CN205412597U - Organic waste gas device is retrieved in energy -conserving condensation - Google Patents

Abstract

The utility model relates to an in an organic waste gas device is retrieved in energy -conserving condensation, including the casing that is equipped with air intake and air outlet, the air intake be equipped with air inlet door, the air outlet is equipped with out the air door, be equipped with the zone of heating, adsorption zone and condensing zone between air intake to the air outlet in the casing in proper order, be equipped with a ventiduct of taking the air door between adsorption zone and the condensing zone, the zone of heating be equipped with the heater, the adsorption zone is equipped with organic matter adsorption material, the condensing zone is equipped with the surface cooler, adsorption zone and the zone of heating between be equipped with the desorption passageway, condensing zone and the zone of heating between be equipped with heat circulation canal, heat circulation canal and desorption passageway on all be equipped with the heat exchanger, still be equipped with a fan on heat circulation canal. The utility model discloses the structure is comparatively simple, has heat circulation desorption function, can further improve the absorption efficiency and the rate of recovery of waste gas, and the cyclic utilization heat, can effectual reduction operating power consumption.

Description

Organic exhaust gas device is reclaimed in energy-conservation condensation

Technical field

This utility model is involved in a kind of emission-control equipment, particularly relates to the process in a kind of organic exhaust gas and retracting device.

Background technology

At present, the device that existing organic exhaust gas reclaims is made up of parts such as housing, activated carbon assembly, condensate recycling device, condensing unit, resolver, segregation apparatus and retracting devices, utility model patent " organic exhaust gas device (notification number CN203342616U) is reclaimed in condensation " as disclosed in State Intellectual Property Office, the structure of the device that this organic exhaust gas reclaims is complex, cost of manufacture is high, and the adsorption efficiency of waste gas is poor, the response rate is low, energy consumption is big.

Utility model content

The purpose of this utility model is, has above-mentioned weak point to solve existing VOCs treatment retracting device, it is provided that organic exhaust gas device is reclaimed in a kind of energy-conservation condensation.

Organic exhaust gas device is reclaimed in energy-conservation condensation, including the housing being provided with air inlet and air outlet, described air inlet is provided with shutter, air outlet is provided with out air door, air inlet in described housing is sequentially provided with the thermal treatment zone, adsorption zone and condensing zone between air outlet, is provided with the ventilating duct of a band air door between described adsorption zone and condensing zone, and the described thermal treatment zone is provided with heater, adsorption zone is provided with Adsorption of Organic material, and condensing zone is provided with surface cooler；Being provided with desorption passage between described adsorption zone and the thermal treatment zone, this desorption passage end accesses adsorption zone, and the other end accesses condensing zone；Being provided with recycle heat passage between described condensing zone and the thermal treatment zone, this recycle heat passage end accesses condensing zone, and the other end accesses the thermal treatment zone；Being equipped with heat exchanger on described recycle heat passage and desorption passage, be additionally provided with a blower fan on recycle heat passage, the gas of the band heat in adsorption zone is delivered to condensing zone after heat exchanger heat exchange by this desorption passage；Recycle heat passage is delivered to the thermal treatment zone after the gas of the surface cooler generation band heat of condensing zone is delivered to heat exchanger heat exchange by blower fan again.

Further, described desorption passage two ends are respectively provided on the ventilating duct at air door two ends.

Further, described heat exchanger at least more than one, described heat exchanger be individually or collectively located at recycle heat passage and desorption passage on.

Further, described heat exchanger has two, blower fan position between two heat exchangers on recycle heat passage.

Further, described housing has a fixed mount, and described recycle heat passage, desorption passage, heat exchanger and assembling are on fixed mount.

Further, described surface cooler includes vaporizer and refrigeration machine, and described vaporizer is located in the condensing zone of housing, and refrigeration machine is located on fixed mount.

Further, described heater is the electric heating tube of Curved, and this electric heating tube forms one or more heating cross section in housing.

Further, described Adsorption of Organic material is combined by one or more layers active carbon layer, and this active carbon layer forms one or more layers activated carbon adsorption cross-sectional layers in housing.

