CN108562171A - A kind of ceramic kiln dehumidifier exhaust gas utilization system - Google Patents
A kind of ceramic kiln dehumidifier exhaust gas utilization system Download PDFInfo
- Publication number
- CN108562171A CN108562171A CN201810060238.1A CN201810060238A CN108562171A CN 108562171 A CN108562171 A CN 108562171A CN 201810060238 A CN201810060238 A CN 201810060238A CN 108562171 A CN108562171 A CN 108562171A
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- Prior art keywords
- dehumidifier
- kiln
- level
- dry
- channel
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- 239000000919 ceramic Substances 0.000 title claims abstract description 25
- 239000002356 single layer Substances 0.000 claims abstract description 101
- 239000007789 gas Substances 0.000 claims abstract description 61
- 239000002912 waste gas Substances 0.000 claims abstract description 24
- UGFAIRIUMAVXCW-UHFFFAOYSA-N Carbon monoxide Chemical compound [O+]#[C-] UGFAIRIUMAVXCW-UHFFFAOYSA-N 0.000 claims abstract description 20
- 239000003546 flue gas Substances 0.000 claims abstract description 20
- 238000005507 spraying Methods 0.000 claims abstract description 19
- 239000007921 spray Substances 0.000 claims abstract description 9
- 238000001035 drying Methods 0.000 claims description 30
- 238000005338 heat storage Methods 0.000 claims description 19
- 238000009434 installation Methods 0.000 claims description 9
- 238000005192 partition Methods 0.000 claims description 6
- 238000002485 combustion reaction Methods 0.000 claims description 5
- 238000010438 heat treatment Methods 0.000 claims description 4
- 239000003595 mist Substances 0.000 claims 1
- 238000004134 energy conservation Methods 0.000 abstract description 3
- 230000007613 environmental effect Effects 0.000 abstract description 3
- 230000004941 influx Effects 0.000 abstract description 2
- 238000010586 diagram Methods 0.000 description 4
- 230000007812 deficiency Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000010410 layer Substances 0.000 description 1
- 238000004064 recycling Methods 0.000 description 1
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27D—DETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
- F27D17/00—Arrangements for using waste heat; Arrangements for using, or disposing of, waste gases
- F27D17/001—Extraction of waste gases, collection of fumes and hoods used therefor
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B21/00—Arrangements or duct systems, e.g. in combination with pallet boxes, for supplying and controlling air or gases for drying solid materials or objects
- F26B21/14—Arrangements or duct systems, e.g. in combination with pallet boxes, for supplying and controlling air or gases for drying solid materials or objects using gases or vapours other than air or steam, e.g. inert gases
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27D—DETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
- F27D17/00—Arrangements for using waste heat; Arrangements for using, or disposing of, waste gases
- F27D17/004—Systems for reclaiming waste heat
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Environmental & Geological Engineering (AREA)
- Drying Of Solid Materials (AREA)
Abstract
The invention discloses a kind of ceramic kiln dehumidifier exhaust gas utilization systems, high-temp waste gas in its A dehumidifiers area kiln is pooled to two level dehumidifier channel via dehumidifier hole on first time dehumidifier pipeline, the first side dehumidifier pipeline and first, and the exhaust gas transfer passage of A single layer dry kilns is sent to by two level dehumidifier apparatus, finally exhaust gas utilization in the furnace chamber of A single layer dry kilns and the furnace chamber of B single layer dry kilns of head end is transported to via the waste gas pipeline being connect with the exhaust gas transfer passage of the A single layer dry kilns of head end again;The high-temp waste gas of B dehumidifiers area kiln is transported to via dehumidifier hole on second time dehumidifier pipeline, second and the second side dehumidifier pipe influx in ground sewer pipe, then the high-temp waste gas in ground sewer pipe is transported in spraying flue gas leading by level-one dehumidifier apparatus and is used for for spray tower exhaust gas utilization;Have the characteristics that the high-temp waste gas of dehumidifier area kiln can be transported to dry section kiln and spray tower recycles, dehumidifier area kiln waste gas utilization efficiency is high, energy conservation and environmental protection.
Description
Technical field
The invention belongs to ceramic kiln technical fields, and in particular to a kind of high-temp waste gas by dehumidifier area kiln is transported to dry
The ceramic kiln dehumidifier exhaust gas utilization system that dry area's kiln and spray tower recycle.
