CN208223248U - A kind of exhaust gas drying dehumidification processor - Google Patents
A kind of exhaust gas drying dehumidification processor Download PDFInfo
- Publication number
- CN208223248U CN208223248U CN201820423008.2U CN201820423008U CN208223248U CN 208223248 U CN208223248 U CN 208223248U CN 201820423008 U CN201820423008 U CN 201820423008U CN 208223248 U CN208223248 U CN 208223248U
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- CN
- China
- Prior art keywords
- tube bank
- honeycomb
- exhaust gas
- ontology
- drying dehumidification
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- 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.)
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Abstract
The utility model discloses a kind of exhaust gas drying dehumidification processors of technical field of heat exchange, aim to solve the problem that the technical issues of high-temperature gas is unevenly distributed, end socket including ontology and ontology both ends, the end socket is equipped with hot air intake and heat outlet, and the body upper part is equipped with exhaust gas inlet, lower part is equipped with waste gas outlet;The tube bank and gas distribution board group corresponding with the hot air intake in honeycomb tubulose are provided in the ontology, the gas distribution board group includes along body axis direction, multiple air distribution plates disposed in parallel, the air distribution plate is equipped with qi-emitting hole, and the qi-emitting hole on adjacent two air distribution plate is intervally arranged.The high temperature hot gas of concentration effectively can be dispersed into multiply air-flow by the air distribution plate being arranged in the utility model, so that it is identical into the gas temperature in every root canal beam, and then guarantee the whole effect on moisture extraction of exhaust gas;Successively spaced upper and lower baffle plate makes exhaust path S-type in the utility model, effectively extends heat exchanger time.
Description
Technical field
The utility model relates to technical field of heat exchange, and in particular to a kind of exhaust gas drying dehumidification processor.
Background technique
In industrial production, industrial waste gas more or less all can be externally discharged, some industrial waste gases contain a large amount of heat, have
Industrial waste gas humidity it is larger, therefore be directed to different industrial waste gases, need using different exhaust processors.
Heat exchanger is a kind of heat-exchange apparatus, and the quality of heat exchange efficiency will directly affect the effect of heat exchange, heat exchanger
Largely various forms of applying is suffered from all trades and professions.For exhaust gas dehumidifying heat exchanger generally comprise ontology and
It is connected to the end socket at ontology both ends, fluid inlet and outlet is equipped on ontology and end socket, is equipped with heat-exchange tube in ontology.Carry out it is useless
During gas dehumidifies, high-temperature gas walks tube side, exhaust gas walks shell side, but in existing equipment, high-temperature gas is all directly logical
It crosses hot air intake to enter in the cavity between end socket and ontology, and then enters in each tube bank, such high-temperature gas is more concentrated,
Temperature is higher in the tube bank closer from hot air intake, and temperature is lower in the tube bank more former from hot air intake, will cause part in this way
Exhaust gas effect on moisture extraction is bad, to influence the whole effect on moisture extraction of exhaust gas.
Utility model content
In view of this, the purpose of this utility model is to provide a kind of exhaust gas drying dehumidification processors, to solve High Temperature Gas
The technical issues of body is unevenly distributed.
The technology employed by the present utility model is
A kind of exhaust gas drying dehumidification processor is designed, including ontology and the end socket for being connected to the ontology both ends, the envelope
Head is equipped with hot air intake and heat outlet, and the ontology is equipped with exhaust gas inlet close to the top of heat outlet one end, far from heat
The lower part of gas inlet end is equipped with waste gas outlet;The both ends of the ontology are equipped with isolation orifice plate, the isolation orifice plate and the envelope
Two independent cavitys are formed between head, parallel extension are provided in the ontology, in the tube bank of honeycomb tubulose, the tube bank
Both ends are connected to after being fixed by the isolation orifice plate with the cavity;Air distribution plate is equipped in the cavity being connected to the hot air intake
Group, the gas distribution board group include the end face air distribution plate vertical with body axis, the air distribution plate at least there are two, the air distribution plate
It is equipped with qi-emitting hole, and the qi-emitting hole on adjacent two air distribution plate is intervally arranged.
Preferably, along body axis direction, closer to hot air intake, on the air distribution plate quantity of qi-emitting hole less, hole
Diameter is bigger.
Preferably, upper and lower baffle plate is additionally provided in the ontology, the upper and lower baffle plate, which is successively spaced, to be arranged so that shell
Journey path is S-type.
Preferably, the tube bank includes including the tube bank of short honeycomb and the tube bank of long honeycomb, the short honeycomb tube bank and long honeycomb
Wall surface is adjoined and shares in tube bank, and the both ends of the long honeycomb tube bank are connected to the cavity, the short honeycomb tube bank both ends and institute
State exhaust gas inlet, waste gas outlet connection.