Further, the cooling surface of described surface cooler forms, at condensing zone air outlet, the cooling cross section that air flows through.

Further, being provided with the output magazine for waste gas organic emission below the housing of described condensing zone, this output magazine is reclaimed by conveying pipe output.

The beneficial effects of the utility model:

1, the ventilating duct of a band air door it is provided with between adsorption zone of the present utility model and condensing zone, and between adsorption zone and condensing zone, it is provided with desorption passage, recycle heat passage it is provided with between the thermal treatment zone and condensing zone, also it is provided with heat exchanger at recycle heat passage and desorption passage, makes desorption passage that after heat exchanger heat exchange, the discharge gas (i.e. the hot gas of band organic exhaust gas) of the band heat in adsorption zone is delivered to condensing zone；Recycle heat passage is delivered to the thermal treatment zone after the discharge gas (i.e. the hot gas of band organic exhaust gas) of the surface cooler generation band heat of condensing zone is delivered to heat exchanger heat exchange by blower fan again.Thus, the structure making energy-conservation condensation reclaim organic exhaust gas device is relatively simple, has recycle heat desorption function, improves adsorption efficiency and the response rate of waste gas further, and recycles heat, can effectively reduce operation energy consumption.

2, being equipped with heat exchanger on recycle heat passage of the present utility model and desorption passage, this heat exchanger is individually or collectively located on recycle heat passage and desorption passage, can more effectively improve the cyclic utilization rate of heat, and then improve energy-saving effect.

3, being provided with the output magazine for waste gas organic emission below the housing of this utility model condensing zone, this output magazine is reclaimed by conveying pipe output, can preferably by waste gas organic emission out, and it is more reasonable to design.

4, this utility model housing has a fixed mount, and described recycle heat passage, desorption passage, heat exchanger and assembling are on fixed mount, and thus this utility model is installed simple, uses convenient.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

Organic exhaust gas device is reclaimed in energy-conservation condensation as shown in Figure 1, including the housing 1 being provided with air inlet and air outlet, described air inlet is provided with shutter 11, air outlet is provided with out air door 12, this shutter 11 and to go out air door 12 be the opening closure on the passage of entry/exit air port, make the housing 1 can be in sealing state or ventilation state, this opening closure can be air door or valve etc., air inlet in described housing 1 is sequentially provided with the thermal treatment zone 13 between air outlet, adsorption zone 14 and condensing zone 15, the ventilating duct 16 of a band air door it is provided with between described adsorption zone 14 and condensing zone 15, the described thermal treatment zone 13 is provided with heater 131, adsorption zone 14 is provided with Adsorption of Organic material 141, condensing zone 15 is provided with surface cooler 151；Being provided with recycle heat passage 2 between described condensing zone 15 and the thermal treatment zone 13, condensing zone 15 is accessed in this recycle heat passage 2 one end, and the other end accesses the thermal treatment zone 13；Being provided with desorption passage 3, this access adsorption zone, desorption passage 3 one end 14 between described adsorption zone 14 and the thermal treatment zone 13, the other end accesses condensing zone 15；It is equipped with heat exchanger 4 on described recycle heat passage 2 and desorption passage 3, recycle heat passage 2 is additionally provided with a blower fan 5, this blower fan is frequency conversion fan, and the discharge gas of the band heat in adsorption zone 14 hot gas of band organic exhaust gas (this gas be) is delivered to condensing zone 15 after heat exchanger 4 heat exchange by this desorption passage 3；After the discharge gas of the band heat that the surface cooler 151 of condensing zone 15 is produced by recycle heat passage 2 hot gas of band organic exhaust gas (this gas be) is delivered to heat exchanger 4 heat exchange by blower fan 5, it is being delivered to the thermal treatment zone 13.