Background technology
Current existing ceramic kiln dehumidifier area exhaust gas utilization system, such as Chinese invention patent (notification number
CN105910449A disclosed in), the damp and hot exhaust gas of dehumidifier area kiln inner cavity, on the one hand through dehumidifier pipe, each dehumidifier on each item
Siphunculus and each upper connector pump in dehumidifier channel, on the one hand through dehumidifier pipe under each item and each lower connector, each conveying
Pipe pumps in dehumidifier channel;The top of dehumidifier area kiln is equipped with the dehumidifier manifold for being connected to dehumidifier channel and being connected with wind turbine,
Dehumidifier manifold is connected to the dehumidifier access on dry section kiln, and the damp and hot exhaust gas of dehumidifier area kiln inner cavity, which can be pumped, transfers to dry section
Dehumidifier access on kiln is used for the drying function of dry section kiln.But in actual use, the dehumidifier area of the structure is useless
The problem of gas needs to be further increased using system there are still complicated, exhaust gas utilization rate.
Invention content
In view of the deficiencies of the prior art, the present invention is intended to provide it is a kind of the high-temp waste gas of dehumidifier area kiln can be transported to it is dry
The ceramic kiln dehumidifier exhaust gas utilization system that dry area's kiln and spray tower recycle.
To achieve the above object, the present invention adopts the following technical scheme that:
Ceramic kiln dehumidifier exhaust gas utilization system, including A dehumidifiers area kiln, B dehumidifiers area kiln, A single layers dry kiln and B
Single layer dry kiln, A dehumidifiers area crown are provided with two level dehumidifier channel, and the furnace cavity bottom of A dehumidifiers area kiln is provided with
The furnace chamber top both sides of first time dehumidifier pipeline, A dehumidifiers area kiln are provided with dehumidifier on first be connected to two level dehumidifier channel
Hole passes through the first control valve control partition or connection, first time dehumidifier pipe on first between dehumidifier hole and two level dehumidifier channel
Road is connected to by the first side dehumidifier pipeline with two level dehumidifier channel, and the first side dehumidifier pipeline is arranged in the both sides of A dehumidifiers area kiln;
B dehumidifiers area crown is provided with level-one dehumidifier channel, and the furnace cavity bottom of B dehumidifiers area kiln is provided under second
Dehumidifier pipeline, both sides are provided with dehumidifier hole on second be connected to level-one dehumidifier channel at the top of the furnace chamber of B dehumidifiers area kiln, and second
Partition or connection are controlled by the second control valve between upper dehumidifier hole and level-one dehumidifier channel, the connection of the second side dehumidifier pipeline exists
Extend on the side in level-one dehumidifier channel and downward and be connected to ground sewer pipe, second time dehumidifier pipeline extends outside towards B dehumidifiers area kiln
Go out and connect with the second side dehumidifier pipeline, ground sewer pipe is arranged in the both sides of B dehumidifiers area kiln and prolongs towards A single layer dry kilns direction
It stretches;Exhaust gas transfer passage is provided at the top of A single layer dry kilns, the bottom of A single layer dry kilns is provided with the first drying storage
The top both sides in hot tank channel, the first drying heat storage box channel are provided with the first thermal hole, and the first drying heat storage box channel passes through
First thermal hole is connected to the furnace chamber of A single layer dry kilns;The two level dehumidifier channel of A dehumidifiers area kiln passes through two level dehumidifier apparatus
It is connected to the exhaust gas transfer passage of the A single layer dry kilns of end, the A single layers of connection and head end are dry between A single layer dry kilns
It is connected to by waste gas pipeline between the exhaust gas transfer passage of dry kiln and the first drying heat storage box channel, B single layer dry kilns
End and head end A single layer dry kilns connect;Level-one dehumidifier apparatus is mounted on A single layer dry kilns, and ground sewer pipe passes through
Level-one dehumidifier apparatus is connected with spraying flue gas leading, and spraying flue gas leading is extended on the both sides of B single layer dry kilns.
Further, the two level dehumidifier apparatus includes two level dehumidifier manifold, two level dehumidifier wind turbine and the defeated hot manifold of two level,
Two level dehumidifier manifold is connected to the two level dehumidifier channel of A dehumidifiers area kiln, and two level dehumidifier manifold passes through two level dehumidifier wind turbine and two
Grade defeated hot manifold connections, the defeated hot manifold of two level extend towards A single layer dry kilns direction and give up with the A single layer dry kilns of end
Gas transfer passage is connected to.
