CN207493448U - The Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system - Google Patents
The Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system Download PDFInfo
- Publication number
- CN207493448U CN207493448U CN201721380177.4U CN201721380177U CN207493448U CN 207493448 U CN207493448 U CN 207493448U CN 201721380177 U CN201721380177 U CN 201721380177U CN 207493448 U CN207493448 U CN 207493448U
- Authority
- CN
- China
- Prior art keywords
- circular groove
- staving
- adsorption
- far
- ontology
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Treating Waste Gases (AREA)
Abstract
The utility model discloses the Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing systems, including runner inspissator ontology, the side of runner inspissator ontology is equipped with absorption wind turbine, side of the runner inspissator ontology far from absorption wind turbine is equipped with heater body, side of the heater body far from runner inspissator ontology is equipped with the desorption wind turbine being connected on runner inspissator ontology, the efferent duct of desorption wind turbine is connected with absorption casing, the top of the absorption casing is opening, the top of absorption casing is equipped with sealing cover, staving is slidably fitted in absorption casing, and the top side of staving and bottom side are opening, first hollowed-out board is installed in staving, the side of first hollowed-out board offers the first circular groove.The utility model can easily and fast remove staving out of absorption casing, consequently facilitating replacing the activated carbon in staving, can not only be brought convenience to staff, and can economize on resources.
Description
Technical field
The utility model is related to technical field of waste gas treatment more particularly to the Adsorption Concentrations of low concentration Wind Volume organic exhaust gas
With adsorption recovery processing system.
Background technology
Exhaust-gas treatment is also known as waste gas purification, and exhaust-gas treatment refers to existing for the exhaust gas that industrial site, factory floor generate
It is externally pre-processed before discharge, to reach the work for the standard that national exhaust gas externally discharges, general exhaust-gas treatment, which includes, to be had
Machine exhaust-gas treatment, dust exhaust-gas treatment, soda acid exhaust-gas treatment, peculiar smell exhaust-gas treatment and air sterilizing purification etc..
For the relatively single organic exhaust gas of low concentration Wind Volume ingredient, it is worth with recoverable, but current
Organic pollution can only be oxidized to carbon dioxide and water by Adsorption Concentration regenerative oxidation or catalytic oxidizing equipment, it is impossible to directly will
Recycled solvent causes the great wasting of resources.
Utility model content
The purpose of this utility model is to solve shortcoming in the prior art, and the low concentration Wind Volume proposed has
The Adsorption Concentration of machine exhaust gas and adsorption recovery processing system.
To achieve these goals, the utility model employs following technical solution:
The Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system, including runner inspissator ontology,
The side of runner inspissator ontology is equipped with absorption wind turbine, and side of the runner inspissator ontology far from absorption wind turbine is equipped with heater sheet
Body, side of the heater body far from runner inspissator ontology are equipped with the desorption wind turbine being connected on runner inspissator ontology, take off
The efferent duct of attached wind turbine is connected with absorption casing, and the top of the absorption casing is opening, and the top of absorption casing is equipped with sealing
It covers, staving is slidably fitted in absorption casing, and the top side of staving and bottom side are opening, and the first hollow out is equipped in staving
Plate, the side of the first hollowed-out board offer the first circular groove, card column are slidably fitted in the first circular groove, and one end of card column extends to
Outside first circular groove, the first circular groove is welded with the first spring on the side inner wall far from opening, is welded between the first spring and card column
It is fixed, the first sliding groove that top side is opening is offered on the side inner wall of staving, card column is located at one end installation outside the first circular groove
In the first sliding groove, staving is installed with the second hollow out being slidably mounted in staving far from the side that absorption casing is open
Plate, the side of the second hollowed-out board offer the second circular groove, kelly are slidably fitted in the second circular groove, and one end of kelly extends to
Outside second circular groove, the second circular groove is welded with second spring on the side inner wall far from opening, is welded between second spring and kelly
It is fixed, the second sliding slot that top side is opening is offered on the side inner wall of absorption casing, kelly is located at one end outside the second circular groove
It is slidably mounted in second sliding slot, offers third sliding slot in absorption casing on the side inner wall far from second sliding slot, third is slided
Sliding block is slidably fitted in slot, side of second hollowed-out board far from the second circular groove is installed with head rod, the first connection
The one end of bar far from the second hollowed-out board is rotatably installed on sliding block.