Preferably, the intrinsic short honeycomb tube bank and the tube bank of long honeycomb layered distribution in a ring from inside to outside, and
By the short honeycomb first annular heat-exchanging tube bundle layer that constitutes of tube bank and the second annular heat exchange tube beam layer for being made of the tube bank of long honeycomb according to
Minor tick arrangement.
Preferably, the intrinsic short honeycomb tube bank and the tube bank of long honeycomb are spirally distributed from inside to outside, and by
The first annular heat-exchanging tube bundle layer that short honeycomb tube bank is constituted and the second annular heat exchange tube beam layer being made of the tube bank of long honeycomb are mutual
Package arrangement.
Preferably, the intrinsic short honeycomb tube bank and the tube bank of long honeycomb are in from left to right layered distribution, and by short
Between honeycomb restrains the first annular heat-exchanging tube bundle layer constituted and the second annular heat exchange tube beam layer being made of the tube bank of long honeycomb successively
Every arrangement.
It preferably, is to be detachably connected between the ontology and end socket.
Preferably, the The cross section of tube bank is circle, rectangle, any one in regular hexagon.
Preferably, the cross section of the ontology is circle, rectangle, any one in regular hexagon.
Compared with prior art, the advantageous effects of the utility model are:
1, the utility model structure is simple, easy to operate, low in cost;The air distribution plate being arranged in the utility model can be effective
The high temperature hot gas of concentration is dispersed into multiply air-flow by ground, so that, Jin Erbao identical into the gas temperature in every root canal beam
Demonstrate,prove the whole effect on moisture extraction of exhaust gas.
2, successively spaced upper and lower baffle plate makes exhaust path S-type in the utility model, effectively extends
Heat exchanger time.
3, the cross section being arranged in the utility model is regular hexagon, the tube bank of short honeycomb and the tube bank of long honeycomb for sharing wall surface
Heat exchange contact area can be increased to greatest extent, and then guarantee the effect on moisture extraction of exhaust gas.
Detailed description of the invention
Fig. 1 is one of the structural schematic diagram of the utility model;
Fig. 2 is the main view that orifice plate is isolated;
Fig. 3 is the main view of air distribution plate;
Fig. 4 is the second structural representation of the utility model;
Fig. 5 is the main view of baffle plate;
Fig. 6 is the third structural representation of the utility model;
Fig. 7 is the structural schematic diagram of tube bank;
Fig. 8 is one of The cross section of tube bank schematic diagram;
Fig. 9 is the two of The cross section of tube bank schematic diagram;
Figure 10 is the three of The cross section of tube bank schematic diagram;
1 is ontology, and 2 be left head, and 3 be right end socket, and 4 be heat outlet, and 5 be hot air intake, and 6 be exhaust gas inlet, and 7 be useless
Gas outlet, 8 be left isolation orifice plate, and 9 be right isolation orifice plate, and 10 be left cavity, and 11 be right cavity, and 12 be aperture, and 13 be air distribution plate,
14 be qi-emitting hole, and 15 be tube bank, and 16 be upper baffle plate, and 17 be lower baffle plate, and 18 restrain for short honeycomb, and 19 restrain for long honeycomb,
20 be fluid cavity.
Specific embodiment
Illustrate specific embodiment of the present utility model with reference to the accompanying drawings and examples, but following embodiment only uses
It is described in detail the utility model, does not limit the scope of the utility model in any way.Involved in following embodiment
The devices such as unit module components, structure, mechanism or sensor are then unless otherwise instructed conventional commercial product.
Embodiment: as shown in Figure 1-Figure 3, a kind of exhaust gas drying dehumidification processor, including ontology 1 and it is removably connected to this
The right end socket 3 of the left head 2 of 1 left end of body, right end, left head 2 are equipped with heat outlet 4, and right end socket 3 is equipped with hot air intake 5,
The upper left quarter of ontology 1 is equipped with exhaust gas inlet 6, right lower quadrant is equipped with waste gas outlet 7.
The left end of ontology 1 is connected with left isolation orifice plate 8, right end is connected with right isolation orifice plate 9, left isolation orifice plate 8 and left envelope
Left cavity 10 is formed between first 2, forms right cavity 11 between right isolation orifice plate 9 and right end socket 3;Ontology 1 is internally provided with bee
The tube bank 15 of nest tubulose, multiple tube banks 15 are arranged in parallel along 1 axis direction of ontology, and the left and right ends for restraining 15 are isolated with left respectively
Orifice plate 8 is fixedly connected with right isolation orifice plate 9, and left isolation orifice plate 8 and right isolation orifice plate 9 are equipped with makes tube bank 15 and left cavity
10, the aperture 12 that right cavity 11 is connected to.
