CN207871879U - A kind of industry deodorization purifier - Google Patents

Abstract

The utility model is related to exhaust-gas treatment fields, and in particular, to a kind of industry deodorization purifier.The industrial deodorization purifier of the utility model, including air inlet (1), further include purification system (2), the purification system (2) includes UV photodissociation module (21), photocatalysis module (22), the ozone catalytic module (23) set gradually along air channel；The UV photodissociation module (21) is connected with air inlet (1).The utility model aim is overcome the deficiencies in the prior art, a kind of industrial deodorization purifier is provided, using the combined processing structure of UV photodissociation module+photocatalysis module+ozone catalytic module+spray module, industrial stench can be carried out degrading and purifying comprehensively, reach discharging standards and the local discharge standard of provinces and cities.

Description

A kind of industry deodorization purifier

Technical field

The utility model is related to exhaust-gas treatment fields, and in particular, to a kind of industry deodorization purifier.

Background technology

Stench is to make one olfactory organ perception and cause unhappiness and be harmful to a kind of public hazards gaseous state dirt of human health Contaminate object, including ammonia, trimethylamine, hydrogen sulfide, methyl mercaptan, methyl sulfide, methyl disulfide, carbon disulfide, styrene etc..The source of stench Extensively, but majority comes from using oil as the processing of the chemical plant of raw material, destructor plant, sewage treatment plant, feed factory and fertilizer Containing micro and multiple structural forms in industrial enterprises, the especially oil such as factory, livestock products farm, Leather Factory, pulp mill The hydrocarbon compounds such as sulphur, oxygen, nitrogen, in the technical process such as storage, transport and heating, decomposition, synthesis producing foul smell spills into In air, the odor pollution of environment is caused.《The Law of the People's Republic of China on the Prevention and Control of Atmospheric Pollution》Clear stipulaties are discharged to air and are disliked The pollutant discharging unit of odour, it is necessary to take measures that surrounding resident area is prevented to be contaminated.The discharge standard of wherein stench has country Standard GB/T14554-93, Shanghai provincial standard DB31/1025-2016, Tianjin provincial standard DB12/059-1995 and Shandong Provincial standard exposure draft etc..

The processing method of stench mainly has Physical, chemical method, bioanalysis etc..

Physical is mainly using active carbon adsorption as main representative.Active carbon adsorption is a more traditional technology, Its principle is that the adsorbents such as activated carbon are filled in adsorption tower, and odor pollutant is adsorbed on adsorbent, to reach deodorization Effect；Chemical method is chemically reacted with odorant using another substance, is changed the chemical constitution of odorant, is made Be changed into odorless substance or the lower substance of stink, common method has flame combustion, ionic oxide formation method and chemical washing method. Wherein again with the more universal of chemical washing method；Bioanalysis is to utilize microorganism by the organic pollutant degradation in odorous gas Or it is converted into the process of harmless or low harmful substance.

But there is certain limitations for these three methods.Total adsorption capacity of activated carbon is limited in absorption method, It needs to be regenerated or replaced by the immersion of hot-air, steam or caustic alkali after its adsorption saturation.Activated carbon primary attachment is disliked Hydrocarbon in smelly, it is poor for other substance adsorption capacities.Absorption method be suitable in, the foul gas of low concentration.And Combustion method in chemical method is relatively suitble to the processing of high concentration stench, but has the shortcomings of equipment is big, high energy consumption；And bioanalysis is deposited The shortcomings for the treatment of effeciency is low, treatment conditions are difficult to control.

Existing deodorization purifier uses the combination technique and equipment pair of " photodissociation (or plasma)+photochemical catalytic oxidation " Industrial foul smell is handled, and is carried out efficient-decomposition to the foul smell of collection, is eventually become small molecule, carbon dioxide and water and arranged It puts.But when using photodissociation (or plasma) method for oxidation decomposition smell gas, while it will produce ozone.Ozone has strong thorn Swash property, can stimulate and damage deep respiratory tract, and central nervous system can be damaged, have slight stimulation to eyes, still The tail gas generated therewith because its absorptivity cannot reach 100%, therefore is discharged into the tail gas in environment still even across processing Contain a certain amount of ozone.Ozone can have an effect with oxynitrides, the hydrocarbon in air to cause damages more seriously Photochemical fog.When ozone concentration is more than 0.06mg/m³When certain harm may be generated to human body.Therefore, in ozone It is handled before discharge, it is very necessary to be broken down into innocuous substance.

