CN209646174U - A kind of organic exhaust gas low-temperature catalytic burning system - Google Patents
A kind of organic exhaust gas low-temperature catalytic burning system Download PDFInfo
- Publication number
- CN209646174U CN209646174U CN201920239128.1U CN201920239128U CN209646174U CN 209646174 U CN209646174 U CN 209646174U CN 201920239128 U CN201920239128 U CN 201920239128U CN 209646174 U CN209646174 U CN 209646174U
- Authority
- CN
- China
- Prior art keywords
- exhaust gas
- fixed bed
- activated carbon
- voc
- autocontrol valve
- 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.)
- Active
Links
Landscapes
- Treating Waste Gases (AREA)
Abstract
The utility model discloses a kind of organic exhaust gas low-temperature catalytic burning systems, including dehumidification system, and the first activated carbon and fixed bed being separately connected with it, second activated carbon and fixed bed and heat exchanger, the heat exchanger is connected separately with heat source system and catalysis combustion box, wherein, the heat source system is separately connected first activated carbon and fixed bed and the second activated carbon and fixed bed, the catalysis combustion box is separately connected first activated carbon and fixed bed and the second activated carbon and fixed bed, VOC exhaust gas discharges after first activated carbon and fixed bed and the second activated carbon and fixed bed final process.The utility model supplements catalytic way by suction type, the effect for not only reaching energy-efficient effect, while greatly enhancing stability, reducing cost.
Description
Technical field
The utility model relates to VOC technical field of waste gas treatment, especially a kind of organic exhaust gas low-temperature catalytic burning system.
Background technique
Existing active carbon absorption technology does not pass through dehumidification process in pretreatment, and carbon leaching material has more steam
Highly selective, after dehumidifying exhaust gas, it is more efficient with activated carbon adsorption, and existing VOC catalytic combustion process is mostly accumulation of heat
The case where formula is burnt (RTO), but is involved great expense, and needs large-scale heat source, middle-size and small-size discharge scale can not be applicable in, on the other hand, existing
Depositing VOC catalysis burning mostly use zeolite molecular sieve as medium is concentrated, but the shortcomings that zeolite molecular sieve is: manufacturing cost height is received
Dirty capacity is low.
It would therefore be highly desirable to which a kind of use active carbon as adsorbing and concentration medium, procurement cost is low, receives dirt under equal conditions
Measure system and technique more much higher than zeolite molecular sieve, and that there is spectrum adsorption capacity to the type of VOC organic matter.
Utility model content
The utility model is insufficient present on existing VOC exhaust-gas treatment in order to overcome, and it is low to provide a kind of new organic exhaust gas
Warm catalytic combustion system.
Realize above-mentioned purpose the technical solution of the utility model are as follows:
A kind of organic exhaust gas low-temperature catalytic burning system, including dehumidification system, the first active carbon that Ji Yuqi is separately connected
Fixed bed, the second activated carbon and fixed bed and heat exchanger, the heat exchanger are connected separately with heat source system and catalysis combustion box,
Wherein, the heat source system is separately connected first activated carbon and fixed bed and the second activated carbon and fixed bed, the catalysis burning
Case is separately connected first activated carbon and fixed bed and the second activated carbon and fixed bed, and VOC exhaust gas is solid by first active carbon
It is discharged after fixed bed and the second activated carbon and fixed bed final process.
Further, first activated carbon and fixed bed and the second activated carbon and fixed bed are connected separately with the first VOC concentration
The concentration of detector and the 2nd VOC concentrations detectors, the VOC exhaust gas handled through the first activated carbon and fixed bed is lower than described first
The setting value of VOC concentrations detectors, then the VOC exhaust gas qualified discharge, the VOC exhaust gas handled through the second activated carbon and fixed bed
Concentration is lower than the setting value of the 2nd VOC concentrations detectors, then VOC exhaust gas qualified discharge.
Further, it is living to be respectively arranged in described first for the first VOC concentrations detectors and the 2nd VOC concentrations detectors
Property charcoal fixed bed and the second activated carbon and fixed bed output end, detect first activated carbon and fixed bed and the second active carbon fixed
The VOC exhaust gas of bed processing.
Further, a kind of organic exhaust gas low-temperature catalytic burning system further includes exhaust tube, and the exhaust tube connects
First activated carbon and fixed bed and the second activated carbon and fixed bed are connect, it is described to pass through the first activated carbon and fixed bed and the second active carbon
Fixed bed treated VOC exhaust gas, is discharged by the exhaust tube.
Further, the heat exchanger is also respectively connected with first activated carbon and fixed bed and the second active carbon is fixed
Bed, the VOC exhaust gas through the catalysis combustion box catalysis enter the heat exchanger, and VOC exhaust gas passes to first after carrying out heat exchange
Activated carbon and fixed bed or the second activated carbon and fixed bed.
Further, the dehumidification system respectively with first activated carbon and fixed bed, the second activated carbon and fixed bed and heat
The first autocontrol valve, the second autocontrol valve and third autocontrol valve are provided between exchanger, by controlling described the
The VOC exhaust gas that the dehumidification system dehumidifies is passed to institute by one autocontrol valve, the second autocontrol valve and third autocontrol valve
State the first activated carbon and fixed bed, the second activated carbon and fixed bed and heat exchanger.
