CN101676017A - Device for desorbing organic substances on line on temperature-change type fluidized floating bed - Google Patents
Device for desorbing organic substances on line on temperature-change type fluidized floating bed Download PDFInfo
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- CN101676017A CN101676017A CN200810211882A CN200810211882A CN101676017A CN 101676017 A CN101676017 A CN 101676017A CN 200810211882 A CN200810211882 A CN 200810211882A CN 200810211882 A CN200810211882 A CN 200810211882A CN 101676017 A CN101676017 A CN 101676017A
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Abstract
The invention relates to a device for desorbing organic substances on line on a temperature-change type fluidized floating bed, which comprises a fluidized absorption tower, a desorption tower, an absorption material conveying mechanism, a final processing unit and a blower. A heating part of the desorption tower adopts an uniform-temperature heat exchanging tube shell or a plate type heat exchanger structure, and a heat-dissipation accelerating heat exchanger can be additionally arranged; thus the device has the effects of heating absorption and desorption materials at uniform temperature andaccelerating the cooling of the heating part of the desorption tower. The device matched with relevant final processing equipment can effectively recycle the organic solvent during the purification of organic gas or the resources converted from the organic solvent so as to reduce the cost required by the purification of the organic gas and favor for recycling and reusing resources.
Description
Technical field
The present invention relates to a kind of purification of volatile organic waste gas device and method that is used for the purified treatment volatile organic waste gas, particularly relate to a kind of device of desorbing organic substances on line on temperature-change type fluidized floating bed.
Background technology
Traditionally, utilize the adsorption material of high porosity, high-specific surface area, remove VOC (Volatile Organic Compounds, adsorption method for purifying technology VOCs), the general adsorption systems of using fixed bed more by suction-operated; And the ADSORPTION IN A FIXED BED system criticizes the formula mode of operation with two towers or multitower, carry out the absorption of waste gas and adsorb regneration of adsorbent material after saturated, only when the VOCs that meets high response handles, the chemicals that Chang Yin is adsorbed is in when absorption and adsorption material generation catalyst exothermic oxidation reaction (for example ketone and active carbon adsorption material), cause the not good and a large amount of hot polymerization collection of fixed bed internal heat dissipating, and then carbon bed fires or blast problem take place; So,, a kind of fluidized floating bed adsorption system or zeolite runner collocation branch gasification furnace system and develop in order to improve this shortcoming of ADSORPTION IN A FIXED BED system.
Moreover, the adsorption process of known fluidized bed adsorption system as shown in Figure 1, waste gas is sent into the bottom of an adsorption tower 10 from air flow inlet 13 with a blower fan 14, and after 12 dispersions of off-gas flows mat one air-flow dispersion plate, with by on the spherical adsorption material 30 that falls contact, promptly can be used to purifying exhaust air and from air stream outlet 15 dischargings of cat head this through Purge gas; Wherein, the inside of this adsorption tower 10 is to be separated into several layers with most porous plates 11, and being tops via this adsorption tower 10, this spherical adsorption material 30 falls, and above these porous plates 11, form unsteady layer, and fall along these porous plates 11 peristome in layer, when this spherical adsorption material 30 contacts with the waste gas that contains VOCs, the VOCs in the waste gas is adsorbed in the hole of this spherical adsorption material 30, waste gas promptly becomes the Purge gas discharging; Yet, adsorb the storage tank that saturated spherical adsorption material 30 drops down onto these adsorption tower 10 bottoms after, be transported to follow-up desorption program by adsorption material conveying device 20, after carrying out desorption and regeneration work, send the top of this adsorption tower 10 back to.
Secondly, the desorption flow process of this fluidized floating bed adsorption system is shown in Fig. 1 right-hand part, after adsorbing the storage tank that saturated spherical adsorption material 30 drops down onto these adsorption tower 10 bottoms, carry source of the gas 22 by one of this adsorption material conveying device 20, form propelling movement power with its air sent or nitrogen, carry adapter 23, a transfer pipeline 24 and one second to carry adapter 25 to deliver to the top of a desorption column 40 via a discharge nozzle 21, one first, carry out the work of desorption and regeneration; Spherical adsorption material 30 behind the desorption and regeneration then carries adapter 26, the 4th to carry an adapter 27 and a feed pipe 28 to send the top of this adsorption tower 10 back to one the 3rd.
