided with and communicated with shower pipe road on several the first shower nozzles 31, second spray piping and is provided with and communicated with several the second shower nozzles
33.Packing layer is additionally provided with the spray column 3, described filler layer is made up of the first packing layer 32 and the second packing layer 34, institute
State the first packing layer 32 and be correspondingly arranged in the lower section of the first shower nozzle 31, second packing layer 34 is correspondingly arranged under the second shower nozzle 33
Side, second packing layer 34 is located at the top of the first shower nozzle 31.The top of second shower nozzle 33 is additionally provided with one layer of demisting layer.
Bottom in the spray column 3 is provided with collecting tank, the collecting tank is provided with water circulating pump, and the water circulating pump goes out liquid
Mouth is connected by liquid pushing tube with the spray piping.Demister is provided with the gas outlet of the spray column 3, the demister is
Wire mesh demister.One end of the main tracheae 2 is connected with the air inlet of the spray column 3, described bronchial one end with it is described
Main tracheae 2 is connected, and the bronchial other end is provided with gas skirt 1.The air inlet of the centrifugal blower 5 is urged with the photodissociation
Change the gas outlet connection of oxidation furnaces 4, the gas outlet of the centrifugal blower 5 is connected with the bottom air inlet of the chimney 6.
Air inlet in the photodissociation oxidation equipment 4 between gas outlet to being provided with air channel, the air channel from entering
Gas port direction to gas outlet direction set gradually equal drift net 41,253.7nm wave band UV lamps pipe 42, the first photooxidation catalytic plate 44,
185nm wave band UV lamps pipe 43 and the second photooxidation catalytic plate 45, the first and second photooxidations catalytic plate is nanoscale TiO2Urge
Change plate.
As shown in figure 1, the compound complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system of the present embodiment is specifically used
When, gas skirt 1 collects pending waste odour-gas, and pending waste odour-gas, which are sequentially passed through, enters spray column 3 after bronchus and main tracheae 2
Interior, pending waste odour-gas up process in spray column 3 is to start to contact with spray liquid, and when through packing layer further with
Spray liquid is contacted, and is absorbed with the acid and particulate matter in pending waste odour-gas in spray liquid contact process by spray liquid, so
Obtain afterwards containing the more moist waste gas to be clean of steam, moist waste gas to be clean is at the gas outlet of spray column 3 by silk screen foam removal
Device is further dried purification and removes drop steam, obtains the waste gas to be clean of drying.Dry waste gas to be clean is urged into photodissociation
Change in oxidation furnaces 4 and carry out in composite depth processing, advanced treatment process, first through the equal uniform air flow of drift net 41, Ran Hou
The main ripples of 253.7nm and the main ripples of 185nm that 253.7nm wave band UV lamps pipe 42 and 185nm wave band UV lamps pipe 43 are sent respectively are jointly multiple
Close under complementary catharsis, and combine the thorough purification of two layers of photooxidation catalytic plate completion waste gas, the gas after being purified, purification
Gas afterwards is delivered to the top vent of chimney 6 in the case where row is sent in the suction of centrifugal blower 5 and discharged.
It is described above, embodiment only of the present utility model, but protection domain of the present utility model do not limit to
In this, any one skilled in the art can readily occur in change in the technical scope that the utility model is disclosed
Or replace, it should all cover within protection domain of the present utility model.Therefore, protection domain of the present utility model should be with the power
The protection domain that profit is required is defined.
Claims (10)
1. one kind is combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, it is characterised in that:Including spray column (3) and
The air inlet entered for pending waste odour-gas, the spray are provided with photodissociation oxidation equipment (4), the spray column (3)
The gas outlet of tower (3) is connected with the air inlet of the photodissociation oxidation equipment (4), in the photodissociation oxidation equipment (4)
Air inlet and gas outlet between be provided with equal drift net (41), 253.7nm wave band UV lamp pipes (42), the first photooxidation catalytic plate
(44), 185nm wave bands UV lamp pipe (43) and the second photooxidation catalytic plate (45).
2. according to claim 1 be combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, it is characterised in that:
Also include main tracheae (2) and several bronchuses, one end of the main tracheae (2) is connected with the air inlet of the spray column (3),
Described bronchial one end is connected with the main tracheae (2), and the bronchial other end is provided with gas skirt (1).
3. according to claim 1 be combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, it is characterised in that:
Also include centrifugal blower (5) and chimney (6), the air inlet of the centrifugal blower (5) and the photodissociation oxidation equipment (4)
Gas outlet is connected, and the gas outlet of the centrifugal blower (5) is connected with the bottom air inlet of the chimney (6).
4. according to claim 1 be combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, it is characterised in that:
Air inlet in the photodissociation oxidation equipment (4) between gas outlet to being provided with air channel, the air channel from air inlet side
To gas outlet direction set gradually equal drift net (41), 253.7nm wave band UV lamp pipes (42), the first photooxidation catalytic plate (44),
185nm wave band UV lamp pipes (43) and the second photooxidation catalytic plate (45).
5. according to claim 4 be combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, it is characterised in that:
The first photooxidation catalytic plate (44) and the second photooxidation catalytic plate (45) are nanoscale TiO2Catalytic plate.
6. according to claim 1 be combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, it is characterised in that:
Middle and upper part in the spray column (3), which is provided with spray piping, the spray piping, is provided with and communicated with several atomizers, institute
State the bottom in spray column (3) and be provided with collecting tank, the collecting tank and be provided with water circulating pump, the water circulating pump goes out liquid
Mouth is connected by liquid pushing tube with the spray piping.
7. according to claim 6 be combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, it is characterised in that:
Packing layer is additionally provided with the spray column (3).
8. according to claim 7 be combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, it is characterised in that:
Two layers of spray piping is provided with the spray column (3), two layers of spray piping is respectively the first spray positioned at spray column (3) top
Be provided with and communicated with shower pipe road and the second spray piping in the middle part of spray column (3), first spray piping several
Several second shower nozzles (33) are provided with and communicated with one shower nozzle (31), second spray piping, described filler layer is filled out by first
The bed of material (32) and the second packing layer (34) composition, first packing layer (32) are correspondingly arranged in below the first shower nozzle (31), institute
State the second packing layer (34) to be correspondingly arranged in below the second shower nozzle (33), second packing layer (34) is located at the first shower nozzle (31)
One layer of demisting layer is additionally provided with above top, second shower nozzle (33).
9. according to claim 6 be combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, it is characterised in that:
Demister is provided with the gas outlet of the spray column (3).
10. according to claim 9 be combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system, its feature exists
In:The demister is wire mesh demister.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107051192A (en) * | 2017-03-29 | 2017-08-18 | 甘肃中天兰洁节能环保科技发展有限公司 | It is combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system |
CN108159878A (en) * | 2018-01-24 | 2018-06-15 | 合肥工业大学 | A kind of raw fat refining exhaust gas treating method |
CN109806743A (en) * | 2019-03-05 | 2019-05-28 | 广州大学 | A kind of processing method and its system containing toluene waste gas |
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2017
- 2017-03-29 CN CN201720320185.3U patent/CN206597460U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107051192A (en) * | 2017-03-29 | 2017-08-18 | 甘肃中天兰洁节能环保科技发展有限公司 | It is combined complementary photodissociation catalysis oxidation waste odour-gas cleaning treatment system |
CN108159878A (en) * | 2018-01-24 | 2018-06-15 | 合肥工业大学 | A kind of raw fat refining exhaust gas treating method |
CN109806743A (en) * | 2019-03-05 | 2019-05-28 | 广州大学 | A kind of processing method and its system containing toluene waste gas |
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