Further, it is provided with the 4th autocontrol valve between the heat exchanger and catalysis combustion box, passes through described the
Four autocontrol valves control VOC exhaust gas and enter heat exchanger progress heat exchange.
Further, it is provided with the 5th autocontrol valve between the heat source system and first activated carbon and fixed bed,
The 6th autocontrol valve is provided between the heat source system and second activated carbon and fixed bed.
Further, the 7th automatic control is provided between the catalysis combustion box and first activated carbon and fixed bed
Valve is provided with the 8th autocontrol valve between the catalysis combustion box and second activated carbon and fixed bed.
Further, it is set respectively between the exhaust tube and first activated carbon and fixed bed and the second activated carbon and fixed bed
Set the 9th autocontrol valve.
Further, the heat source system uses microwave as heat source, and the heating efficiency of microwave is high, without open fire, unlike
With other fuel heating can generate secondary pollution gas, the VOC exhaust gas after heating, temperature range at 200 DEG C -400 DEG C, into
Regenerated first activated carbon and fixed bed or the second activated carbon and fixed bed, VOC exhaust gas after heating by the first activated carbon and fixed bed or
Emission molecule in second activated carbon and fixed bed is desorbed, and generates desorption exhaust gas, temperature range is at 200 DEG C -400 DEG C.
Further, the dehumidification system is also connected with a spray system, the VOC exhaust gas after spray system sprays,
It dehumidifies into the dehumidification system, using spray system to the mist of oil in VOC exhaust gas, particulate matter, soluble strong, easily capture
VOC be removed, the dehumidification system dehumidifies to VOC exhaust gas using salt bath except wet tank, using salt agglomeration, be granulated or
The mode of moulding is made into fixed bed or thermopnore, the moisture quilt when VOC exhaust gas for having humidity passes through salt bath cabinet, in exhaust gas
Salt absorbs, and the salt meeting nature for absorbing moisture is scattered, and the salinity being scattered can recycle, and can repeat to make by drying or drying
With.
It further, is one of spherical catalytic filler or honeycomb catalyst filler, catalysis in the catalysis combustion box
Filler is high temperature resistant rigidity substance, and material surface has loaded noble metal or transition-metal catalyst, and desorption exhaust gas is filled out by catalysis
When material, the VOC in exhaust gas can be decomposed.
Further, a kind of organic exhaust gas low-temperature catalytic burning system further includes an automatic control system, it is described from
Autocontrol system is separately connected the first autocontrol valve, the second autocontrol valve, third autocontrol valve, the 4th automatic control
Valve, the 5th autocontrol valve, the 6th autocontrol valve, the 7th autocontrol valve, the 8th autocontrol valve, the 9th automatically control
Valve, and control to adjust first autocontrol valve, the second autocontrol valve, third autocontrol valve, the 4th autocontrol valve,
5th autocontrol valve, the 6th autocontrol valve, the 7th autocontrol valve, the 8th autocontrol valve, the 9th autocontrol valve
It opens and is closed.
Further, the automatic control system is also connected with and controls first activated carbon and fixed bed, the second active carbon
Fixed bed, heat exchanger, heat source system, catalysis combustion box.
Further, the automatic control system is also connected with the first VOC concentrations detectors and the 2nd VOC concentrations detectors.
Further, the automatic control system is also connected with dehumidification system and spray system.
Further, a kind of organic exhaust gas low-temperature catalytic burning system further includes timing controller, the timing control
Device processed connects the automatic control system, by the timing controller timing, reaches a certain moment, closes VOC exhaust gas and enter
The access of first activated carbon and fixed bed or the second activated carbon and fixed bed.
A kind of organic exhaust gas low-temperature catalytic burning technique, comprising the following steps:
The pretreatment of step 1) VOC exhaust gas, obtains exhaust gas G-2;
Step 2) exhaust gas G-2 purification, exhaust gas G-2 enter the first activated carbon and fixed bed and are adsorbed, and obtain net gas G-3, arrange
It puts;
Step 3) exhaust gas G-2 purification, exhaust gas G-2 enter the second activated carbon and fixed bed and are adsorbed, and obtain net gas G-3, arrange
It puts;And
Step 4) exhaust gas G-2 heat exchange, portion G-2 carry out heat exchange, and heating obtains heating exhaust gas G-4;
Step 5) the first activated carbon and fixed bed thermal desorption, exhaust gas G-4 enters the first activated carbon and fixed bed, to the first active carbon
Emission molecule in fixed bed carries out thermal desorption, obtains exhaust gas G-5;
Step 6) exhaust gas G-5 catalysis, exhaust gas G-5 carry out catalysis burning, and the VOC exhaust gas in exhaust gas G-5 is decomposed, and is given up
Gas G-6;
Step 7) exhaust gas G-6 heat exchange, exhaust gas G-6 carry out heat exchange, carry out heat exchange with desorption gas source, it is useless to obtain cooling
Gas G-7;
Step 8) exhaust gas G-2 and G-7 is purified, and exhaust gas G-7 and exhaust gas G-2 enter the second activated carbon and fixed bed together and inhaled
It is attached, net gas G-3 is obtained, is discharged.