Existing industry deodorization purifying contaminated object has problems in that：1) photodissociation will produce height using high energy ultraviolet degradation Concentration of ozone, ozone is directly discharged in air that people can be caused uncomfortable, or even will produce photochemical pollution；2) photocatalysis module is adopted Catalysis material is largely the titanium dioxide optical catalyst of the loads such as aluminum honeycomb base, metal mesh base, ceramic base, using painting It covers or the defects of prepared by gel method, Kong great, specific surface area be small, active sites are few, it is low to the degradation efficiency of exhaust gas.Therefore, design and It is imperative to manufacture a kind of photodissociation photocatalysis equipment of the industrial foul smell of efficient degradation processing.

Utility model content

The utility model aim is to overcome the deficiencies of the prior art and provide a kind of industrial deodorization purifier, can be by work Industry stench degrade and purify comprehensively, reaches discharging standards and the local discharge standard of provinces and cities.

The utility model uses the combined processing knot of UV photodissociation module+photocatalysis module+ozone catalytic module+spray module Structure.

Specifically, the technical solution of the utility model is as follows：

The industrial deodorization purifier of the utility model, including air inlet 1 further include purification system 2, the purification system 2 include UV photodissociation module 21, photocatalysis module 22 and the ozone catalytic module 23 set gradually along air channel；

The UV photodissociation module 21 is connected with air inlet 1.

According to industrial deodorization purifier described in the utility model, wherein the UV photodissociation module 21, photocatalysis module 22 and ozone catalytic module 23 can be extracted out perpendicular to air duct.

According to industrial deodorization purifier described in the utility model, wherein the UV photodissociation module 21 includes that setting exists UV ultraviolet lamps in it.

According to industrial deodorization purifier described in the utility model, wherein in the photocatalysis module 22 along perpendicular to The nickel foam base optic catalytic material 221 of coating silicon dioxide, the foam of the nickel foam base optic catalytic material is arranged in air channel Loaded optic catalyst in nickel substrate；It is both provided with 254nm ultraviolet lamps in the front-rear direction apart from nickel foam base optic catalytic material 221 222 arrays, the plane where 254nm arrays is parallel with the plane where nickel foam base optic catalytic material 221, and the Ni-based light of foam is urged It is 3~10cm to change the distance between material 221 and 254nm ultraviolet lamps 222, is arranged along perpendicular to air channel.Further Ground, the porosity of the nickel foam has prodigious relationship with processing air quantity in photocatalysis module 22, is usually handling tens of thousands of air quantity Exhaust gas when, nickel foam that PPI can be selected smaller.

According to industrial deodorization purifier described in the utility model, wherein preferably, n-layer nickel foam base optic catalytic is arranged Material 221, n+1 row 254nm ultraviolet lamps 222.

According to industrial deodorization purifier described in the utility model, wherein be provided in the ozone catalytic module 23 Ozone catalytic filter screen, the ozone catalytic filter screen includes carrier and the ozone catalyst that is carried on carrier, described smelly VPO catalysts convert the ozone to oxygen；

Wherein, the carrier is that surface coats γ-Al₂O₃The nickel foam of coating, the ozone catalyst are ternary manganese systems oxygen Compound catalyst.

According to industrial deodorization purifier described in the utility model, wherein described device further includes spray column 3, and net The outlet side of change system 2 is connected；

The first packing layer, the first spray section, the second packing layer and are disposed with inside shown spray column 3 from bottom to top Two spray sections, the second spray section are located at immediately below purifying column air stream outlet；First spray section and the second spray section are by several sprays Spill the downward sprinkler composition in direction；

The air inlet of the spray column 3 is located at the first packing layer.

According to industrial deodorization purifier described in the utility model, wherein further include spiral fan in the spray column, The spiral fan is arranged between the air stream outlet at the top of the second spray section and purifying column；The spray column and purification system 2 Between air pipeline on be also communicated with plenum chamber.

According to industrial deodorization purifier described in the utility model, wherein the processing system further includes wind turbine 4, institute It states in the outlet pipe that wind turbine 4 is set to outside spray column 3；Air outlet 5 is set above wind turbine 4.

According to industrial deodorization purifier described in the utility model, wherein the purification system 2 can also include multiple UV photodissociation module 21, photocatalysis module 22 and ozone catalytic module 23, so formed UV photodissociation modules groups, photocatalysis module group and Ozone catalytic module group.

It the advantages of the utility model and has the beneficial effect that：

The industrial deodorization purifier of the first, the utility model includes photodissociation module, photocatalysis module, ozone decomposed module With spray module, it can thoroughly be decomposed by the gas of collection by multiple purifying module, meets country's discharge and place row Standard is put, and is that the nitrogen oxides and sulfide comprehensively purified, including be destitute of smell is disposed together；

The second, catalytic decomposition of ozone module is provided in the industrial deodorization purifier of the utility model, specifically for preceding The ozone that end photodissociation generates is decomposed, and is most comprehensively to purify, and will not generate any undesirable influence to ambient air；

Third, the utility model industrial deodorization purifier use catalysis material and ozone catalysing material, have Larger specific surface area, purification efficiency is high, and Odor control is thorough, and itself does not change, and service life is long；

4th, the industrial deodorization purifier side of the utility model uses movable cabinet door, is urged convenient for photodissociation module, light Change the maintenance and replacement of module, ozone decomposed module；

5th, the industrial deodorization purifier of the utility model is compact-sized, and floor space is small, adaptable, and operation is steady Determine, easy maintenance, economy is strong.

Description of the drawings

Fig. 1 is the structural schematic diagram of the industrial deodorization purifier of the utility model, wherein arrow is wind direction in figure.

Fig. 2 is the purification system schematic diagram of the utility model.

Fig. 3 is the photocatalysis module diagrammatic cross-section of the utility model.

Fig. 4 is the spray column schematic diagram of the utility model, wherein arrow is wind direction in figure.

Reference numeral

1, air inlet, 2, purification system, 3, spray column, 4, wind turbine, 5, air outlet, 21, UV photodissociation modules, 22, photocatalysis Module, 23, ozone catalytic module, 221, nickel foam base optic catalytic material, 222,254nm ultraviolet lamps.

Specific implementation mode

The utility model is described in further detail presently in connection with attached drawing.These attached drawings are simplified schematic diagram, Only illustrate the basic structure of the utility model in a schematic way, therefore it only shows composition related with the utility model.

As shown in Figure 1, the industrial deodorization purifier of the utility model, including air inlet 1, further include purification system 2, such as Shown in Fig. 2, the purification system 2 includes UV photodissociation module 21, photocatalysis module 22 and the ozone set gradually along air channel Catalytic module 23；The UV photodissociation module 21 is connected with air inlet 1.

Wherein, the UV photodissociation module 21, photocatalysis module 22 and ozone catalytic module 23 can take out perpendicular to air duct Go out.

The UV photodissociation module 21 includes the UV ultraviolet lamps to set within it.

As shown in figure 3, the nickel foam of coating silicon dioxide is arranged along perpendicular to air channel in the photocatalysis module 22 Base optic catalytic material 221, loaded optic catalyst in the foam nickel base of the nickel foam base optic catalytic material；Apart from nickel foam Before and after base optic catalytic material 221 at 3~10cm, along perpendicular to one row 254nm ultraviolet lamps 222 of air channel setting.It is wherein excellent Selection of land, setting n-layer nickel foam base optic catalytic material 221, n+1 row 254nm ultraviolet lamps 222.

Be provided with ozone catalytic filter screen in the ozone catalytic module 23, the ozone catalytic filter screen include carrier with And it is carried on the ozone catalyst on carrier, the ozone catalyst converts the ozone to oxygen；Wherein, the carrier is surface Coat γ-Al₂O₃The nickel foam of coating, the ozone catalyst are ternary manganese series oxides catalyst.

As shown in figure 4, industry deodorization purifier described in the utility model, further includes spray column 3, with purification system 2 Outlet side be connected；The first packing layer, the first spray section, the second filler are disposed with inside shown spray column 3 from bottom to top Layer and the second spray section, the second spray section are located at immediately below purifying column air stream outlet；First spray section and the second spray section by The downward sprinkler composition in several sprinkling directions；The air inlet of the spray column 3 is located at the first packing layer.

Further include spiral fan in the spray column, the spiral fan is arranged at the top of the second spray section and purifying column Between air stream outlet；It is also communicated with plenum chamber on air pipeline between the spray column and purification system 2.

According to industrial deodorization purifier described in the utility model, wherein the processing system further includes wind turbine 4, institute It states in the outlet pipe that wind turbine 4 is set to outside spray column 3；Air outlet 5 is set above wind turbine 4.

Using the utility model processing industry VOCs exhaust gas, steps are as follows：

In a specific embodiment, the utility model preferably uses rectangular processing modules at different levels.The industry foul smell Purifier is as shown in Figure 1.As can be seen from Figure 1：The industry odor purification uses rectangular structure, air inlet 1 In the left end of processing unit, for air outlet 5 in the right end of processing unit, wind turbine 4 is mounted in the lower section of air opening end, the work of wind turbine With being that gas is made, there are one the flow direction oriented, and to control air volume by power on access；It is filled in purification On the access set, wind enters purification system 2 from air inlet 1, which has multiple functions, can be by organic exhaust gas Be degraded into small molecule or it is degradable be carbon dioxide and water, while can photodissociation generate ozone decomposed fall；Spray column 3 In the right end of purification system, spray column primarily to remove photodissociation photocatalytic process generate nitrogen oxides and oxysulfide, Although nitrogen oxides and oxysulfide are tasteless, being discharged into air can also affect to environment.

The internal structure chart of purification system 2 is as shown in Figure 2.Figure it is seen that purification system 2 includes UV photodissociation modules 21, photocatalysis module 22, ozone catalytic module 23, these module parallels are arranged on air duct, and at an angle of 90 with wind direction.Work After industry foul smell is collected by gas gathering mask, by UV photodissociation module 21, photocatalysis module 22, ozone catalytic module 23 play degradation and Purify the effect of foul smell.Foul smell initially enters UV photodissociation module 21, which has used the UV of 185nm under the action of wind turbine Ultraviolet lamp, the ultraviolet lamp of the wavelength decomposes the oxygen molecule in air and generates free oxygen, because the taken positron-electron of free oxygen is uneven So need to be combined with oxygen molecule, and then ozone is generated, Pre-Ozonation on Organic Matter has extremely strong oxidation, has to foul smell very strong Decomposition and elimination effect.It by UV ultra violet lamp foul smell, then cracks, degradation is changed into low molecular compound or even complete It is transformed into carbon dioxide and water entirely.The arrangement mode of UV ultraviolet lamps, the concentration of quantity and foul smell, composition etc. have in UV photodissociation modules It closes, preferably, the distance between each column UV ultraviolet lamps are between 8~11cm, and the distance between every two row UV ultraviolet lamps Within 15cm.Of course, it is possible to determine the quantity of ultraviolet lamp according to the size of air quantity, concentration for the treatment of and babinet sectional area.

Enter photocatalysis module 22 by the foul smell of UV photodissociation module 21, the photocatalysis module 22 in addition to can by foul smell not The foul smell of degradation is decomposed into carbon dioxide and water, can also the small molecule that obtained by photodissociation be further broken into carbon dioxide And water, will substantially reduce the foul smell of collection concentration in addition it is degradable be carbon dioxide and water, avoid foul smell enter air and Cause secondary pollution.

The structure chart of photocatalysis module 22 is as shown in Figure 3：The module uses the ultraviolet lamp and the Ni-based photocatalysis material of foam of 254nm Material.When using the nickel foam base optic catalytic material of n-layer, there is the ultraviolet lamp that (n+1) is arranged, ensures nickel foam base optic catalytic material There are a ultraviolet lamp row parallel with it on two surfaces, and each column ultraviolet lamp has branched arranged in parallel, and the quantity of ultraviolet lamp is according to specifically Depending on actual conditions；In the module, TiO₂On photocatalyst to the process pretreated nickel foam of silica, nickel foam There is larger specific surface compared to other photocatalysis carriers, has more activated centre when in use, be conducive to improve Light-catalysed purification efficiency；In fact, photochemical catalyst is under the irradiation of ultraviolet lamp, in addition to foul smell can be decomposed, while also may be used Bacterial virus in exhaust gas, peculiar smell are decomposed.Specifically, in the photocatalysis module 22, along perpendicular to air channel, setting The nickel foam base optic catalytic material 221 of coating silicon dioxide loads in the foam nickel base of the nickel foam base optic catalytic material Photochemical catalyst；It is both provided with 222 array of 254nm ultraviolet lamps in the front-rear direction apart from nickel foam base optic catalytic material 221, Plane where 222 array of 254nm ultraviolet lamps is parallel with the plane where nickel foam base optic catalytic material 221, the Ni-based light of foam The distance between catalysis material 221 and 254nm ultraviolet lamps 222 are 3~10cm, are arranged along perpendicular to air channel.Into one Step, the porosity of the nickel foam has prodigious relationship with processing air quantity in photocatalysis module 22, is usually handling tens of thousands of wind When the exhaust gas of amount, nickel foam that PPI can be selected smaller.

The utility model is used using nano titanium dioxide photocatalyst as raw material, keeps photocatalysis uniform with maximum specific surface area It is attached in nickel foam, using ultraviolet lamp as light source, excites the electronics (e in valence band^-) conduction band is transitted to, it is generated in valence band corresponding Hole (h⁺), superoxide anion and hydroxyl free radical with extremely strong oxidation are generated, by industrial organic exhaust gas oxidation point Solution is at harmless CO₂And H₂O achievees the purpose that purifying industrial organic waste gas；Photochemical catalyst has the function of sterilization simultaneously, can incite somebody to action Various bacteriums kill；Photochemical catalyst filter screen energy oxygenolysis industrial organic exhaust gas, oneself does not change, and has long-term living Property.

The performance of photochemical catalyst is related with light-receiving area, so the developing direction of photochemical catalyst is porous type, and needs By on the carrier of the photocatalyst of porous type to bigger serface, and the photochemical catalyst of most of commercial uses light at present Catalytically-active materials load on the carriers such as aluminum honeycomb, metal mesh, porous ceramics, since the specific surface area of carrier is small, load capacity Fewer, photocatalysis effect is poor；And the utility model is then using homemade titanyl polymer solution by impregnating or the side of spraying Formula is loaded, is dried and is sintered to obtain nickel foam catalysis material used, which has larger Specific surface area and smaller windage, are suitably applied the processing of industrial waste gas.

Ozone catalytic module 23 is traveled further by the gas of photodissociation, photocatalytic degradation, which can The ozone that front end photodissociation generates is converted to oxygen, without ozone to be directly discharged in air, avoids the health for causing people Problem, while avoiding photochemical pollution.The utility model ozone catalytic filter screen uses three using manganese series oxides as principal component The catalyst (ternary manganese series oxides catalyst) of first composite oxides, is loaded in the nickel foam compared with Large ratio surface, is led to It crosses high temperature sintering and obtains ozone catalyst.Specifically, the utility model first coats the oxygen of one layer of gama-alumina in foam nickel surface Aluminium polymer presoma obtains γ-Al by high temperature sintering₂O₃Coating, the coating can effectively improve the specific surface of nickel foam Product is conducive to load of the oxide in nickel foam for improving ternary manganese.

So that catalyst is loaded in the nickel foam of bigger serface, generate more active sites, is easy to that ozone is catalytically decomposed. Ozone catalytic filter screen energy oxygenolysis ozone, oneself does not change, and has long period of activity.

Industrial foul smell by UV photodissociation module 21, photocatalysis module 22, ozone catalytic module 23 has largely decomposed For carbon dioxide and water, but since the ingredient of foul smell is nitride and sulfide, so after photodissociation and photocatalysis module Ingredient in have nitrogen dioxide and sulfur dioxide, they are also one of pollutant of air, in the pollutant to power plant emission Discharge limitation has also been made.

The gas come out by ozone degradation module enters spray column 3, and the structural schematic diagram of spray column 3 is as shown in Figure 4.Spray The first packing layer, the first spray section, the second packing layer and the second spray section, the second spray are disposed with inside tower from bottom to top Section is located at immediately below purifying column air stream outlet；First spray section and the second spray section are by the downward nozzle group in several sprinkling directions At.Further include spiral fan in the spray column, the air stream outlet at the top of the second spray section and purifying column is arranged in spiral fan Between.In addition, being also communicated with plenum chamber on air pipeline between leading portion purifier and spray column.It is clean after being finally cleaned Net gas is drawn by main air blower is sent to chimney qualified discharge.

In the utility model, UV ultraviolet photolysis module, photochemical catalytic oxidation module, ozone module are by respectively multigroup module Composition.Each module is both designed as drawer type, and can release replacement；It, can be according to actual conditions in practical application Adjust UV photodissociation module, the quantity and ratio of photochemical catalytic oxidation module and ozone module.

Certainly, the utility model can also there are many embodiments, in the feelings without departing substantially from the spirit of the present invention and its essence Under condition, those skilled in the art can disclosure according to the present utility model make various corresponding changes and modification, but this A little corresponding change and deformations should all belong to the protection domain of the utility model the attached claims.

Claims (11)

1. a kind of industry deodorization purifier, including air inlet (1), which is characterized in that

The industry deodorization purifier further includes purification system (2), and the purification system (2) includes being set successively along air channel UV photodissociation module (21), photocatalysis module (22) and the ozone catalytic module (23) set；

The UV photodissociation module (21) is connected with air inlet (1).

2. industry deodorization purifier according to claim 1, which is characterized in that the UV photodissociation module (21), light are urged Changing module (22) and ozone catalytic module (23) can extract out perpendicular to air duct.

3. industry deodorization purifier according to claim 1 or 2, which is characterized in that UV photodissociation module (21) packet Include the UV ultraviolet lamps to set within it.

4. industry deodorization purifier according to claim 1 or 2, which is characterized in that in the photocatalysis module (22) Along perpendicular to air channel, the nickel foam base optic catalytic material (221) of coating silicon dioxide, the nickel foam base optic catalytic are set Loaded optic catalyst in the foam nickel base of material；It is respectively provided in the front-rear direction apart from nickel foam base optic catalytic material (221) There is 254nm ultraviolet lamps (222) array, the plane where 254nm ultraviolet lamps (222) array and nickel foam base optic catalytic material (221) plane where is parallel, the distance between nickel foam base optic catalytic material (221) and 254nm ultraviolet lamps (222) be 3~ 10cm is arranged along perpendicular to air channel.

5. industry deodorization purifier according to claim 4, which is characterized in that setting n-layer nickel foam base optic catalytic material Expect (221), n+1 row 254nm ultraviolet lamps (222).

6. industry deodorization purifier according to claim 1 or 2, which is characterized in that the ozone catalytic module (23) Inside it is provided with ozone catalytic filter screen, the ozone catalytic filter screen includes carrier and the ozone catalytic that is carried on carrier Agent, the ozone catalyst convert the ozone to oxygen；

Wherein, the carrier is that surface coats γ-Al₂O₃The nickel foam of coating, the ozone catalyst are ternary manganese series oxides Catalyst.

7. industry deodorization purifier according to claim 1 or 2, which is characterized in that described device further includes spray column (3), it is connected with the outlet side of purification system (2)；

It is disposed with the first packing layer, the first spray section, the second packing layer and second from bottom to top inside shown spray column (3) Spray section, the second spray section are located at immediately below purifying column air stream outlet；First spray section and the second spray section are by several sprinklings The downward sprinkler composition in direction；

The air inlet of the spray column (3) is located at the first packing layer.

8. industry deodorization purifier according to claim 7, which is characterized in that further include screw fan in the spray column Leaf, the spiral fan are arranged between the air stream outlet at the top of the second spray section and purifying column；The spray column and purification system It is also communicated with plenum chamber on air pipeline between system (2).

9. industry deodorization purifier according to claim 7, which is characterized in that the industry deodorization purifier also wraps Wind turbine (4) is included, the wind turbine (4) is set in the outlet pipe of spray column (3) outside；Air outlet is set above wind turbine (4) (5)。

10. industry deodorization purifier according to claim 8, which is characterized in that the industry deodorization purifier is also Including wind turbine (4), the wind turbine (4) is set in the outlet pipe of spray column (3) outside；Air outlet is set above wind turbine (4) (5)。

11. industry deodorization purifier according to claim 1 or 2, which is characterized in that the purification system (2) includes Multiple UV photodissociation modules (21), photocatalysis module (22) and ozone catalytic module (23).