Further, the level-one dehumidifier apparatus includes level-one dehumidifier manifold, level-one dehumidifier wind turbine and the defeated hot manifold of level-one,
Level-one dehumidifier manifold is connected to ground sewer pipe, and level-one dehumidifier manifold is connected by level-one dehumidifier wind turbine with the defeated hot manifold of level-one, level-one
Defeated hot manifold is connected to spraying flue gas leading.
Further, dry dehumidifier channel, the bottom in dry dehumidifier channel are provided at the top of the B single layers dry kiln
It is communicatively provided with dry dehumidifier hole with the furnace chamber of B single layer dry kilns, the bottom of B single layer dry kilns is provided with the second drying
Heat storage box channel, the top both sides in the second drying heat storage box channel and the furnace chamber of B single layer dry kilns are communicatively provided with second
Thermal hole, the both sides that the tops of A single layer dry kilns is located at exhaust gas transfer passage are provided with side dehumidifier channel, side dehumidifier channel
Bottom and the furnace chamber of A single layer dry kilns are communicatively provided with side dehumidifier hole, and installation settings has dehumidifier control valve on the dehumidifier hole of side
Door, the drying dehumidifier channel of B single layer dry kilns are connected to the side dehumidifier channel of A single layer dry kilns, B single layer dry kilns
Top installation settings has dry dehumidifier blower fan apparatus, the drying dehumidifier channel of B single layer dry kilns to be filled by dry dehumidifier wind turbine
It sets and is connected to spraying flue gas leading.
Further, the dry dehumidifier blower fan apparatus includes dry dehumidifier manifold, dry dehumidifier wind turbine and dry dehumidifier
It send hot manifold, dry dehumidifier manifold to be connected to the drying dehumidifier channel of B single layer dry kilns, and by dry dehumidifier wind turbine and does
Dry dehumidifier send hot manifold connections, dry dehumidifier that hot manifold is sent to be connected to spraying flue gas leading.
Further, the top installation settings that the top of the A single layers dry kiln is located at exhaust gas transfer passage has heating
Combustion box.
The present invention has the advantages that:
Ceramic kiln dehumidifier exhaust gas utilization system of the present invention, the high-temp waste gas in A dehumidifiers area kiln is via first time dehumidifier
Dehumidifier hole is pooled to two level dehumidifier channel on pipeline, the first side dehumidifier pipeline and first, and is sent to A by two level dehumidifier apparatus
The exhaust gas transfer passage of single layer dry kiln is finally connect via the exhaust gas transfer passage of the A single layer dry kilns with head end again
Waste gas pipeline be transported to exhaust gas utilization in the furnace chamber of A single layer dry kilns and the furnace chamber of B single layer dry kilns of head end;B
The high-temp waste gas of dehumidifier area kiln is transported to via dehumidifier hole on second time dehumidifier pipeline, second and the second side dehumidifier pipe influx
In ground sewer pipe, then the high-temp waste gas in ground sewer pipe is transported in spraying flue gas leading by level-one dehumidifier apparatus and is used for for spray tower
Exhaust gas utilization;With the high-temp waste gas of dehumidifier area kiln can be transported to dry section kiln and spray tower recycle, dehumidifier area kiln
The characteristics of furnace exhaust utilization ratio height, energy conservation and environmental protection.
Description of the drawings
Fig. 1 is the facade structures figure of ceramic kiln dehumidifier exhaust gas utilization system of the present invention;
Fig. 2 is the overlooking structure figure of ceramic kiln dehumidifier exhaust gas utilization system of the present invention;
Fig. 3 is the structure chart of its A dehumidifiers area kiln of ceramic kiln dehumidifier exhaust gas utilization system of the present invention;
Fig. 4 is the structure chart of its B dehumidifiers area kiln of ceramic kiln dehumidifier exhaust gas utilization system of the present invention;
Fig. 5 is the waste gas pipeline of the A single layer dry kilns of ceramic kiln dehumidifier exhaust gas utilization system of the present invention its head end
Mounting structure schematic diagram;
Fig. 6 is the structural schematic diagram of its A single layer dry kiln of ceramic kiln dehumidifier exhaust gas utilization system of the present invention;
Fig. 7 is the structural schematic diagram of its B single layer dry kiln of ceramic kiln dehumidifier exhaust gas utilization system of the present invention;
Fig. 8 is that ceramic kiln dehumidifier exhaust gas utilization system of the present invention its A single layer dry kiln is equipped with when heating combustion box
Structural schematic diagram.