Further, the step 2) the following steps are included:
Step 21) exhaust gas G-2 enters the first activated carbon and fixed bed and is adsorbed, and obtains net gas G-3, discharges;
Step 22) reaches a certain moment by timing controller timing, closes exhaust gas G-2 and fixes into the first active carbon
3) access of bed, goes to step;Or
Whether step 23) reaches a certain setting value by the VOC concentration that VOC concentrations detectors detect G-3, if G-3 does not have
Reach setting value, then go to step 21), if G-3 reaches setting value, closes the access that exhaust gas G-2 enters the first activated carbon and fixed bed,
It then goes to step 3).
Further, the step 1) the following steps are included:
Step 11) sprays VOC exhaust gas, obtains exhaust gas G-1;
Step 12) dehumidifies to exhaust gas G-1, obtains exhaust gas G-2.
Further, the temperature range of the step 4) and exhaust gas G-4 and exhaust gas G-5 in step 5) are as follows: 200 DEG C -400
℃。
The course of work is as follows:
When starting, the first autocontrol valve and the 9th autocontrol valve are in the open state, other autocontrol valves are in
Closed state, the first VOC concentrations detectors and the 2nd VOC concentrations detectors set a setting value.
VOC exhaust gas is sprayed first, obtains exhaust gas G-1, exhaust gas G-1 enters dehumidification system and dehumidifies, obtains
Exhaust gas G-2, exhaust gas G-2 enter the first activated carbon and fixed bed by pipeline, and the first activated carbon and fixed bed is in exhaust gas G-2
VOC is adsorbed, and the exhaust gas by absorption can be up to standard, obtains net gas G-3, and discharge by exhaust tube, the detection of the first VOC concentration
Whether the VOC concentration of device real-time detection G-3 reaches the setting value of the first VOC concentrations detectors, if G-3 does not reach the first VOC
The setting value of concentrations detectors, then exhaust gas G-2 continues into the first activated carbon and fixed bed and is adsorbed, when G-3 reaches first
The setting value of VOC concentrations detectors, then the first VOC concentrations detectors will test information and feed back to the automatic control system, and
First autocontrol valve is closed by automatic control system control, meanwhile, the second autocontrol valve, third automatically control
Valve, the 4th autocontrol valve, the 5th autocontrol valve, the 6th autocontrol valve, the 7th autocontrol valve, the 8th autocontrol valve
It opens, second activated carbon and fixed bed is led in the air inlet switching of the exhaust gas G-2 after dehumidifying, and the second activated carbon and fixed bed is to exhaust gas
VOC in G-2 is adsorbed, and the exhaust gas by absorption can be up to standard, obtains net gas G-3, and discharge by exhaust tube, the 2nd VOC
Whether the VOC concentration of concentrations detectors real-time detection G-3 reach the setting value of the 2nd VOC concentrations detectors, exhaust gas G-2 into
Autogenous cutting changes while lead to second activated carbon and fixed bed, and portion G-2 enters heat exchanger simultaneously and carries out heat exchange,
And lead to heat source system and heated, exhaust gas G-4 is obtained after heating, exhaust gas G-4 temperature at this time is 200 DEG C -400 DEG C, high temperature
Exhaust gas G-4 enters the first activated carbon and fixed bed, and high-temp waste gas G-4 takes off the emission molecule in the first activated carbon and fixed bed
It is attached, desorption exhaust gas G-5 is generated, desorption exhaust gas G-5 temperature range is 200 DEG C -400 DEG C, and desorption exhaust gas G-5 enters catalysis burning
Case, when desorption exhaust gas G-5 passes through catalytic filler, the VOC in exhaust gas is decomposed, and obtains exhaust gas G-6, exhaust gas G-6 is back to hot friendship
Parallel operation carries out heat exchange with desorption gas source exhaust gas G-2, and such exhaust gas G-2 enters heat source system there is no need to a large amount of heat source, makes
It obtains waste heat to make full use of, after exhaust gas G-6 heat exchange, obtains cooling exhaust gas G-7, exhaust gas G-7 and enter second together with exhaust gas G-2
Activated carbon and fixed bed is adsorbed, and the exhaust gas by absorption can be up to standard, net gas G-3 is obtained, and discharge by exhaust tube, in this mistake
Whether the VOC concentration of Cheng Zhong, the 2nd VOC concentrations detectors real-time detection G-3 reach the setting value of the 2nd VOC concentrations detectors,
If G-3 does not reach the setting value of the 2nd VOC concentrations detectors, exhaust gas G-2 continue into the second activated carbon and fixed bed into
Row absorption, when G-3 reaches the setting value of the 2nd VOC concentrations detectors, then the 2nd VOC concentrations detectors will test information and feed back to
The automatic control system, and controlled by the automatic control system and close the second autocontrol valve, at this point, the exhaust gas after dehumidifying
First activated carbon and fixed bed is led in the air inlet switching of G-2, and the first activated carbon and fixed bed inhales the VOC in exhaust gas G-2
Attached, the exhaust gas by absorption can be up to standard, obtains net gas G-3, and discharge by exhaust tube, the first VOC concentrations detectors are examined in real time
Whether the VOC concentration for surveying G-3 reaches the setting values of the first VOC concentrations detectors, leads to described the in the air inlet switching of exhaust gas G-2
While one activated carbon and fixed bed, portion G-2 enter simultaneously heat exchanger carry out heat exchange, and lead to heat source system into
Row heating, obtains exhaust gas G-4 after heating, exhaust gas G-4 temperature at this time is 200 DEG C -400 DEG C, and high-temp waste gas G-4 enters second
The emission molecule in the second activated carbon and fixed bed is desorbed in activated carbon and fixed bed, high-temp waste gas G-4, generates desorption exhaust gas G-
5, desorption exhaust gas G-5 temperature range is 200 DEG C -400 DEG C, and desorption exhaust gas G-5 enters catalysis combustion box, desorption exhaust gas G-5 warp
When crossing catalytic filler, the VOC in exhaust gas is decomposed, and obtains exhaust gas G-6, and exhaust gas G-6 is back to heat exchanger, useless with desorption gas source
Gas G-2 carries out heat exchange, after exhaust gas G-6 heat exchange, obtains cooling exhaust gas G-7, exhaust gas G-7 as exhaust gas G-2 enters the together
One activated carbon and fixed bed is adsorbed, and the exhaust gas by absorption can be up to standard, obtains net gas G-3, and discharge by exhaust tube, so
Analogize circulation.