Described desorption passage 3 two ends are respectively provided on the ventilating duct 16 at air door two ends, i.e. desorption passage 3 two ends are respectively connected to ventilating duct 16 two ends of band air door or are positioned at the both sides of ventilating duct 16 upper wind door.Described air door is controlled valve on ventilating duct 16.Described heat exchanger 4 at least more than one, multiple heat exchangers 4 are located on recycle heat passage 2 and desorption passage 3 jointly, the most multiple heat exchangers 4 are each provided on recycle heat passage 2 and desorption passage 3, multiple heat exchangers 4 act on recycle heat passage 2 and desorption passage 3 jointly, make the discharge gas of the discharge gas of the band heat that on condensing zone 15, surface cooler 151 flows out and the band heat of adsorption zone 14 outflow all by heat exchanger 4 same on desorption passage 3 and recycle heat passage 2, cross-exchange, it is transmitted back to the thermal treatment zone by heat exchanger 4 more again recycle, as Fig. 1 is two heat exchangers 4, described blower fan 5 position between two heat exchangers 4.

Simpler in order to make this utility model install and use, use convenient, have a fixed mount 6 at housing 1, described recycle heat passage 2, desorption passage 3, heat exchanger 4 and blower fan 5 are located on fixed mount 6.Described surface cooler 151 includes vaporizer 41 and refrigeration machine 42, and described vaporizer 41 is located in the condensing zone 15 of housing, and refrigeration machine 42 is located on fixed mount 6.

Described heater 131 is the electric heating tube of Curved, and this electric heating tube forms one or more heating cross section in housing 1.Described Adsorption of Organic material 141 is combined by one or more layers active carbon layer, and this active carbon layer forms one or more layers activated carbon adsorption cross-sectional layers in housing 1.The cooling surface of described surface cooler 151 forms, at condensing zone 15 air outlet, the cooling cross section that air flows through, and described cooling surface is the cooling tube being distributed on condensing zone on surface cooler 4.The output magazine 152 for waste gas organic emission it is provided with below the housing 1 of condensing zone 15, this output magazine 152 is reclaimed by conveying pipe 153 output, and concrete, output magazine 152 is positioned at bottom the cooling surface of surface cooler 151, make waste gas Organic substance by condensation flow to output magazine 152, outlet tube 153 discharge.

This utility model is when carrying out adsorbing waste gas Organic substance, organic exhaust gas is entered adsorption zone by air inlet, the adsorbing material multilamellar activated carbon of adsorption zone adsorb, by the Adsorption of Organic of waste gas on the adsorbent material, thus the Organic substance of waste gas is stopped, prevent discharge.

nullThis utility model is when carrying out being desorbed waste gas Organic substance，Close air outlet go out air door 12 and shutter 11 go out air door 12，Simultaneously close off the air door of ventilating duct 16 between adsorption zone 14 and condensing zone 15，Make to be formed between the thermal treatment zone 13 in housing 1 and the inner chamber of the inner chamber of adsorption zone 14 and condensing zone 15 two independent sealing inner chambers，Start the heater 131 of the thermal treatment zone，In order to make heater can use according under specific environment，A thermoregulator 7 can be set on heater 131 and carry out regulating and controlling the heating-up temperature of heater 131，Start blower fan 5 simultaneously，The hot gas that adds making heater 131 passes on adsorbing material，Active carbon layer rolls，The waste gas Organic substance of activated carbon adsorption is separated，Simultaneously，This separation contains the organic gas with heat of waste gas and passes one or two heat exchanger 4 by desorption passage 3，Send the gas heat that the heat in gas is converted to recycle back to the thermal treatment zone，Remaining is delivered to condensing zone containing waste gas Organic substance (particulate matter) gas，Cooling is condensed by surface cooler on condensing zone 4，The condensed water making the organic particulate matter in waste gas produce with surface cooler 4 mixes，And drain into output magazine 152，Finally discharged by outlet tube 153，Heat produced by surface cooler 4 passes the heat exchanger 4 on desorption passage 3 by recycle heat passage 2 simultaneously，The heat making surface cooler 4 produce can be recycled，Avoid heat losses，Recycle，So that reaching more energy-saving effect，Organic exhaust gas (i.e. with the waste gas of organic particulate matter) is thus made constantly to circulate the desorption carrying out waste gas organic particle between the independent thermal treatment zone 13 of sealing and adsorption zone 14 inner chamber and condensing zone 15 inner chamber，Reclaim，Thus，Formation has energy-conservation、Preferably organic exhaust gas function is reclaimed in condensation.