Then, spherical adsorption material 30 to be regenerated is in the slowly past current downflow of a desorption reaction device 41 of this desorption column 40, and via a desorption thermal source 42 heating, be blown into nitrogen by a desorption source of the gas 43 of these desorption column 40 belows again and contact, with the VOCs desorption in this spherical adsorption material 30 with this spherical adsorption material 30; Spherical adsorption material 30 behind the desorption is sent this adsorption tower 10 upper ends back to by above-mentioned conveying flow process after this desorption column 40 bottoms cooling, absorb VOCs once again; And the high-concentration waste gas that comes out through desorption, then flowing through with nitrogen is carried into a condensing tower 50 by a desorption gas pipeline 44 and carries out condensation, and condensed fluid is reclaimed by an accumulator tank 52, and in addition, condensed gas is then discharged from a gas vent 53.
Yet, habit has in the fluidized bed adsorption system, in the regenerative process of sorbing material, in this desorption column, carry out desorption reaction, and known desorption thermal source is to heat by the desorption thermal source in this desorption column outside, and this desorption thermal source generally is the electrothermal heating, conducting heat to the phenomenon of this desorption column Nei Shiyi generation heating-up temperature inequality, and make easily and give birth to the too high situation of this desorption column generation temperature, in addition, the desorption of activated carbon fluidized bed, IPA and Acetone can be under 250 ℃ of desorption temperatures desorption (remaining quantity<1%) almost completely, but the activated carbon that contains IPA can go out incondensable gas propylene (Propene) by pyrolysis when the heating focus surpasses 250 ℃, its conversion ratio respectively can be up to more than 90% when hot(test)-spot temperature surpassed 350 ℃.And this imflammable gas and active height that is difficult for condensing as utmost point low boiling of propylene (Propene), especially easilier under the hot conditions that reducing metal such as iron, cobalt, nickel catalyst exists carry out carburizing reagent containing, as in activated carbon, carrying out carburizing reagent, will generate non-type carbon, will block the activated carbon hole thus, quicken the deterioration of activated carbon, reduction of service life.Therefore among the VOCs that handles of activated carbon fluidized bed if contain the words of IPA simultaneously, the height of its desorption temperature and the uniformity, except will considering that desorption whether fully, need consider because the high temperature hotspot pyrolysis goes out the problem of propylene (Propene), this point will limit desorption temperature peak and can't be with the VOCs of higher complete desorption and limit the effect of desorption, then have influence on the usefulness and the activated carbon life-span of activated carbon fluidized bed.
Moreover, the temperature of the desorption column after heating is cooled off difficult, can't effectively make this absorption alopecia wave maximum utility, be used in that for example PU cloth gluing industry and associated electrical industry or the like are a large amount of to be adopted organic solvents and produce the occasion of a large amount of organic exhaust gas so fail maturation.
For example, in the synthetic skin technology of PU, adopt solvent such as MEK (butanone) and toluene (Toluene) and IPA or the like in a large number, shared ratio accounts for 80% altogether.After coating, must handle through oven dry again, with all solvent evaporations, average one meter synthetic skin palpus use, the 350 gram solvents of making, that is discharge 350 gram solvents in atmosphere, cause lot of V OCs to pollute, with 90,000,000 meters in full court gulf is that output is the unit basis, have 30,000 tons organic solvent emission every year, the environmental pollution amount is suitable, and before these toxic emissions if purified treatment in addition fully effectively not will badly influence our environment, will expend the eliminating that the greater amount resource is carried out these pollutions in the future.
Moreover electronics industry adopts zeolite concentration runner collocation incinerator to handle in order effectively to handle the organic exhaust gas that its technology produced, and the method must consume a large amount of the incineration fuel and the energy, is the most economical and the most practical method in the non-removal organic exhaust gas.
This shows that above-mentioned existing fluidized floating bed adsorption system obviously still has inconvenience and defective, and demands urgently further being improved in structure and use.In order to solve the problem of above-mentioned existence, relevant manufacturer there's no one who doesn't or isn't seeks solution painstakingly, but do not see always that for a long time suitable design finished by development, and common product does not have appropriate structure to address the above problem, this obviously is the problem that the anxious desire of relevant dealer solves.Therefore how to found a kind of device of novel desorbing organic substances on line on temperature-change type fluidized floating bed, real one of the current important research and development problem that belongs to, also becoming the current industry utmost point needs improved target.