It is equipped with gas distribution board group in right cavity 11, gas distribution board group is made of three air distribution plates being parallel to each other 13, air distribution plate 13
End face it is vertical with the axis of ontology 1, air distribution plate 13 is equipped with qi-emitting hole 14, and the qi-emitting hole 14 on adjacent two air distribution plate 13 is spaced
Arrangement;Along 1 axis direction of ontology, closer to hot air intake 5, on air distribution plate 13 quantity of qi-emitting hole 14 less, aperture it is bigger.
In the present embodiment, 15 cross section is restrained as circle;The cross section of ontology 1 is circle.
In other embodiments, as shown in fig. 4-5, in order to extend the path of exhaust gas, to extend connecing for exhaust gas and hot gas
Touch the time, be additionally provided with baffle plate 16, lower baffle plate 17 in ontology 1, upper baffle plate 16, lower baffle plate 17 successively be spaced be arranged with
Keep shell side path S-type.
In other embodiments, as Figure 6-Figure 8, in order to increase the contact area of shell side and tube side, tube bank includes cross
Section is the short honeycomb tube bank 18 and long honeycomb tube bank 19 of regular hexagon, short honeycomb tube bank 18 and long honeycomb tube bank 19 adjoin and
Wall surface is shared, the left and right ends of long honeycomb tube bank 19 are connected to left cavity 10, right cavity 11 respectively;The inner wall of ontology 1, it is left every
From the plate face of orifice plate 8 or right isolation orifice plate 9, stretches out and restrain the lateral surface of the long honeycomb tube bank 19 on the outside of 18 both ends in short honeycomb
Three surrounds the fluid cavity 20 of sealing jointly, and the left and right ends of short honeycomb tube bank 18 are connected to fluid cavity 20, and fluid is empty
Chamber 20 is also connected to exhaust gas inlet 6, waste gas outlet 7.
Short honeycomb tube bank 18 and long honeycomb tube bank 19 in ontology 1 layered distribution in a ring from inside to outside, and by short bee
The first annular heat-exchanging tube bundle layer of 18 composition of nest tube bank and the second annular heat exchange tube beam layer being made of long honeycomb tube bank 19 are successively
It is intervally arranged.
In the present embodiment, the cross section of ontology is regular hexagon.
In other embodiments, as shown in figure 9, the short honeycomb tube bank 18 and long honeycomb tube bank 19 in ontology 1 are from introversive
Be spirally distributed outside, and by the 18 first annular heat-exchanging tube bundle layer that constitutes of short honeycomb tube bank be made of long honeycomb tube bank 19
Second annular heat exchange tube beam layer mutually wraps up arrangement.
In other embodiments, as shown in Figure 10, the short honeycomb tube bank 18 in ontology 1 and the tube bank 19 of long honeycomb are from left-hand
The right side is in layered distribution, and by the 18 first annular heat-exchanging tube bundle layer that constitutes of short honeycomb tube bank be made of long honeycomb tube bank 19 the
Second ring heat-exchanging tube bundle layer is successively intervally arranged.
In other embodiments, in order to improve heat exchange effect, insulation jacket is additionally provided with outside ontology 1.
The operate with method of above-mentioned exhaust gas drying dehumidification processor is as follows:
High-temperature gas (boiler afterheat) enters in right cavity 11 via hot air intake 5, and then high-temperature gas is by qi-emitting hole 14
Multiple air distribution plates 13 are sequentially passed through, are uniformly flowed into every root long honeycomb tube bank 19 again to be dispersed into multiply air-flow;High humility
Industrial waste gas enter fluid cavity 20 through exhaust gas inlet 6, then enter back into every short honeycomb tube bank 18;High-temperature gas is in length
Right-to-left flowing (short arrow in Fig. 6) in honeycomb tube bank 19, industrial waste gas in short honeycomb tube bank 18 (scheme from left to right by flowing
Long arrow in 6) because long honeycomb tube bank 19 and short honeycomb restrain 18 shared tube walls, between high-temperature gas and industrial waste gas
Heat exchange can be sufficiently carried out, to realize the purpose for carrying out drying dehumidification to exhaust gas.
Finally, it is stated that above embodiments are merely intended for describing the technical solutions of the present application, but not for limiting the present application, this field
Other modifications or equivalent replacement that those of ordinary skill makes the technical solution of the utility model, it is practical without departing from this
The spirit and scope of new technique scheme should all cover in the scope of the claims of the utility model.
