CN206944164U - Chamber isolated small-sized rubbish pyrolytic gasification combustion furnace - Google Patents
Chamber isolated small-sized rubbish pyrolytic gasification combustion furnace Download PDFInfo
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- CN206944164U CN206944164U CN201720731649.XU CN201720731649U CN206944164U CN 206944164 U CN206944164 U CN 206944164U CN 201720731649 U CN201720731649 U CN 201720731649U CN 206944164 U CN206944164 U CN 206944164U
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Abstract
The utility model discloses a kind of chamber isolated small-sized rubbish pyrolytic gasification combustion furnace, including hopper, gate, drying chamber, upper fire-grating, burner hearth chamber, lower fire grating and dual firing chamber, high-temperature flue gas in dual firing chamber imports pyrolytic gasification chamber, a part of high-temperature flue gas is flowed upwardly in drying chamber to drying garbage, caused water vapour imports condensation liquefaction tank by water vapour suction chamber and liquefied, foul smell is back to burner hearth intracavitary high-temperature calcination processing, avoids flue gas, foul smell effusion;Another part high-temperature flue gas flows downward, the heat with reference to caused by burner hearth chamber forms convection current radiation, make rubbish while produce pyrolytic gasification, gasification gas is passed downwards by upper fire-grating to burn into burner hearth chamber, garbage carbon under upper fire-grating upset is burnt on lower fire grating, opposed firing flame is formed between upper lower fire grating, gasification gas forms complementary burning with the garbage carbon after pyrolysis in burner hearth intracavitary, lasting holding high-temperature region Shi dioxins harmful substance is decomposed, and heat energy caused by burning fully recycles.
Description
Technical field
The utility model belongs to refuse pyrolysis gasification combustion furnace (i.e. incinerator) field, more particularly to chamber isolated small-sized rubbish
Rubbish pyrolytic gasification combustion furnace.
Background technology
As the improvement of people's living standards, house refuse is more and more caused by daily life, its non-degradable into
Divide content also increasing, the pollution to environment increases severely with day.Generally acknowledged optimal disposal options are sent out for central incineration at present
Electricity, its cost of investment is high, treating capacity is big, is generally used for the more large- and-medium size cities of population.For population is less, house refuse production
Relatively low small towns and the vast rural areas are measured, then need to transport by long range, infrastructure construction and cost of wheeling are non-
Chang great.
Therefore, less to the density of population vast small towns and rural area, the small-sized house refuse disposed using distributing
Disposal facility just seems very necessary.Small-sized rubbish gasification combustion furnace because its treating capacity it is small, it is simple in construction, operation it is easy the features such as
It is highly suitable for above-mentioned area.
Utility model content
The utility model aims to provide a kind of chamber isolated small-sized rubbish pyrolytic gasification combustion furnace, is particularly suitable for the density of population
Less vast small towns and rural area.
Therefore, technical scheme is used by the utility model:A kind of chamber isolated small-sized rubbish pyrolytic gasification combustion furnace, bag
Hopper is included, and drying chamber, upper fire-grating, burner hearth chamber, lower fire grating, dual firing chamber and the outlet flue being arranged in combustion furnace, and
Hopper, drying chamber, upper fire-grating, burner hearth chamber, lower fire grating are set gradually from top to bottom, and the feed hopper bottom is provided with gate,
Be provided with side wall at the top of the drying chamber with water vapour suction chamber, be provided with drying chamber bottom can to rubbish carry out it is positive and negative
The feed stirred is to taking turns mechanism, so that feed is to adding pyrolytic gasification chamber, the feed pair between wheel mechanism and upper fire-grating
Wheel mechanism is made up of tube-shaped shaft and the former being welded on tube-shaped shaft, and some apertures, the combustion furnace are offered on every former
On be provided with circulating fan, with reference to high temperature flue gas pipeline by dual firing chamber high-temperature flue gas import pyrolytic gasification chamber, wherein one
High-temperature flue gas is divided to be flowed upwardly to by the aperture on former in drying chamber to drying garbage, work of the caused water vapour in combustion chamber draft
Liquefied with the lower condensation liquefaction tank imported by water vapour suction chamber outside combustion furnace, incoagulability foul smell is imported by exhaust tube to be fired
Burn burner hearth intracavitary high-temperature calcination processing;Another part high-temperature flue gas flows downward, and the heat of this part high-temperature flue gas makes after drying
Rubbish in pyrolytic gasification intracavitary rapid thermal decomposition, form convection current radiation in combination with heat caused by burner hearth chamber, be passed to
Waste layer on upper fire-grating, make rubbish while produce pyrolytic gasification, gasification gas is passed downwards by upper fire-grating to be fired into burner hearth chamber
Burn;The upper fire-grating is coordinated to overturn with feed to wheel mechanism, and the solid content garbage carbon after refuse pyrolysis under upper fire-grating upset exists
Burnt on lower fire grating, opposed firing flame is formed between upper fire-grating and lower fire grating, gasification gas is with the garbage carbon after pyrolysis in combustion furnace
The complementary burning of thorax intracavitary, allows burner hearth chamber to keep more than 850 DEG C lasting of the condition of high temperature, combustible is burnt as far as possible and fill
, dioxin harmful substances are divided thoroughly to decompose;The reciprocal fortune that the lime-ash of after-flame passes through lower fire grating self-law on the lower fire grating
Dynamic to be sent into the discharge of ash discharge chamber, the gasification gas or carbon granules of the not thorough after-flame of burner hearth intracavitary, which enter in dual firing chamber, continues fully burning
Afterwards, discharged after then being handled by dust-settling compartment depositing dust by outlet flue.