The utility model has the beneficial effects that the organic exhaust gas low-temperature catalytic burning system of the utility model, active carbon filtration
Material can be constantly regenerating, cost saved filtrate, has effectively adsorbed the carbon leaching material danger wastes of VOC substance, should
System greatly reduces the generation of danger wastes;This system is not complete catalysts oxidation, and complete catalysts oxidation energy consumption is high, work
Skill complicated condition, construction cost is high, and by low-temperature catalyzed, most of organic matter is decomposed in desorption exhaust gas G-5, becomes G-6, G-
Become G-7 after 6 coolings, remaining low-concentration organic and G-2 enter clean activated carbon and fixed bed together in G-7, these are low
Concentration organic is also adsorbed, it is this " absorbing process " come by way of supplementing " catalysis " technique, energy conservation and stability
By force, cost of implementation is low, and is heated by microwave mode, high-efficient, safety.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the flow diagram of the utility model.
In figure, spray system 10, dehumidification system 20, the first activated carbon and fixed bed 30, the first VOC concentrations detectors 301, the
Two activated carbon and fixed beds 40, the 2nd VOC concentrations detectors 401, heat exchanger 50, heat source system 501 are catalyzed combustion box 502, row
Inflator 60, the first autocontrol valve 701, the second autocontrol valve 702, third autocontrol valve 703, the 4th autocontrol valve
704, the 5th autocontrol valve 705, the 6th autocontrol valve 706, the 7th autocontrol valve 707, the 8th autocontrol valve 708,
9th autocontrol valve 709.
Specific embodiment
In the present embodiment, referring to Figures 1 and 2, a kind of organic exhaust gas low-temperature catalytic burning system, including dehumidification system 20,
And the first activated carbon and fixed bed 30, the second activated carbon and fixed bed 40 and the heat exchanger 50 being separately connected with it, the heat exchange
Device 50 is connected separately with heat source system 501 and catalysis combustion box 502, wherein the heat source system 501 is separately connected described first
Activated carbon and fixed bed 30 and the second activated carbon and fixed bed 40, it is solid that the catalysis combustion box 502 is separately connected first active carbon
Fixed bed 30 and the second activated carbon and fixed bed 40, VOC exhaust gas are fixed by first activated carbon and fixed bed 30 and the second active carbon
It is discharged after 40 final process of bed.
First activated carbon and fixed bed 30 and the second activated carbon and fixed bed 40 are connected separately with the first VOC concentrations detectors
301 and the 2nd VOC concentrations detectors 401, the concentration of the VOC exhaust gas handled through the first activated carbon and fixed bed 30 be lower than described first
The setting value of VOC concentrations detectors 301, then the VOC exhaust gas qualified discharge, the VOC handled through the second activated carbon and fixed bed 40
The concentration of exhaust gas is lower than the setting value of the 2nd VOC concentrations detectors 401, then VOC exhaust gas qualified discharge, specifically, described
First VOC concentrations detectors 301 and the 2nd VOC concentrations detectors 401 are respectively arranged in 30 He of the first activated carbon and fixed bed
The output end of second activated carbon and fixed bed 40 detects first activated carbon and fixed bed 30 and the processing of the second activated carbon and fixed bed 40
VOC exhaust gas.
A kind of organic exhaust gas low-temperature catalytic burning system further includes exhaust tube 60, and the exhaust tube 60 connects described
First activated carbon and fixed bed 30 and the second activated carbon and fixed bed 40, it is described to pass through the first activated carbon and fixed bed 30 and the second active carbon
Treated the VOC exhaust gas of fixed bed 40 passes through the exhaust tube 60 and discharges;And the dehumidification system 20 is also connected with a spray system
10, the VOC exhaust gas dehumidifies into the dehumidification system 20 after the spray of spray system 10, uses spray system 10
Mist of oil, particulate matter, soluble VOC that is strong, easily capturing in VOC exhaust gas is removed, the dehumidification system 20 uses salt bath
Except wet tank dehumidifies to VOC exhaust gas, it is made into fixed bed or thermopnore in the way of salt agglomeration, granulation or moulding, it is wet when having
When the VOC exhaust gas of degree passes through salt bath cabinet, the moisture in exhaust gas is absorbed by salt, and the salt meeting nature for absorbing moisture is scattered, and is dissipated
The salinity fallen can recycle, and may be reused by drying or drying.