Because the defective that above-mentioned existing fluidized floating bed adsorption system exists, the inventor is based on being engaged in this type of product design manufacturing abundant for many years practical experience and professional knowledge, and the utilization of cooperation scientific principle, actively studied innovation, in the hope of founding a kind of device of novel desorbing organic substances on line on temperature-change type fluidized floating bed, can improve general existing fluidized floating bed adsorption system, make it have more practicality.Through constantly research, design, and, create the present invention who has practical value finally through after studying sample and improvement repeatedly.
Summary of the invention
The objective of the invention is to, overcome the defective that existing fluidized floating bed adsorption system exists, and a kind of device of novel desorbing organic substances on line on temperature-change type fluidized floating bed is provided, technical problem to be solved is to make it have samming to add the effect that thermal desorption absorbs material and quickens cooling desorption column heating part.
The present invention compared with prior art has tangible advantage and beneficial effect.As known from the above, for achieving the above object, the invention provides a kind of device of desorbing organic substances on line on temperature-change type fluidized floating bed, this device comprises:
One blower fan, it is to be used to carry organic exhaust gas;
The spherical adsorption material of tool is used to adsorb organic exhaust gas in the one fluidisation adsorption tower, this adsorption tower, and then discharges the gas that purifies the back;
The adsorption material conveying mechanism, most transfer pipelines of tool and device are used for carrying this spherical adsorption material;
One desorption column is used for the saturated spherical adsorption material of this absorption of desorption, makes this spherical adsorption material regeneration;
One whole processing unit, the organic matter that will purify gained is recycled;
Wherein this desorption column heating part is to adopt a samming heat exchange structure.
In this device, this samming heat exchange structure is a samming heat exchange shell heat exchanger or the board-like heat exchanger of a samming heat exchange.
In this device, this desorption device comprises that further one quickens the heat exchanger of heat radiation.
In this device, the heat exchanger of this acceleration heat radiation is further to comprise a quickly cooling device, and it is made up of triple valve and cooler.
In this device, this, processing unit can be a condenser at end, and being used to reclaim this organic exhaust gas becomes an organic solvent.
In this device, this, processing unit was a hot incinerator at end, with the use that acts as a fuel of this organic exhaust gas.
In this device, this, processing unit was a thermal change formula adsorption desorption device at end, and being used to reclaim this organic exhaust gas becomes an organic solvent.
So device of a kind of desorbing organic substances on line on temperature-change type fluidized floating bed of the present invention, adopt the structure of all warm friendship heat pipe shell or heat-exchangers of the plate type based on this desorption column heating part in this, and can increase by a heat exchanger that quickens heat radiation, add the effect that thermal desorption absorbs material and quickens cooling desorption column heating part and have samming, can effectively be recovered in the organic solvent that purifies in the organic gas or it transforms the resource of gained, to reduce the cost that purifies the required cost of organic gas, more can help the resource recycling.
In sum, the present invention is the device of relevant a kind of desorbing organic substances on line on temperature-change type fluidized floating bed, this device comprises: a fluidisation adsorption tower, a desorption column, adsorption material conveying mechanism, a whole processing unit and a blower fan, in this desorption column heating part is to adopt samming heat exchange shell or heat-exchangers of the plate type structure, and can increase by an acceleration heat dissipation heat exchanger, and have the effect that samming adds the thermal desorption adsorption material and quickens cooling desorption column heating part.Utilize this device, further matched with relevant final processing equipment can effectively be recovered in the organic solvent or its resources converted that purify in the organic gas, to reduce the cost that purifies the required cost of organic gas, more helps the resource recycling.The present invention has above-mentioned plurality of advantages and practical value, no matter it all has bigger improvement on product structure or function, obvious improvement is arranged technically, and produced handy and practical effect, and more existing fluidized floating bed adsorption system has the outstanding effect of enhancement, thereby being suitable for practicality more, really is a new and innovative, progressive, practical new design.
Above-mentioned explanation only is the general introduction of technical solution of the present invention, for can clearer understanding technological means of the present invention, and can be implemented according to the content of specification, and for above-mentioned and other purposes, feature and advantage of the present invention can be become apparent, below especially exemplified by preferred embodiment, and conjunction with figs., be described in detail as follows.
Description of drawings
Fig. 1 is a schematic diagram of an existing known fluidized floating bed adsorption system adsorption process.
Fig. 2 is a kind of desorbing organic substances on line on temperature-change type fluidized floating bed schematic representation of apparatus of the present invention.
Fig. 3 A, Fig. 3 B are the profiles of desorption column of the present invention.
Fig. 4 is desorption column of the present invention heating part structure and pipeline allocation plan thereof.