As the preferred of such scheme, the feed is to taking turns totally three, mechanism, and equi-spaced apart is set in same level
Put, each feed in wheel mechanism to being provided with four circumferentially uniform formers, and each feed is to wheel mechanism by being arranged on combustion
Being installed to wheel bearing fulcrum bearing outside furnace body is burnt, two pump to wheel drive oil cylinder, by Stagger-wrap right
The chain sprocket mechanism of wheel bearing fulcrum bearing is converted into circular motion, so as to drive three feed to wheel mechanism do amplitude for 0 °~
90 ° positive and negative stirs.
Further, welded and strengthened with floor between each former and tube-shaped shaft of the feed to taking turns mechanism.
Preferably, the lower fire grating is independent overall structure, can outwards be skidded off by extension track, facilitates fire grate to safeguard dimension
Repair.
Preferably, the water vapour suction chamber ring set is provided with some at the top of drying chamber in the side wall of the drying chamber
The water vapour via of face water vapour suction chamber.
Preferably, the dual firing chamber is located at the right side of burner hearth chamber, and at least two block walls, partition wall are provided with dual firing chamber
Between connected by arch flue gas circulation road, be provided with passage on the lower fire grating, the upper right side of burner hearth chamber is provided with
Air feed mouth of face burner hearth chamber, secondary air feed mouth is provided with the first separate space of dual firing chamber.
The beneficial effects of the utility model:
(1) combustion furnace structure is simple, construction cost is low, operation is easy, and house refuse is reduced more than 90%, no waste water
Discharge, it is highly suitable for vast small towns and rural area and uses;
(2) rotation of wheel mechanism is fed using feed, it is simple in construction, and discharge quantity is controllable, by rotating, can make drying
House refuse afterwards is uniformly dropped, and relatively uniform refuse gasification layer is formed on upper fire-grating;Further, it is fed in wheel mechanism
Four circumferentially uniform formers are provided with, while even feeding, ensure that feed drops to the rubbish in wheel mechanism
Measure controllable;It is fed to that between wheel mechanism and feed is to wheel mechanism and the interval of tweer, pyrolytic gasification intracavitary part can be allowed high
Warm flue gas is up, and rubbish is dried;
(3) setting of feed bin bottom gate, water vapour caused by drying chamber and foul smell can be both cut, turn avoid feed to wheel
The thickness of waste layer is blocked up and be compacted in mechanism, it is kept certain rarefaction, utilizes passing through for dry flue gas;
(4) steam suction condensation and foul smell melt down the setting of thorax high-temperature calcination, are easy to isolate drying chamber waste layer
The steam that evaporates is dried, burner hearth high-temperature calcination processing can be imported by deviating from the foul smell of steam, avoid flue gas, foul smell from furnace roof material
Storehouse escapes;
(5) dual firing chamber's high-temperature flue gas is sent into pyrolytic gasification intracavitary by circulating fan, there is provided required for drying garbage and gasification
Heat, greatly improve garbage treatment quantity, sufficiently make use of the heat energy of itself;
(6) gas that gasifies forms complementary burning with the garbage carbon after pyrolysis in burner hearth intracavitary, and lasting holding burner hearth is high
Warm area Shi dioxins harmful substance is decomposed.