Preferably, air inlet pipe is installed, the side of air inlet pipe is equipped with the exhaust being mounted on sealing cover on the sealing cover
Pipe, side of the absorption casing far from desorption wind turbine are connected with condenser ontology.
Preferably, card hole is offered on side inner wall of the first sliding groove far from opening, card column is located at outside the first circular groove
One end be rotatablely equipped with the first ball, the first ball is mounted in card hole, and the first ball is adapted with the first sliding groove.
Preferably, through-hole is offered on the side inner wall of first circular groove, push rod, and push rod is slidably fitted in through-hole
Both ends all extend to outside through-hole, one end that push rod is located in the second circular groove is welded in card column.
Preferably, top side is offered in the staving on the side inner wall far from the first sliding groove as the first square groove of opening, the
Side of one hollowed-out board far from the first circular groove is installed with the second connecting rod, the one end of the second connecting rod far from the first hollowed-out board
It is rotatably installed in square groove.
Preferably, one end that the kelly is located in second sliding slot is rotatablely equipped with the second ball, and the second ball rolls peace
In second sliding slot, the second square groove that both sides are opening, and the second square groove and the are offered on the top side inner wall of third sliding slot
One connecting rod is adapted.
Compared with prior art, the beneficial effects of the utility model are:
In the utility model, pass through runner inspissator ontology, absorption wind turbine, heater body, desorption wind turbine, adsorption box
Body, sealing cover, staving, the first hollowed-out board, the first circular groove, card column, the first spring, the first sliding groove, the second hollowed-out board, the second circle
Slot, kelly, second spring, second sliding slot, sliding block, third sliding slot, head rod, condenser ontology construct low concentration jointly
The Adsorption Concentration of Wind Volume organic exhaust gas and adsorption recovery processing system pass through runner inspissator ontology, absorption wind turbine, heater
Ontology, desorption wind turbine pre-process organic exhaust gas, pass through absorption casing, sealing cover, staving, the first hollowed-out board, the first circle
Slot, card column, the first spring, the first sliding groove, the second hollowed-out board, the second circular groove, kelly, second spring, second sliding slot, sliding block,
Three sliding slots, head rod, condenser ontology recycling organic exhaust gas in organic matter, the utility model can easily and fast by
Staving is removed out of absorption casing, consequently facilitating replacing the activated carbon in staving, can not only be brought convenience to staff,
And it can economize on resources.
Description of the drawings
Fig. 1 be the utility model proposes the Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system
Schematic cross-sectional view;
Fig. 2 be the utility model proposes the Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system
The schematic cross-sectional view of middle part A;
Fig. 3 be the utility model proposes the Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system
The schematic cross-sectional view of middle A1;
Fig. 4 be the utility model proposes the Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system
The schematic cross-sectional view of middle part B;
Fig. 5 be the utility model proposes the Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system
The schematic cross-sectional view of middle B1 parts.
In figure:1 runner inspissator ontology, 2 absorption wind turbines, 4 desorption wind turbines, 3 heater bodies, 5 absorption casings, 6 sealings
Lid, 7 stavings, 8 first hollowed-out boards, 9 first circular grooves, 10 card columns, 11 first springs, 12 the first sliding grooves, 13 second hollowed-out boards, 14
Two circular grooves, 15 kellies, 16 second springs, 17 second sliding slots, 18 sliding blocks, 19 third sliding slots, 20 head rods.
Specific embodiment
The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out
It clearly and completely describes, it is clear that the described embodiments are only a part of the embodiments of the utility model rather than whole
Embodiment.