In figure:1, A dehumidifiers area kiln;2, B dehumidifiers area kiln;3, A single layers dry kiln;4, B single layers dry kiln;5, two
Grade dehumidifier apparatus;6, sewer pipe;7, level-one dehumidifier apparatus;8, spraying flue gas leading;9, waste gas pipeline;10, dry dehumidifier wind turbine
Device;11, two level dehumidifier channel;12, first time dehumidifier pipeline;13, dehumidifier hole on first;14, the first control valve;15,
Side dehumidifier pipeline;21, level-one dehumidifier channel;22, second time dehumidifier pipeline;23, dehumidifier hole on second;24, the second control valve
Door;25, the second side dehumidifier pipeline;30, combustion box is heated;31, exhaust gas transfer passage;32, side dehumidifier channel;33, side dehumidifier hole;
34, dehumidifier control valve;35, the first drying heat storage box channel;36, the first thermal hole;41, dry dehumidifier channel;42, dry to take out
Wet hole;43, the second drying heat storage box channel;44, the second thermal hole;51, two level dehumidifier manifold;52, two level dehumidifier wind turbine;53、
The defeated hot manifold of two level;71, level-one dehumidifier manifold;72, level-one dehumidifier wind turbine;73, the defeated hot manifold of level-one;101, dry dehumidifier is total
Pipe;102, dry dehumidifier wind turbine;103, hot manifold is sent in dry dehumidifier.
Specific implementation mode
Below in conjunction with the accompanying drawings and specific embodiment, the invention will be further described, in order to be more clearly understood that this
The claimed technological thought of invention.
Ceramic kiln dehumidifier exhaust gas utilization system of the present invention as shown in figs. 1-7, including A dehumidifiers area kiln 1, B dehumidifiers area kiln
The top of stove 2, A single layers dry kiln 3 and B single layers dry kiln 4, A dehumidifiers area kiln 1 is provided with two level dehumidifier channel 11, and A takes out
The furnace cavity bottom of wet area's kiln 1 is provided with first time dehumidifier pipeline 12, at the top of the furnace chamber of A dehumidifiers area kiln 1 both sides be provided with
Two level dehumidifier channel 11 be connected to first on dehumidifier hole 13, pass through first between dehumidifier hole 13 and two level dehumidifier channel 11 on first
The control of control valve 14 partition or connection, first time dehumidifier pipeline 12 pass through the first side dehumidifier pipeline 15 and two level dehumidifier channel 11
Connection, the first side dehumidifier pipeline 15 are arranged in the both sides of A dehumidifiers area kiln 1;
The top of B dehumidifiers area kiln 2 is provided with level-one dehumidifier channel 21, and the furnace cavity bottom of B dehumidifiers area kiln 2 is provided with
Two times dehumidifier pipelines 22, the furnace chamber top both sides of B dehumidifiers area kiln 2, which are provided on second be connected to level-one dehumidifier channel 21, takes out
Wet hole 23 controls partition or connection on second between dehumidifier hole 23 and level-one dehumidifier channel 21 by the second control valve 24, the
The connection of two side dehumidifier pipelines 25 is on the side in level-one dehumidifier channel 21 and extension downward is connected to ground sewer pipe 6, second time dehumidifier
Pipeline 22 extends towards B dehumidifiers area kiln 2 and is connect with the second side dehumidifier pipeline 25 outside, and ground sewer pipe 6 is arranged in B dehumidifiers area kiln
2 both sides simultaneously extend towards 3 direction of A single layers dry kiln;The top of A single layers dry kiln 3 is provided with exhaust gas transfer passage 31, A
The bottom of single layer dry kiln 3 is provided with the first drying heat storage box channel 35, the top both sides in the first drying heat storage box channel 35
It is provided with the first thermal hole 36, the furnace chamber that the first drying heat storage box channel 35 passes through the first thermal hole 36 and A single layers dry kiln 3
Connection;The two level dehumidifier channel 11 of A dehumidifiers area kiln 1 passes through the useless of two level dehumidifier apparatus 5 and the A single layers dry kiln 3 of end
Gas transfer passage 31 is connected to, the exhaust gas transfer passage 31 of connection and the A single layers dry kiln 3 of head end between A single layers dry kiln 3
And first be connected to by waste gas pipeline 9 between drying heat storage box channel 35, the end of B single layers dry kiln 4 and the A of head end are mono-
Layer dry kiln 3 connects;Level-one dehumidifier apparatus 7 is mounted on A single layers dry kiln 3, and ground sewer pipe 6 passes through level-one dehumidifier apparatus 7
It is connected with spraying flue gas leading 8, spraying flue gas leading 8 is extended on the both sides of B single layers dry kiln 4.