The heat exchanger 50 is also respectively connected with first activated carbon and fixed bed 30 and the second activated carbon and fixed bed 40, warp
The VOC exhaust gas that the catalysis combustion box 502 is catalyzed enters the heat exchanger 50, and VOC exhaust gas passes to first after carrying out heat exchange
Activated carbon and fixed bed 30 or the second activated carbon and fixed bed 40.
It is honeycomb catalyst filler in the catalysis combustion box 502, catalytic filler is high temperature resistant rigidity substance, material surface
Noble metal or transition-metal catalyst are loaded, when desorption exhaust gas passes through catalytic filler, the VOC in exhaust gas can be decomposed;It is described
Heat source system 501 uses microwave as heat source, and the heating efficiency of microwave is high, without open fire, unlike that can be produced with the heating of other fuel
Raw secondary pollution gas, the VOC exhaust gas after heating, temperature range are solid into the first active carbon to be regenerated at 200 DEG C -400 DEG C
Fixed bed 30 or the second activated carbon and fixed bed 40, the VOC exhaust gas after heating consolidate the first activated carbon and fixed bed 30 or the second active carbon
Emission molecule in fixed bed 40 is desorbed, and generates desorption exhaust gas, temperature range is at 200 DEG C -400 DEG C.
The dehumidification system 20 respectively with first activated carbon and fixed bed 30, the second activated carbon and fixed bed 40 and heat exchange
It is provided with the first autocontrol valve 701, the second autocontrol valve 702 and third autocontrol valve 703 between device 50, passes through control
First autocontrol valve 701, the second autocontrol valve 702 and third autocontrol valve 703 remove the dehumidification system 20
Wet VOC exhaust gas passes to first activated carbon and fixed bed 30, the second activated carbon and fixed bed 40 and heat exchanger 50;The heat is handed over
It is provided with the 4th autocontrol valve 704 between parallel operation 50 and catalysis combustion box 502, is controlled by the 4th autocontrol valve 704
VOC exhaust gas processed enters the heat exchanger 50 and carries out heat exchange;The heat source system 501 and first activated carbon and fixed bed 30
Between be provided with the 5th autocontrol valve 705, be provided between the heat source system 501 and second activated carbon and fixed bed 40
6th autocontrol valve 706;It is automatic that the 7th is provided between the catalysis combustion box 502 and first activated carbon and fixed bed 30
Control valve 707 is provided with the 8th autocontrol valve between the catalysis combustion box 502 and second activated carbon and fixed bed 40
708;The 9th is respectively set between the exhaust tube 60 and first activated carbon and fixed bed 30 and the second activated carbon and fixed bed 40
Autocontrol valve 709.
A kind of organic exhaust gas low-temperature catalytic burning system further includes an automatic control system, the automatic control system difference
Connect the first autocontrol valve 701, the second autocontrol valve 702, third autocontrol valve 703, the 4th autocontrol valve 704,
5th autocontrol valve 705, the 6th autocontrol valve 706, the 7th autocontrol valve 707, the 8th autocontrol valve the 708, the 9th
Autocontrol valve 709, and control to adjust first autocontrol valve 701, the second autocontrol valve 702, third and automatically control
Valve 703, the 4th autocontrol valve 704, the 5th autocontrol valve 705, the 6th autocontrol valve 706, the 7th autocontrol valve
707, the unlatching and closure of the 8th autocontrol valve 708, the 9th autocontrol valve 709;The automatic control system is also connected with simultaneously
Control first activated carbon and fixed bed 30, the second activated carbon and fixed bed 40, heat exchanger 50, heat source system 501, catalysis burning
Case 502;The automatic control system is also connected with the first VOC concentrations detectors 301 and the 2nd VOC concentrations detectors 401;It is described from
Autocontrol system is also connected with dehumidification system 20 and spray system 10.
A kind of organic exhaust gas low-temperature catalytic burning system further includes timing controller, and the timing controller connects institute
Automatic control system is stated, by the timing controller timing, reaches a certain moment, closes VOC exhaust gas and enter the first active carbon
The access of fixed bed 30 or the second activated carbon and fixed bed 40.
A kind of organic exhaust gas low-temperature catalytic burning technique, comprising the following steps:
The pretreatment of step 1) VOC exhaust gas, obtains exhaust gas G-2;
Step 2) exhaust gas G-2 purification, exhaust gas G-2 enter the first activated carbon and fixed bed 30 and are adsorbed, and obtain net gas G-3,
Discharge;
Step 3) exhaust gas G-2 purification, exhaust gas G-2 enter the second activated carbon and fixed bed 40 and are adsorbed, and obtain net gas G-3,
Discharge;And
Step 4) exhaust gas G-2 heat exchange, portion G-2 carry out heat exchange, and heating obtains heating exhaust gas G-4;
30 thermal desorption of the first activated carbon and fixed bed of step 5), exhaust gas G-4 enter the first activated carbon and fixed bed 30, living to first
Property charcoal fixed bed 30 on emission molecule carry out thermal desorption, obtain exhaust gas G-5;
Step 6) exhaust gas G-5 catalysis, exhaust gas G-5 carry out catalysis burning, and the VOC exhaust gas in exhaust gas G-5 is decomposed, and is given up
Gas G-6;
Step 7) exhaust gas G-6 heat exchange, exhaust gas G-6 carry out heat exchange, carry out heat exchange with desorption gas source, it is useless to obtain cooling
Gas G-7;
Step 8) exhaust gas G-2 and G-7 is purified, and exhaust gas G-7 and exhaust gas G-2 enter the progress of the second activated carbon and fixed bed 40 together
Absorption, obtains net gas G-3, discharges.