With reference to Fig. 1-5, the Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system are dense including runner
Contracting device ontology 1, the side of runner inspissator ontology 1 are equipped with absorption wind turbine 2, and runner inspissator ontology 1 is separate to adsorb the one of wind turbine 2
Side is equipped with heater body 3, and side of the heater body 3 far from runner inspissator ontology 1 is equipped with and is connected to runner inspissator sheet
Desorption wind turbine 4 on body 1, the efferent duct of desorption wind turbine 4 are connected with absorption casing 5, and the top of absorption casing 5 is opening, is adsorbed
The top of babinet 5 is equipped with sealing cover 6, and staving 7 is slidably fitted with, and the top side of staving 7 is out with bottom side in absorption casing 5
Mouthful, the first hollowed-out board 8 is installed, the side of the first hollowed-out board 8 offers the first circular groove 9, slided in the first circular groove 9 in staving 7
Card column 10 is installed, and one end of card column 10 is extended to outside the first circular groove 9, is welded on the first side inner wall of the circular groove 9 far from opening
The first spring 11 is connected to, is welded and fixed between the first spring 11 and card column 10, top side is offered on the side inner wall of staving 7 to open
The first sliding groove 12 of mouth, card column 10 are located at one end outside the first circular groove 9 in the first sliding groove 12, and staving 7 is far from adsorption box
The side that body 5 is open is installed with the second hollowed-out board 13 being slidably mounted in staving 7, and the side of the second hollowed-out board 13 opens up
There is the second circular groove 14, kelly 15 is slidably fitted in the second circular groove 14, and one end of kelly 15 is extended to outside the second circular groove 14, the
Second spring 16 is welded on two side inner walls of the circular groove 14 far from opening, is welded and fixed between second spring 16 and kelly 15,
The second sliding slot 17 that top side is opening is offered on the side inner wall of absorption casing 5, kelly 15 is located at one outside the second circular groove 14
End is slidably mounted in second sliding slot 17, and third sliding slot is offered on the side inner wall far from second sliding slot 17 in absorption casing 5
19, sliding block 18 is slidably fitted in third sliding slot 19, and side of second hollowed-out board 13 far from the second circular groove 14 is installed with
One connecting rod 20, the one end of head rod 20 far from the second hollowed-out board 13 are rotatably installed on sliding block 18, are concentrated by runner
Device ontology 1, absorption wind turbine 2, heater body 3, desorption wind turbine 4, absorption casing 5, sealing cover 6, staving 7, the first hollowed-out board 8,
First circular groove 9, card column 10, the first spring 11, the first sliding groove 12, the second hollowed-out board 13, the second circular groove 14, kelly 15, the second bullet
Spring 16, second sliding slot 17, sliding block 18, third sliding slot 19, head rod 20, condenser ontology construct low concentration strong wind jointly
The Adsorption Concentration of organic exhaust gas and adsorption recovery processing system are measured, passes through runner inspissator ontology 1, absorption wind turbine 2, heater sheet
Body 3, desorption wind turbine 4 pre-process organic exhaust gas, pass through absorption casing 5, sealing cover 6, staving 7, the first hollowed-out board 8, the
One circular groove 9, card column 10, the first spring 11, the first sliding groove 12, the second hollowed-out board 13, the second circular groove 14, kelly 15, second spring
16th, it is organic in second sliding slot 17, sliding block 18, third sliding slot 19, head rod 20, condenser ontology recycling organic exhaust gas
Object, the utility model can easily and fast remove staving 7 out of absorption casing 5, consequently facilitating replacing the activity in staving 7
Charcoal can not only be brought convenience to staff, and can be economized on resources.
Air inlet pipe is installed, the side of air inlet pipe is equipped with the exhaust pipe being mounted on sealing cover 6, adsorption box on sealing cover 6
Side of the body 5 far from desorption wind turbine 4 is connected with condenser ontology, and the first sliding groove 12 offers card on the side inner wall far from opening
Hole, one end that card column 10 is located at outside the first circular groove 9 are rotatablely equipped with the first ball, and the first ball is mounted in card hole, and first
Ball is adapted with the first sliding groove 12, and through-hole is offered on the side inner wall of the first circular groove 9, push rod is slidably fitted in through-hole,
And the both ends of push rod are all extended to outside through-hole, one end that push rod is located in the second circular groove 9 is welded in card column 10, remote in staving 7
Offered on side inner wall from the first sliding groove 12 top side for opening the first square groove, the first hollowed-out board 8 far from the first circular groove 9 one
Side is installed with the second connecting rod, and the one end of the second connecting rod far from the first hollowed-out board 8 is rotatably installed in square groove, kelly 15
One end in second sliding slot 17 is rotatablely equipped with the second ball, and the second ball, which rolls, to be mounted in second sliding slot 17, third
The second square groove that both sides are opening is offered on the top side inner wall of sliding slot 19, and the second square groove is adapted with head rod 20,
By runner inspissator ontology 1, absorption wind turbine 2, heater body 3, desorption wind turbine 4, absorption casing 5, sealing cover 6, staving 7,
First hollowed-out board 8, the first circular groove 9, card column 10, the first spring 11, the first sliding groove 12, the second hollowed-out board 13, the second circular groove 14, card
Bar 15, second spring 16, second sliding slot 17, sliding block 18, third sliding slot 19, head rod 20, condenser ontology are built jointly
The Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system pass through runner inspissator ontology 1, absorption wind
Machine 2, heater body 3, desorption wind turbine 4 pre-process organic exhaust gas, pass through absorption casing 5, sealing cover 6, staving 7, the
One hollowed-out board 8, the first circular groove 9, card column 10, the first spring 11, the first sliding groove 12, the second hollowed-out board 13, the second circular groove 14, kelly
15th, second spring 16, second sliding slot 17, sliding block 18, third sliding slot 19, head rod 20, condenser ontology recycling organic waste
Organic matter in gas, the utility model can easily and fast remove staving 7 out of absorption casing 5, consequently facilitating replacing bucket
Activated carbon in body 7 can not only be brought convenience to staff, and can be economized on resources.