Wherein, two level dehumidifier apparatus 5 includes two level dehumidifier manifold 51, two level dehumidifier wind turbine 52 and the defeated hot manifold 53 of two level,
Two level dehumidifier manifold 51 is connected to the two level dehumidifier channel 11 of A dehumidifiers area kiln 1, and two level dehumidifier manifold 51 passes through two level dehumidifier wind
Machine 52 and the defeated connections of hot manifold 53 of two level, the defeated hot manifold 53 of two level are towards the extension of 3 direction of A single layers dry kiln and mono- with the A of end
The exhaust gas transfer passage 31 of layer dry kiln 3 is connected to.
Level-one dehumidifier apparatus 7 includes level-one dehumidifier manifold 71, level-one dehumidifier wind turbine 72 and the defeated hot manifold 73 of level-one, and level-one is taken out
Wet manifold 71 is connected to ground sewer pipe 6, and level-one dehumidifier manifold 71 is by level-one dehumidifier wind turbine 72 and the defeated connections of hot manifold 73 of level-one, and one
The defeated hot manifold of grade 73 and flue gas leading 8 of spraying are connected to.
More specifically, the top of B single layers dry kiln 4 is provided with dry dehumidifier channel 41, the bottom in dry dehumidifier channel 41
The furnace chamber of portion and B single layers dry kiln 4 is communicatively provided with dry dehumidifier hole 42, and the bottom of B single layers dry kiln 4 is provided with the
Two drying heat storage box channels 43, the top both sides in the second drying heat storage box channel 43 and the furnace chamber of B single layers dry kiln 4 are communicatively
It is provided with the second thermal hole 44, the top of A single layers dry kiln 3 is located at the both sides of exhaust gas transfer passage 31, and to be provided with side dehumidifier logical
Road 32, the bottom in side dehumidifier channel 32 are communicatively provided with side dehumidifier hole 33, side dehumidifier hole with the furnace chamber of A single layers dry kiln 3
Installation settings has a dehumidifier control valve 34 on 33, the drying dehumidifier channel 41 of B single layers dry kiln 4 and A single layers dry kiln 3
Side dehumidifier channel 32 is connected to, and the top installation settings of B single layers dry kiln 4 has dry dehumidifier blower fan apparatus 10, B single layer dry kilns
The drying dehumidifier channel 41 of stove 4 is connected to by dry dehumidifier blower fan apparatus 10 with spraying flue gas leading 8, and dry dehumidifier wind turbine can be passed through
Device 10 will be delivered to exhaust gas in the furnace chamber of the A single layers dry kiln 3 of head end and the furnace chamber of B single layers dry kiln 4 and be taken out via side
Wet channel 32, dry dehumidifier channel 41 pump to spraying flue gas leading 8.
Wherein, dry dehumidifier blower fan apparatus 10 includes dry dehumidifier manifold 101, dry dehumidifier wind turbine 102 and dry dehumidifier
Hot manifold 103 is sent, dry dehumidifier manifold 101 is connected to the drying dehumidifier channel 41 of B single layers dry kiln 4, and is taken out by dry
Wet blower 102 and dry dehumidifier send the connections of hot manifold 103, dry dehumidifier that hot manifold 103 is sent to be connected to spraying flue gas leading 8.
More specifically, as shown in figure 8, the top installation that the top of A single layers dry kiln 3 is located at exhaust gas transfer passage 31 is set
It is equipped with heating combustion box 30, the exhaust gas being sent in the exhaust gas transfer passage 31 at 3 top of A single layers dry kiln can be heated
To help recycling.