The step 2) the following steps are included:
Step 21) exhaust gas G-2 enters the first activated carbon and fixed bed 30 and is adsorbed, and obtains net gas G-3, discharges;
Step 22) reaches a certain moment by timing controller timing, closes exhaust gas G-2 and fixes into the first active carbon
3) access of bed 30, goes to step;Or
Whether step 23) reaches a certain setting value by the VOC concentration that VOC concentrations detectors detect G-3, if G-3 does not have
Reach setting value, then go to step 21), if G-3 reaches setting value, closes exhaust gas G-2 and enter the logical of the first activated carbon and fixed bed 30
3) road is then gone to step.
The step 1) the following steps are included:
Step 11) sprays VOC exhaust gas, obtains exhaust gas G-1;
Step 12) dehumidifies to exhaust gas G-1, obtains exhaust gas G-2.
The temperature range of exhaust gas G-4 and exhaust gas G-5 in the step 4) and step 5) are as follows: 200 DEG C -400 DEG C.
The course of work is as follows:
When starting, the first autocontrol valve 701 and the 9th autocontrol valve 709 are in the open state, other automatic controls
Valve is in close state, and the first VOC concentrations detectors 301 and the 2nd VOC concentrations detectors 401 set a setting value.
VOC exhaust gas is sprayed first, obtains exhaust gas G-1, exhaust gas G-1 enters dehumidification system 20 and dehumidifies, obtains
The first activated carbon and fixed bed 30 is entered by pipeline to exhaust gas G-2, exhaust gas G-2, the first activated carbon and fixed bed 30 is to exhaust gas G-2
In VOC adsorbed, the exhaust gas by absorption can be up to standard, obtains net gas G-3, and discharge by exhaust tube 60, the first VOC is dense
Whether the VOC concentration of degree 301 real-time detection G-3 of detector reaches the setting value of the first VOC concentrations detectors 301, if G-3 does not have
Reach the setting value of the first VOC concentrations detectors 301, then exhaust gas G-2 continues into the first activated carbon and fixed bed 30 and inhaled
Attached, when G-3 reaches the setting value of the first VOC concentrations detectors 301, then the first VOC concentrations detectors 301 will test information feedback
The extremely automatic control system, and first autocontrol valve 701 is closed by automatic control system control, meanwhile, the
Two autocontrol valves 702, third autocontrol valve 703, the 4th autocontrol valve 704, the 5th autocontrol valve the 705, the 6th are certainly
Dynamic control valve 706, the 7th autocontrol valve 707, the 8th autocontrol valve 708 are opened, the air inlet switching of the exhaust gas G-2 after dehumidifying
Lead to second activated carbon and fixed bed 40, the second activated carbon and fixed bed 40 adsorbs the VOC in exhaust gas G-2, by inhaling
Attached exhaust gas can be up to standard, obtains net gas G-3, and discharge by exhaust tube 60,401 real-time detection G-3 of the 2nd VOC concentrations detectors
VOC concentration whether reach the setting values of the 2nd VOC concentrations detectors 401, lead to described second in the air inlet switching of exhaust gas G-2
While activated carbon and fixed bed 40, portion G-2 enters heat exchanger 50 simultaneously and carries out heat exchange, and leads to heat source system
501 are heated, and exhaust gas G-4 is obtained after heating, and exhaust gas G-4 temperature at this time is 200 DEG C -400 DEG C, and high-temp waste gas G-4 enters
To the first activated carbon and fixed bed 30, the emission molecule in the first activated carbon and fixed bed 30 is desorbed in high-temp waste gas G-4, is generated
Exhaust gas G-5 is desorbed, desorption exhaust gas G-5 temperature range is 200 DEG C -400 DEG C, and desorption exhaust gas G-5 enters catalysis combustion box 502,
When exhaust gas G-5 is desorbed by catalytic filler, the VOC in exhaust gas is decomposed, and obtains exhaust gas G-6, exhaust gas G-6 is back to heat exchanger
50, heat exchange is carried out with desorption gas source exhaust gas G-2, such exhaust gas G-2 enters heat source system 501 there is no need to a large amount of heat source,
So that waste heat makes full use of, after exhaust gas G-6 heat exchange, cooling exhaust gas G-7, exhaust gas G-7 are obtained as exhaust gas G-2 enters the together
Two activated carbon and fixed beds 40 are adsorbed, and the exhaust gas by absorption can be up to standard, obtain net gas G-3, and discharge by exhaust tube 60,
During this, whether the VOC concentration of 401 real-time detection G-3 of the 2nd VOC concentrations detectors reaches the 2nd VOC concentrations detectors
401 setting value, if G-3 does not reach the setting value of the 2nd VOC concentrations detectors 401, exhaust gas G-2 continues into second
Activated carbon and fixed bed 40 is adsorbed, and when G-3 reaches the setting value of the 2nd VOC concentrations detectors 401, then the 2nd VOC concentration is visited
Survey device 401 will test information and feed back to the automatic control system, and close second automatically by automatic control system control
Control valve 702, at this point, first activated carbon and fixed bed 30, the first active carbon are led in the air inlet switching of the exhaust gas G-2 after dehumidifying
Fixed bed 30 adsorbs the VOC in exhaust gas G-2, and the exhaust gas by absorption can be up to standard, obtains net gas G-3, and pass through exhaust