In the application, the plurality of heat exchanger 4 can also be respectively provided on recycle heat passage 2 and desorption passage 3, carries out heat exchange recovery respectively.

Claims (10)

1. Organic exhaust gas device is reclaimed in the most energy-conservation condensation, including the housing (1) being provided with air inlet and air outlet, it is characterized in that: described air inlet is provided with shutter (11), air outlet is provided with out air door (12), air inlet in described housing (1) is sequentially provided with the thermal treatment zone (13) between air outlet, adsorption zone (14) and condensing zone (15), the ventilating duct (16) of a band air door it is provided with between described adsorption zone (14) and condensing zone (15), the described thermal treatment zone (13) is provided with heater (131), adsorption zone (14) is provided with Adsorption of Organic material (141), condensing zone (15) is provided with surface cooler (151)；

   Being provided with desorption passage (3), this access adsorption zone, desorption passage (3) one end (14) between described adsorption zone (14) and the thermal treatment zone (13), the other end accesses condensing zone (15)；

   It is provided with recycle heat passage (2) between described condensing zone (15) and the thermal treatment zone (13), condensing zone (15) is accessed in this recycle heat passage (2) one end, and the other end accesses the thermal treatment zone (13)；

   It is equipped with heat exchanger (4) on described recycle heat passage (2) and desorption passage (3), being additionally provided with a blower fan (5) on recycle heat passage (2), the gas of adsorption zone (14) interior band heat is delivered to condensing zone (15) after heat exchanger (4) heat exchange by this desorption passage (3)；Recycle heat passage (2) is delivered to the thermal treatment zone (13) after the gas of surface cooler (151) the generation band heat of condensing zone (15) is delivered to heat exchanger (4) heat exchange by blower fan (5) again.
2. Organic exhaust gas device is reclaimed in energy-conservation condensation the most according to claim 1, it is characterized in that: described desorption passage (3) two ends are respectively provided on the ventilating duct (16) at air door two ends.
3. Organic exhaust gas device is reclaimed in energy-conservation condensation the most according to claim 1, it is characterized in that: described heat exchanger (4) at least more than one, described heat exchanger is common or is respectively provided at recycle heat passage (2) and is desorbed on passage (3).
4. Organic exhaust gas device is reclaimed in energy-conservation condensation the most according to claim 1, it is characterized in that: described heat exchanger (4) has two, blower fan (5) is positioned at position between upper two heat exchangers (4) of recycle heat passage (2).
5. Organic exhaust gas device is reclaimed in energy-conservation condensation the most according to claim 1, it is characterized in that: described housing (1) has a fixed mount (6), described recycle heat passage (2), desorption passage (3), heat exchanger (4) and blower fan (5) are arranged on fixed mount (6).
6. Organic exhaust gas device is reclaimed in energy-conservation condensation the most according to claim 1, it is characterized in that: described surface cooler (151) includes vaporizer (41) and refrigeration machine (42), described vaporizer (41) is located in the condensing zone (15) of housing, and refrigeration machine (42) is located on fixed mount (6).
7. Organic exhaust gas device is reclaimed in energy-conservation condensation the most according to claim 1, it is characterized in that: described heater (131) is the electric heating tube of Curved, and this electric heating tube forms one or more heating cross section in housing (1).
8. Organic exhaust gas device is reclaimed in energy-conservation condensation the most according to claim 1, it is characterized in that: described Adsorption of Organic material (141) is combined by one or more layers active carbon layer, this active carbon layer forms one or more layers activated carbon adsorption cross-sectional layers in housing (1).
9. Organic exhaust gas device is reclaimed in energy-conservation condensation the most according to claim 1, it is characterized in that: the cooling surface of described surface cooler (151) forms, at condensing zone (15) air outlet, the cooling cross section that air flows through.
10. Organic exhaust gas device is reclaimed in energy-conservation condensation the most according to claim 1, it is characterized in that: housing (1) lower section of described condensing zone (15) is provided with the output magazine (152) for waste gas organic emission, and this output magazine (152) is reclaimed by conveying pipe (153) output.