Fig. 5 is a specific embodiment schematic representation of apparatus of the present invention.
Fig. 6 is another specific embodiment schematic representation of apparatus of the present invention.
10: adsorption tower 11: porous plate
12: air-flow dispersion plate 13: air flow inlet
14: blower fan 15: air stream outlet
20: adsorption material conveying device 21: discharge nozzle
22: carry source of the gas to carry adapter at 23: the first
24: transfer pipeline is carried adapter at 25: the second
The conveying adapter was carried adapter in 27: the four in 26: the three
28: feed pipe 30: spherical adsorption material
40: desorption column 41: the desorption reaction device
42: desorption thermal source 43: the desorption source of the gas
44: desorption gas pipeline 50: condensing tower
52: accumulator tank 53: gas vent
60: desorption column 61: the desorption column heating part
62: desorption gas outlet 63: the desorption gas inlet
64: desorption gas outlet 65: heating heating agent inlet
66: shell interchanger 67: plate heat exchanger
68: separate layer 70: condenser
71: frozen water outlet 72: the frozen water inlet
73: desorption nitrogen outlet 75: the liquid liquid/gas separator
81:TIC 82:TE
83: heat kerosene circulating pump 84: the heat kerosene triple valve
85: heat kerosene balance pipe 86: triple valve
86 ': triple valve 87: cut-off valve
88: cooler 89: the heat kerosene outlet
90: heat kerosene inlet 91: flame catcher
92: pressure-reducing valve 93: air blower
94: combustion air inlet 95: hot incinerator
96: steam (vapor) outlet 97: steam inlet
100: desorption column
The specific embodiment
Reach technological means and the effect that predetermined goal of the invention is taked for further setting forth the present invention, below in conjunction with accompanying drawing and preferred embodiment, its specific embodiment of device, structure, feature and the effect thereof of a kind of desorbing organic substances on line on temperature-change type fluidized floating bed that foundation the present invention is proposed, describe in detail as after.
Relevant aforementioned and other technology contents, characteristics and effect of the present invention can be known to present in the following detailed description that cooperates with reference to graphic preferred embodiment.By the explanation of the specific embodiment, when can being to reach technological means that predetermined purpose takes and effect to get one more deeply and concrete understanding to the present invention, yet appended graphic only provide with reference to the usefulness of explanation, be not to be used for the present invention is limited.
The device of a kind of desorbing organic substances on line on temperature-change type fluidized floating bed of the present invention, referring to Fig. 2, this device comprises: a blower fan 14, it is to be used to carry organic exhaust gas; The spherical adsorption material of tool is used to adsorb organic exhaust gas in the one fluidisation adsorption tower 10, this adsorption tower, and then discharges purified gas; Adsorption material conveying mechanism 20, most transfer pipelines of tool and conveying device are used for carrying this spherical adsorption material; One desorption column 60 is used for the saturated spherical adsorption material of this absorption of desorption, makes this spherical adsorption material regeneration; And a whole processing unit, the organic matter that purifies gained is recycled.
Its operation of device of the present invention is: organic exhaust gas enters this adsorption tower 10 with a blower fan 14, contact with the spherical adsorption material 30 in this adsorption tower, and purifying exhaust air, and entering this desorption column 60 via this adsorption material conveying mechanism 20, this spherical adsorption material 30 carries out the regeneration of this spherical adsorption material, and export 62 by a desorption gas again through the organic exhaust gas of desorption, enter follow-up whole processing unit, and carry out the recycling of organic exhaust gas.
This desorption column 60 wherein, it is the structure that adopts samming heat exchange shell or plate heat exchanger, the carrying out of the desorption reaction of these spherical adsorption material is provided, if wherein the shell interchanger 66, its cross section is as shown in Figure 3A, if plate heat exchanger 67, then its cross section then shown in Fig. 3 B, below all with the running of this desorption column among shell interchanger explanation the present invention.
This desorption column 60 comprises: a heating heating agent inlet 65, one heating heating agent outlet 64, one desorption gas inlet 63 and one desorption gas outlet 62; And the saturated spherical adsorption material of this absorption is entered within these shell interchangers by these desorption column 60 tops, carry out desorption reaction via this shell interchanger after, these desorption column 60 bottoms export adsorption material conveying mechanism 20 to certainly.