Ceramic kiln dehumidifier exhaust gas utilization system of the present invention, the high-temp waste gas in A dehumidifiers area kiln 1 is via first time dehumidifier
Dehumidifier hole 13 is pooled to two level dehumidifier channel 11 on pipeline 12, the first side dehumidifier pipeline 15 and first, and is filled by two level dehumidifier
The 5 exhaust gas transfer passages 31 for being sent to A single layers dry kiln 3 are set, finally again via the useless of the A single layers dry kiln 3 with head end
The waste gas pipeline 9 that gas transfer passage 31 connects is transported to the furnace chamber and B single layers dry kiln 4 of the A single layers dry kiln 3 of head end
Furnace chamber in exhaust gas utilization;The high-temp waste gas of B dehumidifiers area kiln 2 is via 23 and of dehumidifier hole on second time dehumidifier pipeline 22, second
The second side dehumidifier pipeline 25, which collects, to be transported in ground sewer pipe 6, then by level-one dehumidifier apparatus 7 by the high-temp waste gas in ground sewer pipe 6
It is transported in spraying flue gas leading 8 and is used for for spray tower exhaust gas utilization;It is dry with the high-temp waste gas of dehumidifier area kiln can be transported to
The characteristics of dry area's kiln and spray tower recycle, dehumidifier area kiln waste gas utilization efficiency is high, energy conservation and environmental protection.
For those skilled in the art, technical solution that can be as described above and design are made other each
Kind is corresponding to be changed and deforms, and all these change and deform the protection model that should all belong to the claims in the present invention
Within enclosing.
Claims (6)
1. ceramic kiln dehumidifier exhaust gas utilization system, including A dehumidifiers area kiln (1), B dehumidifiers area kiln (2), A single layer dry kilns
Stove (3) and B single layers dry kiln (4), it is characterised in that:Two level dehumidifier channel is provided at the top of A dehumidifiers area kiln (1)
(11), the furnace cavity bottom of A dehumidifiers area kiln (1) is provided with first time dehumidifier pipeline (12), the cavity top of A dehumidifiers area kiln (1)
Portion both sides are provided with dehumidifier hole (13) on first be connected to two level dehumidifier channel (11), and dehumidifier hole (13) and two level are taken out on first
Partition or connection are controlled by the first control valve (14) between wet channel (11), first time dehumidifier pipeline (12) passes through the first side
Dehumidifier pipeline (15) is connected to two level dehumidifier channel (11), and the first side dehumidifier pipeline (15) is arranged the two of A dehumidifiers area kiln (1)
Side;
Level-one dehumidifier channel (21) is provided at the top of B dehumidifiers area kiln (2), the furnace cavity bottom of B dehumidifiers area kiln (2) is provided with
Second time dehumidifier pipeline (22), both sides are provided at the top of the furnace chamber of B dehumidifiers area kiln (2) is connected to level-one dehumidifier channel (21)
Dehumidifier hole (23) on second pass through the second control valve (24) between dehumidifier hole (23) and level-one dehumidifier channel (21) on second and control
System partition or connection, the second side dehumidifier pipeline (25) connection on the side in level-one dehumidifier channel (21) and downward extension and trench
(6) connection is managed, second time dehumidifier pipeline (22) is extended towards B dehumidifiers area kiln (2) and connected with the second side dehumidifier pipeline (25) outside
It connects, ground sewer pipe (6) setting extends in the both sides of B dehumidifiers area kiln (2) and towards A single layers dry kiln (3) direction;
Exhaust gas transfer passage (31) is provided at the top of A single layers dry kiln (3), the bottom of A single layers dry kiln (3) is provided with
The top both sides of first drying heat storage box channel (35), the first drying heat storage box channel (35) are provided with the first thermal hole (36),
First drying heat storage box channel (35) is connected to by the first thermal hole (36) with the furnace chamber of A single layers dry kiln (3);
The A single layer dry kilns that the two level dehumidifier channel (11) of A dehumidifiers area kiln (1) passes through two level dehumidifier apparatus (5) and end
(3) exhaust gas transfer passage (31) connection, connects between A single layers dry kiln (3) and the A single layers dry kiln (3) of head end
It is connected to by waste gas pipeline (9) between exhaust gas transfer passage (31) and the first drying heat storage box channel (35), B single layer dry kilns
The end of stove (4) and the A single layers dry kiln (3) of head end connect;
Level-one dehumidifier apparatus (7) is mounted on A single layers dry kiln (3), and ground sewer pipe (6) passes through level-one dehumidifier apparatus (7) and spray
Mist flue gas leading (8) connects, and spraying flue gas leading (8) is extended on the both sides of B single layers dry kiln (4).