Claims (10)
1. a kind of exhaust gas drying dehumidification processor is set on the end socket including ontology and the end socket for being connected to the ontology both ends
There are hot air intake and heat outlet, it is characterised in that: the ontology is equipped with exhaust gas inlet, remote close to the top of heat outlet one end
Lower part from hot air intake one end is equipped with waste gas outlet;The both ends of the ontology are equipped with isolation orifice plate, the isolation orifice plate and institute
Two independent cavitys of formation between end socket are stated, parallel extension are provided in the ontology, in the tube bank of honeycomb tubulose, the pipe
The both ends of beam are connected to after being fixed by the isolation orifice plate with the cavity;It is connected to the hot air intake in cavity and is equipped with air distribution plate
Group, the gas distribution board group include the end face air distribution plate vertical with body axis, the air distribution plate at least there are two, the air distribution plate
It is equipped with qi-emitting hole, and the qi-emitting hole on adjacent two air distribution plate is intervally arranged.
2. exhaust gas drying dehumidification processor according to claim 1, it is characterised in that: along body axis direction, closer to
Hot air intake, on the air distribution plate quantity of qi-emitting hole less, aperture it is bigger.
3. exhaust gas drying dehumidification processor according to claim 2, it is characterised in that: be additionally provided in the ontology upper and lower
Baffle plate, the upper and lower baffle plate, which is successively spaced, to be arranged so that shell side path is S-type.
4. exhaust gas drying dehumidification processor according to claim 1, it is characterised in that: the tube bank includes that short honeycomb is restrained
Restrained with long honeycomb, wall surface is adjoined and shares in the short honeycomb tube bank and the tube bank of long honeycomb, the both ends of the long honeycomb tube bank with
The cavity connection, the short honeycomb tube bank both ends are connected to the exhaust gas inlet, waste gas outlet.
5. exhaust gas drying dehumidification processor according to claim 4, it is characterised in that: the intrinsic short honeycomb tube bank
With long honeycomb tube bank layered distribution in a ring from inside to outside, and the first annular heat-exchanging tube bundle layer being made of the tube bank of short honeycomb with
It is successively intervally arranged by the second annular heat exchange tube beam layer that the tube bank of long honeycomb is constituted.
6. exhaust gas drying dehumidification processor according to claim 4, it is characterised in that: the intrinsic short honeycomb tube bank
Be spirally distributed from inside to outside with the tube bank of long honeycomb, and by the short honeycomb first annular heat-exchanging tube bundle layer that constitutes of tube bank with by
The second annular heat exchange tube beam layer that long honeycomb tube bank is constituted mutually wraps up arrangement.
7. exhaust gas drying dehumidification processor according to claim 4, it is characterised in that: the intrinsic short honeycomb tube bank
From left to right be in layered distribution with the tube bank of long honeycomb, and by the short honeycomb first annular heat-exchanging tube bundle layer that constitutes of tube bank with by growing
The second annular heat exchange tube beam layer that honeycomb tube bank is constituted successively is intervally arranged.
8. exhaust gas drying dehumidification processor according to claim 1, it is characterised in that: being between the ontology and end socket can
Dismantling connection.
9. exhaust gas drying dehumidification processor according to claim 1, it is characterised in that: the The cross section of tube bank is circle
Shape, rectangle, any one in regular hexagon.
10. exhaust gas drying dehumidification processor described in -9 any one according to claim 1, it is characterised in that: the ontology
Cross section is circle, rectangle, any one in regular hexagon.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820423008.2U CN208223248U (en) | 2018-03-28 | 2018-03-28 | A kind of exhaust gas drying dehumidification processor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820423008.2U CN208223248U (en) | 2018-03-28 | 2018-03-28 | A kind of exhaust gas drying dehumidification processor |
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Publication Number | Publication Date |
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CN208223248U true CN208223248U (en) | 2018-12-11 |
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CN201820423008.2U Expired - Fee Related CN208223248U (en) | 2018-03-28 | 2018-03-28 | A kind of exhaust gas drying dehumidification processor |
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CN (1) | CN208223248U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112361854A (en) * | 2020-11-27 | 2021-02-12 | 长春理工大学 | Micro-channel heat exchanger |
-
2018
- 2018-03-28 CN CN201820423008.2U patent/CN208223248U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112361854A (en) * | 2020-11-27 | 2021-02-12 | 长春理工大学 | Micro-channel heat exchanger |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right | ||
PE01 | Entry into force of the registration of the contract for pledge of patent right |
Denomination of utility model: Waste gas drying and dehumidification treater Effective date of registration: 20200407 Granted publication date: 20181211 Pledgee: Bank of China Limited Xinyang branch Pledgor: HENAN DONGFANG YONGSHENG WATERPROOF MATERIALS Co.,Ltd. Registration number: Y2020980001339 |
|
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181211 |