Moreover, heating part structure in this adsorption tower and pipeline configuration thereof are as shown in Figure 4, wherein this heating heating agent can be entered by heat kerosene inlet 90, after a heat kerosene triple valve 84 controls, flow through a heat kerosene circulating pump 83 and enter this heating heating agent inlet 65, owing to be provided with most separate layers 68 in these adsorption tower 60 inside, this heat kerosene is advanced along the dotted line direction among Fig. 4, uniform heating each shell interchanger in this adsorption tower 60, and, finally flow out via heat kerosene outlet 89 via these heating heating agent outlet 64 outflows; And be provided with a TIC82 at this heat kerosene triple valve 84, and these adsorption tower 60 bottoms are provided with a TE81, are used to measure the temperature contrast of the two, so that the flow of these heat kerosene triple valve 84 regulation and control heat kerosenes to be provided, by a heat kerosene balance pipe 85, to control the temperature of this adsorption tower 60.
Moreover, between this heating heating agent outlet 64 and this heat kerosene outlet 89, can write and be provided with a regulation device with selecting, comprise a triple valve 86, and cut-off a valve 87 and a cooler 88 (can be air cooling or water-cooled), utilize this triangular formation, as a heat exchanger that quickens heat radiation, cooling is used when this device is shut down; And should quicken the heat exchanger of heat radiation, can further comprise a quickly cooling device, it is made of this triple valve 86, this cooler 88 and another triple valve 86 ', be when these adsorption tower 60 temperature are too high, close this heat kerosene triple valve, no longer feed heating agent, utilize again triple valve 86 and 86 ' make heating agent triple valve 86 and 86 ' and cooler 88 threes between constitute a partial circulating, utilize this cooler 88 to carry out the quick cooling of heating agent in the device.
A specific embodiment of the present invention sees also Fig. 5, and this device comprises: a blower fan 14, a fluidisation adsorption tower 10, adsorption material conveying mechanism 20, a desorption column 60 and a whole processing unit, it is to be a condenser 70.
The wherein absorption of this organic exhaust gas and desorption, be as above-mentioned operation, and the organic exhaust gas that produces through desorption, enter this condenser 70, this condenser 70 tools one frozen water inlet 72, one frozen water outlet, 71 and one desorption nitrogen outlet 73, wherein export 62 organic exhaust gas from this desorption gas, be to flow through among this condenser 70, because this condenser 70 is via the temperature control of this frozen water inlet 72 and this frozen water outlet 71, be able to the organic substance in the organic exhaust gas is condensed into organic solution, and the nitrogen that originally is used to drive this organic exhaust gas is by flowing out through this desorption nitrogen outlet 73, and the organic solution that reclaims is then flowed in the liquid liquid/gas separator (Decanistor) 75 by the bottom of this condenser 70 and reclaims.
Another specific embodiment of the present invention sees also Fig. 6, and this device comprises: a blower fan 14, a fluidisation adsorption tower 10, adsorption material conveying mechanism 20, a desorption column 100 and a whole processing unit, it is to be a hot incinerator 95.
Wherein the absorption of this organic exhaust gas and desorption are as above-mentioned operation, and only this desorption column 100 is tool one steam inlet 97, a steam (vapor) outlet 96, is to change with Steam Heating to heat these shell interchangers; This desorption gas inlet 63 is to import nitrogen as the solvent that carries the organic exhaust gas behind desorption in addition, and the organic exhaust gas behind this desorption is exported from this desorption gas outlet 62, and the flame catcher 91 of flowing through, produce with the spontaneous combustion of avoiding these organic exhaust gas, and then provide and enter a hot incinerator 95, and this hot incinerator can import air with combustion-supporting from combustion air inlet 94 by an air blower 93, and between this incinerator 95 and this air blower 93, be provided with a TIC82 and a TE81, to regulate and control the flow of these air, and utilize the organic exhaust gas of this recovery to reclaim as resource, for the source of burning as energy.
Embodiment one
Use device of the present invention in a PU cloth photoresist coating process exhaust, carry out the processing of organic exhaust gas, its source air quantity 250NCMM (Nm
3/ min); Solvent: butanone (MEK) 35kgs/hr and toluene (Toluene) 35kgs/hr; 25~40 ℃ of inlet air temperature, inlet air relative humidity 35~75%RH.
Embodiment two
Use device of the present invention in general electronic technology exhaust, carry out the processing of organic exhaust gas, its source air quantity 100NCMM (Nm
3/ min); Solvent: isopropyl alcohol (IPA) 5kgs/hr and acetone (Acetone) 5kg s/hr; 20~25 ℃ of inlet air temperature, inlet air relative humidity 45~55%RH.