In actual use, the organic exhaust gas containing organic pollution is passed through absorption wind to the utility model after being overpressurized first
Machine 2, exhaust gas after adsorbing the absorption of wind turbine 2 by entering runner inspissator ontology 1, and organic pollution is by runner inspissator ontology 1
Adsorbent absorption, clean gas directly it is up to standard and pass through the gas vent on runner inspissator ontology 1 discharge, as runner is dense
The rotation of runner in contracting device ontology 1, the part of adsorption saturation enter desorption wind turbine 4, under the action of high-temperature gas, are adsorbed
Organic principle is heated, and volatilization again becomes gaseous state, with the gas discharge runner inspissator ontology 1 after desorption and enters adsorption box
In body 5, original machine exhaust gas concentration becomes larger the gas concentration being desorbed out at this time than before, and temperature increases, and realizes the purpose of concentration, warp
The organic exhaust gas crossed after pretreatment, which enters after absorption casing 5 to be directly entered in staving 7, to be adsorbed, after activated carbon adsorption
Exhaust gas directly by emission by exhaust pipe, after 5 adsorption saturation of absorption casing, the water vapour after decompression is entered into suction by air inlet pipe
Attached babinet 5 is desorbed, and the steam and condensate liquid after desorption enter the condensation of condenser ontology, and condensate liquid is after heat exchange cools down
Into layering slot layering, and then organic matter is recycled, the temperature of activated carbon and water content are all very high after desorption, are influenced to avoid
The adsorption effect of next step needs to blow out steam remaining when desorbing on activated carbon, this process is primarily used to dehumidify and drop
Temperature ensures recycling for activated carbon.
It, can be first by the sealing in absorption casing 5 when activity is relatively low after the activated carbon in entire body receives use for a long time needs replacing
Lid 6 is opened, and then pulls staving 7 outside absorption casing 5, and the second ball slides in second sliding slot 17 at this time, and sliding block 18 exists
It is slided in third sliding slot 19, the frictional force between 5 inner wall of staving 7 and absorption casing is reduced, when sliding block 18 slides into third sliding slot
During 19 top edge, staving 7 is rotated at this time, and the second ball will be disengaged from second sliding slot 17, and head rod 20 will stick into second party
In slot, staving 7 is rotated by 90 degrees at this time, then pushes push rod, and push rod drives card column 10 to be slided into the first circular groove 9, turns at this time
Dynamic first hollowed-out board 8, the first ball will be sticked into the first sliding groove 12 and be rolled, can be conveniently clear so as to which the first hollowed-out board 8 be opened
The activated carbon in staving 7 is managed, after for clearance, staving 7 is sticked into again in absorption casing 5, i.e., is justified kelly 15 to second
It is pushed in slot 14 and compresses second spring 16, so as to which the second ball is sticked into second sliding slot 17, second spring 16 is pressed at this time
Contracting will have certain elastic force, and the second ball will be acted on by the elastic force of second spring 16, so as to ensure that the second ball will not
It comes off out of second sliding slot 17, then new activated carbon is put into staving 7 again, then push push rod again and rotate the first hollow out
Plate 8 makes card column 10 be slided into the first circular groove 9 and compresses the first spring 11, so as to which the first ball is sticked into the first sliding groove 12,
The first hollowed-out board 8 is rotated further, under the elastic force effect of the first spring 11, the first ball is sticked into card hole, so as to which first be engraved
Hollow plate 8 is fixed, and completes to replace.