2. ceramic kiln dehumidifier exhaust gas utilization system as described in claim 1, it is characterised in that:The two level dehumidifier apparatus
(5) include two level dehumidifier manifold (51), two level dehumidifier wind turbine (52) and the defeated hot manifold (53) of two level, two level dehumidifier manifold (51) and
The two level dehumidifier channel (11) of A dehumidifiers area kiln (1) is connected to, and two level dehumidifier manifold (51) passes through two level dehumidifier wind turbine (52) and two
Defeated hot manifold (53) connection of grade, the defeated hot manifold (53) of two level extend towards A single layers dry kiln (3) direction and with the A single layers of end
The exhaust gas transfer passage (31) of dry kiln (3) is connected to.
3. ceramic kiln dehumidifier exhaust gas utilization system as described in claim 1, it is characterised in that:The level-one dehumidifier apparatus
(7) include level-one dehumidifier manifold (71), level-one dehumidifier wind turbine (72) and the defeated hot manifold (73) of level-one, level-one dehumidifier manifold (71) with
Ground sewer pipe (6) is connected to, and level-one dehumidifier manifold (71) is connected by the defeated hot manifold (73) of level-one dehumidifier wind turbine (72) and level-one, level-one
Defeated hot manifold (73) is connected to spraying flue gas leading (8).
4. ceramic kiln dehumidifier exhaust gas utilization system as described in claim 1, it is characterised in that:The B single layers dry kiln
(4) dry dehumidifier channel (41), the stove of the bottom and B single layers dry kiln (4) of dry dehumidifier channel (41) are provided at the top of
Chamber is communicatively provided with dry dehumidifier hole (42), and the bottom of B single layers dry kiln (4) is provided with the second drying heat storage box channel
(43), the top both sides of the second drying heat storage box channel (43) and the furnace chamber of B single layers dry kiln (4) are communicatively provided with second
Thermal hole (44), the both sides that the top of A single layers dry kiln (3) is located at exhaust gas transfer passage (31) are provided with side dehumidifier channel
(32), the bottom of side dehumidifier channel (32) and the furnace chamber of A single layers dry kiln (3) are communicatively provided with side dehumidifier hole (33), side
Installation settings has dehumidifier control valve (34), the drying dehumidifier channel (41) of B single layers dry kiln (4) and A on dehumidifier hole (33)
The side dehumidifier channel (32) of single layer dry kiln (3) is connected to, and the top installation settings of B single layers dry kiln (4) has dry dehumidifier
The drying dehumidifier channel (41) of blower fan apparatus (10), B single layers dry kiln (4) passes through dry dehumidifier blower fan apparatus (10) and spraying
Flue gas leading (8) is connected to.
5. ceramic kiln dehumidifier exhaust gas utilization system as claimed in claim 4, it is characterised in that:The dry dehumidifier wind turbine dress
It includes that hot manifold (103), dry dehumidifier are sent in dry dehumidifier manifold (101), dry dehumidifier wind turbine (102) and dry dehumidifier to set (10)
Manifold (101) is connected to the drying dehumidifier channel (41) of B single layers dry kiln (4), and by dry dehumidifier wind turbine (102) and is done
Dry dehumidifier send hot manifold (103) connections, dry dehumidifier that hot manifold (103) is sent to be connected to spraying flue gas leading (8).
6. ceramic kiln dehumidifier exhaust gas utilization system as described in claim 1, it is characterised in that:The A single layers dry kiln
(3) the top installation settings that top is located at exhaust gas transfer passage (31) has heating combustion box (30).
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CN105910449A (en) * | 2016-06-28 | 2016-08-31 | 卢爱玲 | Efficient heat energy utilization structure of dehumidification area on ceramic kiln |
CN207945986U (en) * | 2018-01-22 | 2018-10-09 | 卢爱玲 | A kind of ceramic kiln dehumidifier exhaust gas utilization system |
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GB1078522A (en) * | 1962-09-25 | 1967-08-09 | West Midlands Gas Board | Improvements in pottery kilns |
EP1977177A1 (en) * | 2006-01-25 | 2008-10-08 | NV Bekaert SA | Convective system for a dryer installation |
CN102748926A (en) * | 2012-07-06 | 2012-10-24 | 广东中窑窑业股份有限公司 | Building ceramic single-layer rapid dryer equipment |
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Application publication date: 20180921 |