Cylinder 60 discharges, and whether the VOC concentration of 301 real-time detection G-3 of the first VOC concentrations detectors reaches the first VOC concentrations detectors 301
Setting value, exhaust gas G-2 air inlet switching lead to the first activated carbon and fixed bed 30 while, portion G-2 is simultaneously
It enters heat exchanger 50 and carries out heat exchange, and lead to heat source system 501 and heated, exhaust gas G-4 is obtained after heating, at this time
Exhaust gas G-4 temperature is 200 DEG C -400 DEG C, and high-temp waste gas G-4 enters the second activated carbon and fixed bed 40, and high-temp waste gas G-4 is to the
Emission molecule in two activated carbon and fixed beds 40 is desorbed, and desorption exhaust gas G-5 is generated, and desorption exhaust gas G-5 temperature range is 200
DEG C -400 DEG C, desorption exhaust gas G-5 enters catalysis combustion box 502, VOC when desorption exhaust gas G-5 passes through catalytic filler, in exhaust gas
It is decomposed, obtains exhaust gas G-6, exhaust gas G-6 is back to heat exchanger 50, carries out heat exchange, exhaust gas G- with desorption gas source exhaust gas G-2
After 6 heat exchanges, cooling exhaust gas G-7 is obtained, exhaust gas G-7 is inhaled as exhaust gas G-2 enters the first activated carbon and fixed bed 30 together
Attached, the exhaust gas by absorption can be up to standard, obtains net gas G-3, and discharge by exhaust tube 60, so analogizes circulation.
The organic exhaust gas low-temperature catalytic burning system of the utility model, carbon leaching material can be constantly regenerating, greatly
Filtrate is saved, the carbon leaching material danger wastes of VOC substance have effectively been adsorbed, which greatly reduces dangerous waste
The generation of object;This system is not complete catalysts oxidation, and complete catalysts oxidation energy consumption is high, and process conditions are complicated, and construction cost is high,
By low-temperature catalyzed, most of organic matter is decomposed in desorption exhaust gas G-5, becomes G-6, becomes G-7 after G-6 cooling, remains in G-7
Remaining low-concentration organic and G-2 enters clean activated carbon and fixed bed together, these low-concentration organics are also adsorbed,
It is this " absorbing process " come by way of supplementing " catalysis " technique, energy conservation and stability is strong, cost of implementation is low, and by micro-
Wave mode is heated, high-efficient, safety.
The utility model is described in detail above, it is described above, only the preferred embodiment of the utility model and
, when the utility model practical range cannot be limited, i.e., all according to the made equivalent changes and modifications of the application range, it should still belong to this
In utility model covering scope.
Claims (10)
1. a kind of organic exhaust gas low-temperature catalytic burning system, it is characterised in that: including dehumidification system, Ji Yuqi be separately connected
One activated carbon and fixed bed, the second activated carbon and fixed bed and heat exchanger, the heat exchanger are connected separately with heat source system and urge
Change combustion box, wherein the heat source system is separately connected first activated carbon and fixed bed and the second activated carbon and fixed bed, described
Catalysis combustion box is separately connected first activated carbon and fixed bed and the second activated carbon and fixed bed, and VOC exhaust gas passes through described first
It is discharged after activated carbon and fixed bed and the second activated carbon and fixed bed final process.
2. a kind of organic exhaust gas low-temperature catalytic burning system according to claim 1, it is characterised in that: first activity
Charcoal fixed bed and the second activated carbon and fixed bed are connected separately with the first VOC concentrations detectors and the 2nd VOC concentrations detectors, through
The concentration of the VOC exhaust gas of one activated carbon and fixed bed processing is lower than the setting value of the first VOC concentrations detectors, then the VOC
Exhaust gas qualified discharge, the concentration of the VOC exhaust gas handled through the second activated carbon and fixed bed is lower than the 2nd VOC concentrations detectors
Setting value, then VOC exhaust gas qualified discharge.
3. a kind of organic exhaust gas low-temperature catalytic burning system according to claim 1, it is characterised in that: further include exhaust
Cylinder, the exhaust tube connects first activated carbon and fixed bed and the second activated carbon and fixed bed, described solid by the first active carbon
Fixed bed and the second activated carbon and fixed bed treated VOC exhaust gas, are discharged by the exhaust tube.
4. a kind of organic exhaust gas low-temperature catalytic burning system according to claim 1, it is characterised in that: the heat exchanger
It is also respectively connected with first activated carbon and fixed bed and the second activated carbon and fixed bed, the VOC through the catalysis combustion box catalysis is useless
Gas enters the heat exchanger, and VOC exhaust gas passes to the first activated carbon and fixed bed or the second activated carbon and fixed bed after carrying out heat exchange.