The preferable specific embodiment of the above, only the utility model, but the scope of protection of the utility model is not
This is confined to, in the technical scope that any one skilled in the art discloses in the utility model, according to this practicality
Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model
Within enclosing.
Claims (6)
1. the Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system, including runner inspissator ontology(1),
Runner inspissator ontology(1)Side be equipped with absorption wind turbine(2), runner inspissator ontology(1)Far from absorption wind turbine(2)Side
Equipped with heater body(3), heater body(3)Far from runner inspissator ontology(1)Side be equipped be connected to runner concentration
Device ontology(1)On desorption wind turbine(4), it is desorbed wind turbine(4)Efferent duct be connected with absorption casing(5), which is characterized in that it is described
Absorption casing(5)Top for opening, absorption casing(5)Top be equipped with sealing cover(6), absorption casing(5)Inside it is slidably installed
There is staving(7), and staving(7)Top side and bottom side be opening, staving(7)First hollowed-out board is inside installed(8), the first hollow out
Plate(8)Side offer the first circular groove(9), the first circular groove(9)Inside it is slidably fitted with card column(10), and card column(10)One end
Extend to the first circular groove(9)Outside, the first circular groove(9)The first spring is welded on side inner wall far from opening(11), the first bullet
Spring(11)With card column(10)Between be welded and fixed, staving(7)Side inner wall on offer top side be opening the first sliding groove
(12), card column(10)Positioned at the first circular groove(9)Outer one end is mounted on the first sliding groove(12)It is interior, staving(7)Far from absorption casing
(5)The side of opening, which is installed with, is slidably mounted on staving(7)The second interior hollowed-out board(13), the second hollowed-out board(13)One
Side offers the second circular groove(14), the second circular groove(14)Inside it is slidably fitted with kelly(15), and kelly(15)One end extend to
Second circular groove(14)Outside, the second circular groove(14)Second spring is welded on side inner wall far from opening(16), second spring
(16)With kelly(15)Between be welded and fixed, absorption casing(5)Side inner wall on offer top side be opening second sliding slot
(17), kelly(15)Positioned at the second circular groove(14)Outer one end is slidably mounted on second sliding slot(17)It is interior, absorption casing(5)It is interior remote
From second sliding slot(17)Side inner wall on offer third sliding slot(19), third sliding slot(19)Inside it is slidably fitted with sliding block
(18), the second hollowed-out board(13)Far from the second circular groove(14)Side be installed with head rod(20), head rod
(20)Far from the second hollowed-out board(13)One end be rotatably installed in sliding block(18)On.
2. the Adsorption Concentration of low concentration Wind Volume organic exhaust gas according to claim 1 and adsorption recovery processing system,
It is characterized in that, the sealing cover(6)On air inlet pipe is installed, the side of air inlet pipe, which is equipped with, is mounted on sealing cover(6)On exhaust
Pipe, absorption casing(5)Far from desorption wind turbine(4)Side be connected with condenser ontology.
3. the Adsorption Concentration of low concentration Wind Volume organic exhaust gas according to claim 1 and adsorption recovery processing system,
It is characterized in that, the first sliding groove(12)Card hole, card column are offered on side inner wall far from opening(10)Positioned at the first circular groove
(9)Outer one end is rotatablely equipped with the first ball, and the first ball is mounted in card hole, and the first ball and the first sliding groove(12)Phase
Adaptation.
4. the Adsorption Concentration of low concentration Wind Volume organic exhaust gas according to claim 1 and adsorption recovery processing system,
It is characterized in that, first circular groove(9)Side inner wall on offer through-hole, be slidably fitted with push rod in through-hole, and push rod
Both ends are all extended to outside through-hole, and push rod is located at the second circular groove(9)Interior one end is welded on card column(10)On.
5. the Adsorption Concentration of low concentration Wind Volume organic exhaust gas according to claim 1 and adsorption recovery processing system,
It is characterized in that, the staving(7)Interior separate the first sliding groove(12)Side inner wall on offer top side as the first square groove of opening, the
One hollowed-out board(8)Far from the first circular groove(9)Side be installed with the second connecting rod, the second connecting rod is far from the first hollowed-out board
(8)One end be rotatably installed in square groove.
6. the Adsorption Concentration of low concentration Wind Volume organic exhaust gas according to claim 1 and adsorption recovery processing system,
It is characterized in that, the kelly(15)Positioned at second sliding slot(17)Interior one end is rotatablely equipped with the second ball, and the second ball rolls
Mounted on second sliding slot(17)It is interior, third sliding slot(19)Top side inner wall on offer the second square groove that both sides are opening, and the
Two square grooves and head rod(20)It is adapted.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721380177.4U CN207493448U (en) | 2017-10-25 | 2017-10-25 | The Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721380177.4U CN207493448U (en) | 2017-10-25 | 2017-10-25 | The Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207493448U true CN207493448U (en) | 2018-06-15 |
Family
ID=62501339
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721380177.4U Expired - Fee Related CN207493448U (en) | 2017-10-25 | 2017-10-25 | The Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207493448U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108579333A (en) * | 2018-01-31 | 2018-09-28 | 刘冲 | A kind of waste gas purification environmental protection equipment |
CN109107338A (en) * | 2018-09-28 | 2019-01-01 | 南京圆点环境清洁技术有限公司 | A kind of vOCs absorbing treatment device |
CN112058018A (en) * | 2020-09-18 | 2020-12-11 | 夏志军 | Organic waste gas treatment is elasticity for equipment rotates inhales desorption mechanism |
-
2017
- 2017-10-25 CN CN201721380177.4U patent/CN207493448U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108579333A (en) * | 2018-01-31 | 2018-09-28 | 刘冲 | A kind of waste gas purification environmental protection equipment |
CN109107338A (en) * | 2018-09-28 | 2019-01-01 | 南京圆点环境清洁技术有限公司 | A kind of vOCs absorbing treatment device |
CN112058018A (en) * | 2020-09-18 | 2020-12-11 | 夏志军 | Organic waste gas treatment is elasticity for equipment rotates inhales desorption mechanism |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN207493448U (en) | The Adsorption Concentration of low concentration Wind Volume organic exhaust gas and adsorption recovery processing system | |
CN107511019B (en) | Volatile organic pollutant's processing apparatus | |
JP3416333B2 (en) | Volatile organic matter recovery method | |
CN101362076B (en) | Regeneration method of active carbon absorbent | |
CN107477732A (en) | A kind of air cleaning unit and its method of sustainable degraded indoor VOCs | |
CN206617949U (en) | Lacquer spraying waste gas charcoal absorption desorption catalyzing burner | |
CN108786449A (en) | A kind of novel V0Cs adsorption activations desorption low-temperature catalytic treating method and its processing unit | |
CN107990334A (en) | A kind of absorption vacuum desorption condensation recycling of new VOCs exhaust gas or burning processing system | |
CN110124443A (en) | A kind of organic exhaust gas recycling and reusing device and method | |
CN212236519U (en) | Water paint VOCs tail gas pre-dehumidification system | |
CN208824219U (en) | A kind of organic waste gas treatment device | |
CN102249200B (en) | Method for absorbing and storing radon | |
CN105879659A (en) | VOCs (volatile organic compounds) purification method for waste gas of petrochemical industry | |
CN207187425U (en) | A kind of special high efficiency active carbon adsorption tower of gas cleaning | |
KR20020010384A (en) | Method and equipment for continuous vacuum thermal regeneration of adsorbent and recovery of adsorbate | |
CN206424745U (en) | A kind of high efficiency active carbon adsorbing and removing VOCs devices | |
CN207493449U (en) | A kind of Adsorption Concentration regenerative oxidation processing system of low concentration Wind Volume organic exhaust gas | |
CN108579333A (en) | A kind of waste gas purification environmental protection equipment | |
CN205700032U (en) | Exhaust-gas treatment activated carbon adsorption and regenerating unit | |
CN212594918U (en) | Reinforced reproducible active carbon adsorption equipment | |
CN200995971Y (en) | Double-stage adsorptive organic-sovlent recovery unit with self-drying function | |
CN203610015U (en) | Toluene waste gas recovery device for mica tape products | |
CN113230816A (en) | Activated carbon microwave desorption regeneration equipment and regeneration method for adsorbing VOCs | |
CN207667382U (en) | A kind of VOCs gas absorption purification recovery devices of recyclable work | |
CN206950928U (en) | A kind of system for handling closed job-shop pollution gas |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
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: 20180615 Termination date: 20191025 |