Comparing embodiment
Be to use the device shown in known (Fig. 1), carry out the processing of organic exhaust gas.
The result of the various embodiments described above, shown in following table one:
Provable via above-mentioned example, the device of a kind of desorbing organic substances on line on temperature-change type fluidized floating bed of the present invention, can effectively carry out the desorption reaction in the organic exhaust gas processing, and can promote temperature than high stability, be difficult for producing fire, and can not cause excess temperature in desorption process and the service life of deterioration adsorption material, be an economy, effective organic waste gas treatment device in fact.
The above, it only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, though the present invention discloses as above with preferred embodiment, yet be not in order to limit the present invention, any those skilled in the art, in not breaking away from the technical solution of the present invention scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solution of the present invention, according to technical spirit of the present invention to any simple modification that above embodiment did, equivalent variations and modification all still belong in the scope of technical solution of the present invention.
Claims (7)
1, a kind of device of desorbing organic substances on line on temperature-change type fluidized floating bed, this device comprises:
One blower fan, it is to be used to carry organic exhaust gas;
One fluidisation adsorption tower, spherical adsorption material of tool is used to adsorb organic exhaust gas in it, and then discharges purified gas;
The adsorption material conveying mechanism, most transfer pipelines of tool and conveying device are used for carrying this spherical adsorption material;
One desorption column is used for the saturated spherical adsorption material of this absorption of desorption, makes this spherical adsorption material regeneration; And
One whole processing unit is recycled the organic matter that purifies gained;
This device is characterised in that this desorption column heating part is to adopt a samming heat exchange structure.
2, the device of desorbing organic substances on line on temperature-change type fluidized floating bed according to claim 1 is characterized in that wherein said samming heat exchange structure is a samming heat exchange shell heat exchanger or the board-like heat exchanger of a samming heat exchange.
3, the device of desorbing organic substances on line on temperature-change type fluidized floating bed according to claim 1 is characterized in that wherein said desorption column comprises that further one quickens the heat exchanger of heat radiation.
4, the device of desorbing organic substances on line on temperature-change type fluidized floating bed according to claim 3 is characterized in that the heat exchanger of wherein said acceleration heat radiation further comprises a quickly cooling device, and it is made up of triple valve and cooler.
5, the device of desorbing organic substances on line on temperature-change type fluidized floating bed according to claim 1 is characterized in that wherein said whole processing unit is a condenser, and being used to reclaim this organic exhaust gas becomes an organic solvent.
6, the device of desorbing organic substances on line on temperature-change type fluidized floating bed according to claim 1 is characterized in that wherein said whole processing unit is a hot incinerator, with the use that acts as a fuel of this organic exhaust gas.
7, the device of a kind of desorbing organic substances on line on temperature-change type fluidized floating bed according to claim 1 is characterized in that wherein said whole processing unit is a thermal change formula adsorption desorption device, and being used to reclaim this organic exhaust gas becomes an organic solvent.
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| CN102205197A (en) * | 2011-03-17 | 2011-10-05 | 杰智环境科技股份有限公司 | Organic waste gas purifying system and method for preventing surface of absorbing material from condensing and caking |
| CN102371148A (en) * | 2010-08-13 | 2012-03-14 | 杰智环境科技股份有限公司 | Desorption tower and desorption state detection method |
| CN102553391A (en) * | 2010-12-24 | 2012-07-11 | 承源环境科技企业有限公司 | Adsorption material conveying device of solvent purification system |
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Family Cites Families (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP3348948B2 (en) * | 1993-12-28 | 2002-11-20 | 呉羽化学工業株式会社 | Removal device for organic solvent in soil |
| SE9402183D0 (en) * | 1994-06-21 | 1994-06-21 | Chematur Eng Ab | Method and apparatus for purifying ventilation air |
| BE1016691A3 (en) * | 2005-07-25 | 2007-04-03 | Verdesis | METHOD AND DEVICE FOR TREATING GAS. |
| CN101199913A (en) * | 2006-12-11 | 2008-06-18 | 蔡铭昇 | Absorption processing system of volatile organic compounds |
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2008
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| CN102205197A (en) * | 2011-03-17 | 2011-10-05 | 杰智环境科技股份有限公司 | Organic waste gas purifying system and method for preventing surface of absorbing material from condensing and caking |
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| CN115318265A (en) * | 2022-08-22 | 2022-11-11 | 广州金鹏环保工程有限公司 | Desorption regenerating unit |
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