5. a kind of organic exhaust gas low-temperature catalytic burning system according to claim 4, it is characterised in that: the dehumidification system
The first automatic control is provided between first activated carbon and fixed bed, the second activated carbon and fixed bed and heat exchanger respectively
Valve, the second autocontrol valve and third autocontrol valve, by control first autocontrol valve, the second autocontrol valve and
The VOC exhaust gas that the dehumidification system dehumidifies is passed to first activated carbon and fixed bed, the second active carbon by third autocontrol valve
Fixed bed and heat exchanger.
6. a kind of organic exhaust gas low-temperature catalytic burning system according to claim 5, it is characterised in that: the heat exchanger
It is provided with the 4th autocontrol valve between catalysis combustion box, VOC exhaust gas is controlled by the 4th autocontrol valve and enters institute
It states heat exchanger and carries out heat exchange.
7. a kind of organic exhaust gas low-temperature catalytic burning system according to claim 6, it is characterised in that: the heat source system
The 5th autocontrol valve is provided between first activated carbon and fixed bed, the heat source system and second active carbon are solid
The 6th autocontrol valve is provided between fixed bed.
8. a kind of organic exhaust gas low-temperature catalytic burning system according to claim 6, it is characterised in that: the catalysis burning
The 7th autocontrol valve, the catalysis combustion box and second activity are provided between case and first activated carbon and fixed bed
The 8th autocontrol valve is provided between charcoal fixed bed.
9. a kind of organic exhaust gas low-temperature catalytic burning system according to claim 5, it is characterised in that: the dehumidification system
It is also connected with a spray system, the VOC exhaust gas dehumidifies after spray system sprays into the dehumidification system.
10. a kind of organic exhaust gas low-temperature catalytic burning system according to claim 8, it is characterised in that: the catalysis combustion
It is one of spherical catalytic filler or honeycomb catalyst filler in saggar.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920239128.1U CN209646174U (en) | 2019-02-25 | 2019-02-25 | A kind of organic exhaust gas low-temperature catalytic burning system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920239128.1U CN209646174U (en) | 2019-02-25 | 2019-02-25 | A kind of organic exhaust gas low-temperature catalytic burning system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209646174U true CN209646174U (en) | 2019-11-19 |
Family
ID=68525083
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201920239128.1U Active CN209646174U (en) | 2019-02-25 | 2019-02-25 | A kind of organic exhaust gas low-temperature catalytic burning system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209646174U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109701358A (en) * | 2019-02-25 | 2019-05-03 | 广州键洋环保科技有限公司 | A kind of organic exhaust gas adsorption and catalysis burning combined system and its technique |
-
2019
- 2019-02-25 CN CN201920239128.1U patent/CN209646174U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109701358A (en) * | 2019-02-25 | 2019-05-03 | 广州键洋环保科技有限公司 | A kind of organic exhaust gas adsorption and catalysis burning combined system and its technique |
CN109701358B (en) * | 2019-02-25 | 2024-02-13 | 广州键洋环保科技有限公司 | Organic waste gas adsorption and catalytic combustion combined system and process thereof |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN207221597U (en) | A kind of VOCs adsoption catalysises burning processing system automatically controlled | |
CN107511019B (en) | Volatile organic pollutant's processing apparatus | |
CN109701358A (en) | A kind of organic exhaust gas adsorption and catalysis burning combined system and its technique | |
CN104258688B (en) | Organic waste gas recycling system and technique | |
CN205886514U (en) | Paint spraying waste gas treatment device | |
CN209155464U (en) | Zeolite molecular sieve fixed bed VOCs Adsorption Concentration desorption and regeneration system | |
CN204073781U (en) | A kind of modularization organic waste gas purifying treatment system | |
CN207025012U (en) | Industrial VOC Multi-grade exhaust gas concentration device | |
CN103463932B (en) | Method and device for treating and recycling organic exhaust gas with low concentration and large air volume | |
CN201015727Y (en) | Organic waste gases or stench processing system | |
CN207270973U (en) | A kind of processing unit of volatile organic contaminant | |
CN108443894A (en) | The method and system of catalysis burning processing VOCs exhaust gas | |
CN110433616A (en) | A kind of VOCs processing system with pretreatment, zeolite runner and RTO | |
CN207024949U (en) | The industrial dense catalytic thermal burning processing system of VOC waste gas | |
CN205517124U (en) | Organic waste gas processing apparatus based on fixed molecular sieve adsorption bed | |
CN209646174U (en) | A kind of organic exhaust gas low-temperature catalytic burning system | |
CN209405955U (en) | Garbage burning boiler flue gas minimum discharge system | |
CN110479038A (en) | A kind of exhaust treatment system and processing method suitable for coal chemical industry | |
CN207254038U (en) | A kind of efficient organic waste gas treatment system | |
CN208406512U (en) | A kind of organic waste gas concentrating oxidation integrating device | |
CN205598911U (en) | Modified asphalt waterproofing membrane process gas processing system | |
CN207024947U (en) | Industrial VOC waste gas concentrates heat-accumulation combustion processing system | |
CN207025011U (en) | Industrial VOC waste gas concentrates energy-efficient treatment system | |
WO2006076849A1 (en) | Cleaning process for converting a waste gas into an industrial organic waste gas capable of circulating utilization | |
CN206304536U (en) | A kind of cleaning equipment for waste organic gas |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |