CN206688478U - Synchronous photoelectromagnetic desulphurization denitration adsorption tower - Google Patents
Synchronous photoelectromagnetic desulphurization denitration adsorption tower Download PDFInfo
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- CN206688478U CN206688478U CN201720584509.4U CN201720584509U CN206688478U CN 206688478 U CN206688478 U CN 206688478U CN 201720584509 U CN201720584509 U CN 201720584509U CN 206688478 U CN206688478 U CN 206688478U
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- desulphurization denitration
- attraction block
- synchronous
- photoelectromagnetic
- adsorption tower
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Abstract
The utility model synchronization photoelectricity desulphurization denitration adsorption tower, belong to environmental protection technical field, including absorption tower body, Attraction block, inductive reaction device, the wet pipe of steaming and decomposition reactor.It is achieved in that industrial waste gas enters the synchronous attached tower of photoelectricity desulphurization denitration, it is electrically charged that institute is first neutralized by inductive reaction device, humidifying processing is carried out by wet pipe is steamed, subsequently enter desulphurization denitration area and progress adsorption treatment is contacted with Attraction block surface, the ultraviolet lamp in decomposition reactor launches 175nm~253.7nm ultraviolets and irradiates industrial waste gas under catalytic condition simultaneously, nitric oxide therein is resolved into oxygen, nitrogen and nitrogen dioxide, handle postindustrial waste gas through desulphurization denitration discharges from the gas outlet of synchronous photoelectromagnetic desulphurization denitration adsorption tower.The device uses synchronizable optical electromagnetic technique, while the rationally addition organic foaming agent in Attraction block, produces low-resistance, the Attraction block of high surface area, replaceable, renewable, disposably puts into small, and operating cost is low.
Description
Technical field
The utility model belongs to environmental protection technical field, and in particular to a kind of synchronous photoelectromagnetic desulphurization denitration adsorption tower.
Background technology
With developing rapidly for China's industry, atmosphere polluting problem is on the rise caused by industrial gas emission, Industry Waste
Gas has become the arch-criminal of atmosphere pollution, and therefore, control industrial gas emission environment protection is into the task of top priority.
At present, the device both at home and abroad for industrial waste gas desulphurization denitration mainly fires using absorption process, absorption method and catalysis
Burning method carries out the purification of industrial waste gas.Wherein, the chemical property existed using the purifier of absorption process in processing procedure is unstable
It is fixed, and the technical problem for the organic exhaust gas for being insoluble in water can not be handled;Adsorbent valency be present using the processing unit of absorption method
Lattice are expensive, and can produce the technical problem of secondary pollution;It is higher to there is operating cost using the processing unit of Production by Catalytic Combustion Process, no
Suitable for the technical problem of low concentration gas.But also the technology that filler service life is short, replacing is difficult and non-renewable be present
Problem.
The content of the invention
The purpose of this utility model is to provide a kind of synchronous photoelectromagnetic desulphurization denitration adsorption tower, for solving in the prior art
Industrial waste gas desulfuring and denitrifying apparatus unstable chemcial property present in purification process, can not handle the organic waste for being insoluble in water
Gas;Adsorbent is expensive, is also easy to produce secondary pollution;Operating cost is higher, is not suitable for low concentration gas, disposable input
Greatly, filler service life is short, changes difficult and non-renewable technical problem.
In order to solve the above technical problems, the utility model uses following technical scheme:
A kind of synchronous photoelectromagnetic desulphurization denitration adsorption tower,
It is honeycomb including absorption tower body, Attraction block, inductive reaction device, the wet pipe of steaming and decomposition reactor, the Attraction block,
It is arranged on inside absorption tower body;The inductive reaction device and the wet pipe of steaming are arranged on absorption tower body internal upper part;The decomposition reaction
Device is arranged on the outlet side of absorption tower body, and ultraviolet lamp is provided with inside decomposition reactor.
The Attraction block is spaced laying and had three layers~5 layers from top to bottom.
The Attraction block is rectangular parallelepiped structure, length 20cm, width 10cm, height 10cm.
By above-mentioned design, the utility model can bring following beneficial effect:
Device of the synchronous photoelectromagnetic desulphurization denitration adsorption tower that the utility model uses as industrial waste gas desulphurization denitration, should
Device is increases the specific surface area of dry desulfurization denitration Attraction block, using synchronizable optical electromagnetic technique, while in Attraction block rationally
Organic foaming agent is added, produces low-resistance, the Attraction block of high surface area, when Attraction block reaches saturation, regularly replaces Attraction block, should
Plant running expense is low, service life length, is easily changed, renewable;One-time investment is few, and main equipment is an absorption tower body,
It is durable in use.Without regular maintenance.Tower category accessory is firm, durable.
Purifying industrial waste gases are carried out using synchronous photoelectromagnetic desulphurization denitration adsorption tower provided by the utility model, in Industry Waste
Chemical property is stable in the processing procedure of gas, can handle the organic exhaust gas for being insoluble in water, low concentration gas can also be carried out net
Change is handled, and non-secondary pollution, cost is low, good purification.
Brief description of the drawings
Fig. 1 is the structural representation of the utility model synchronization photoelectromagnetic desulphurization denitration adsorption tower.
Fig. 2 is the moulding surface structure schematic diagram of Attraction block in the utility model synchronization photoelectromagnetic desulphurization denitration adsorption tower.
In figure:1- absorption tower bodies, 2- Attraction blocks, 3- inductive reactions device, 4- steam wet pipe, 5- decomposition reactors.
Embodiment
The utility model is further elaborated with reference to Figure of description.
It refer to Fig. 1 and Fig. 2, the utility model synchronization photoelectromagnetic desulphurization denitration adsorption tower, including absorption tower body 1, absorption
Block 2, inductive reaction device 3, the wet pipe 4 of steaming and decomposition reactor 5, the Attraction block 2 are honeycomb, and it is arranged in absorption tower body 1
Portion;The inductive reaction device 2 and the wet pipe 4 of steaming are arranged on the internal upper part of absorption tower body 1;The decomposition reactor 5 is arranged on adsorption tower
The outlet side of body 1, ultraviolet lamp is installed inside decomposition reactor 5.
The Attraction block 2 is spaced laying and had three layers~5 layers from top to bottom,.
The Attraction block 2 is rectangular parallelepiped structure, length 20cm, width 10cm, height 10cm.
The raw materials by weight portion proportioning of the Attraction block 2 includes:2 parts~3 parts of oyster shell whiting, 6 parts~7 parts of magnesia;Very
0.1 part~0.3 part of bacterium powder, 0.05 part~0.1 part of heavy metal sulfoprotein auxiliary agent, 0.3 part~0.4 part of surfactant, adhesive
0.2 part~0.3 part, 0.4 part~0.5 part of foaming agent.
The fungus powder is auricularia auriculajudae powder or mushroom powder;The heavy metal sulfoprotein auxiliary agent is cysteine, glutamic acid and sweet
Propylhomoserin;The surfactant is two rhamnolipids;Described adhesive is silicate;The foaming agent is fatty alcohol glyceryl ether
Sulfonate.
There is divalence magnesium ion in the Attraction block.
Sulphur and nitre in industrial waste gas carry out physical absorption, physical absorption effect in absorption tower body 1 with the surface of Attraction block 2
Quality, be decided by the size of the specific surface area of Attraction block 2, to increase the specific surface area of dry desulfurization denitration Attraction block 2, using same
Photoelectricity magnetic technology, while the reasonable employment of organic addition foaming agent are walked, generates low-resistance, the Attraction block 2 of high surface area.
Attraction block 2 adsorb industrial waste gas in sulfide, while absorption, while react, after absorption reaches saturation change adsorb
Block 2.
The deposit of Attraction block 2 has divalence magnesium ion, is advantageous to sulfate, the generation of nitrate, possesses in absorption tower body 1 highly concentrated
The divalence magnesium ion of degree, enough reaction time and reaction temperature, the progress of favourable dry chemical reaction.Because product is sulphur
Hydrochlorate and nitrate, non-secondary pollution, industrial waste gas is through dry desulfurization denitration process, and in gaseous effluent, sulfur-bearing reaches 30mg/
m3Hereinafter, nitre also reaches 50mg/m3Below.
Purification process:After industrial waste gas enters synchronous photoelectromagnetic desulphurization denitration adsorption tower, produced first by inductive reaction device 3
Raw charging neutrality industrial waste gas institute is electrically charged, obtains no electric charge industrial waste gas, and no electric charge industrial waste gas produces water through steaming wet pipe 4
Steam carries out humidifying processing, and the industrial waste gas after humidifying processing contacts into desulphurization denitration area with the surface of Attraction block 2 to be adsorbed
Processing, while an oxidation in industrial waste gas under 175nm~253.7nm ultraviolets irradiation catalytic condition that ultraviolet lamp is launched
Nitrogen resolves into oxygen, nitrogen and nitrogen dioxide, in industrial waste gas in nitrogen dioxide add Attraction block 2 and adsorbed again, make
Reach purification purpose, handle postindustrial waste gas through desulphurization denitration arranges from the gas outlet of synchronous photoelectromagnetic desulphurization denitration adsorption tower
Go out.
Device of the synchronous photoelectromagnetic desulphurization denitration adsorption tower that the utility model uses as industrial waste gas desulphurization denitration, should
Device is the specific surface area of increase dry desulfurization denitration Attraction block 2, using synchronizable optical electromagnetic technique, while is closed in Attraction block 2
Reason addition organic foaming agent, produces low-resistance, the Attraction block 2 of high surface area, when Attraction block 2 reaches saturation, periodic replacement absorption
Block 2, the plant running expense is low, service life length, is easily changed, renewable;One-time investment is few, and main equipment is an absorption
Tower body is durable in use.Without regular maintenance.Tower category accessory is firm, durable.
Purifying industrial waste gases are carried out using synchronous photoelectromagnetic desulphurization denitration adsorption tower provided by the utility model, in Industry Waste
Chemical property is stable in the processing procedure of gas, can handle the organic exhaust gas for being insoluble in water, low concentration gas can also be carried out net
Change is handled, and non-secondary pollution, cost is low, good purification.
Claims (3)
- A kind of 1. synchronous photoelectromagnetic desulphurization denitration adsorption tower, it is characterised in that:Including absorption tower body (1), Attraction block (2), inductive reaction device (3), the wet pipe (4) of steaming and decomposition reactor (5), the absorption Block (2) is honeycomb, and it is internal that it is arranged on absorption tower body (1);The inductive reaction device (3) and the wet pipe (4) of steaming are arranged on absorption Tower body (1) internal upper part;The decomposition reactor (5) is arranged on the outlet side of absorption tower body (1), pacifies inside decomposition reactor (5) Equipped with ultraviolet lamp.
- 2. synchronous photoelectromagnetic desulphurization denitration adsorption tower according to claim 1, it is characterised in that:The Attraction block (2) from Lay and have three layers~5 layers in top to bottm interval.
- 3. synchronous photoelectromagnetic desulphurization denitration adsorption tower according to claim 1, it is characterised in that:The Attraction block (2) is Rectangular parallelepiped structure, length 20cm, width 10cm, height 10cm.
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CN201720584509.4U CN206688478U (en) | 2017-05-18 | 2017-05-18 | Synchronous photoelectromagnetic desulphurization denitration adsorption tower |
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CN201720584509.4U CN206688478U (en) | 2017-05-18 | 2017-05-18 | Synchronous photoelectromagnetic desulphurization denitration adsorption tower |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107115758A (en) * | 2017-05-18 | 2017-09-01 | 长春工程学院 | The device and method of synchronizable optical electromagnetic coupled bionics techniques purifying industrial waste gases |
CN113304737A (en) * | 2021-06-02 | 2021-08-27 | 湖南鼎中环保科技有限公司 | Desorption process after adsorbent adsorption saturation |
-
2017
- 2017-05-18 CN CN201720584509.4U patent/CN206688478U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107115758A (en) * | 2017-05-18 | 2017-09-01 | 长春工程学院 | The device and method of synchronizable optical electromagnetic coupled bionics techniques purifying industrial waste gases |
CN113304737A (en) * | 2021-06-02 | 2021-08-27 | 湖南鼎中环保科技有限公司 | Desorption process after adsorbent adsorption saturation |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20171201 Termination date: 20190518 |