Brief description of the drawings
Fig. 1 is the structural representation of chamber isolated small-sized rubbish pyrolytic gasification combustion furnace.
Fig. 2 is Fig. 1 rearview.
Fig. 3 is structural representation of the feed to wheel mechanism.
Fig. 4 is Fig. 3 left view.
Fig. 5 is the structural representation of water vapour suction chamber.
Fig. 6 is the structural representation of lower fire grating.
Fig. 7 is the structural representation of arch flue gas circulation passage in dual firing chamber.
Fig. 8 is the structural representation of upper fire-grating.
Embodiment
By way of example and in conjunction with the accompanying drawings, the utility model is described in further detail:
With reference to shown in Fig. 1, Fig. 2, a kind of chamber isolated small-sized rubbish pyrolytic gasification combustion furnace, mainly by hopper 1, and set
Drying chamber 2, upper fire-grating 3, burner hearth chamber 4, lower fire grating 5, dual firing chamber 6 and outlet flue 7 in combustion furnace etc. form.Hopper 1,
Drying chamber 2, upper fire-grating 3, burner hearth chamber 4, lower fire grating 5 are set gradually from top to bottom.
The bottom of hopper 1 is provided with gate 19, and gate 19 is made up of preferably with double throttle valves left gate and right gate.It is raw
Rubbish living is after simple sorting (bulky refuse, ironware, the glass such as sofa that rejecting wherein contains etc.), by belt conveyor by rubbish
Rubbish is delivered in the hopper 1 at the top of this combustion furnace, then quantitative rubbish is put into drying chamber 2 by double throttle valves.
It is provided with and water vapour suction chamber 11 in the side wall at the top of drying chamber 2.Preferably, as shown in figure 5, water vapour aspirates
In the top exterior walls of drying chamber 2, the water that some face water vapour suction chambers 11 are provided with the side wall of drying chamber 2 steams the ring set of chamber 11
Vapour via 2a, the water vapour in drying chamber 2 is set to enter by water vapour via 2a in water vapour suction chamber 11.
The positive and negative feed stirred can be carried out to taking turns mechanism 8 to rubbish by being provided with the bottom of drying chamber 2, so that feed is to wheel
Pyrolytic gasification chamber 9 is added between mechanism 8 and upper fire-grating 3.With reference to shown in Fig. 2, Fig. 3, Fig. 4, it is fed to wheel mechanism 8 by tube-shaped shaft
8a and the former 8b being welded on tube-shaped shaft 8a are formed, and some aperture 8c are offered on every former 8b.Preferably, it is fed to wheel
Mechanism 8 is three, and is equidistantly arranged at intervals in same level, but is not limited to three.Each feed in wheel mechanism 8 to setting
Have four circumferentially uniform former 8b, each feed to wheel mechanism 8 by be arranged on combustion furnace it is external to wheel bearing branch
Bearing 16 is installed, and totally three to wheel bearing fulcrum bearing 16.Two pump to wheel drive oil cylinder 17, pass through Stagger-wrap
Circular motion is converted into the chain sprocket mechanism to wheel bearing fulcrum bearing 16, so as to drive three feeds to do width to wheel mechanism 8
Spend and stirred for 0 °~90 ° positive and negative.Feed to wheel mechanism 8 between and feed to wheel mechanism 8 and furnace wall of combustion furnace between keep one
Fixed interval, it is up to further facilitate the inside points high-temperature flue gas of pyrolytic gasification chamber 9, and rubbish is dried.Feed is to taking turns mechanism 8
Each former 8b and tube-shaped shaft 8a between most handy floor 8d welding strengthen.
Circulating fan 10 is provided with combustion furnace, it is preferable that circulating fan 10 is arranged at the top of combustion furnace, with reference to high temperature cigarette
High-temperature flue gas in dual firing chamber 6 is imported pyrolytic gasification chamber 9 by air pipe 24.As shown in figure 1, a portion high-temperature flue gas passes through
Aperture 8c on former 8b flows upwardly to pass through drying garbage, caused water vapour in the presence of combustion chamber draft in drying chamber 2
The condensation liquefaction tank 12 that water vapour suction chamber 11 is imported outside combustion furnace is liquefied, and incoagulability foul smell is entered by exhaust tube 13 to burn
High-temperature calcination is handled in burner hearth chamber 4;Another part high-temperature flue gas flows downward, and the heat of this part high-temperature flue gas makes dried
Rubbish decomposes rapidly in pyrolytic gasification chamber 9, forms convection current radiation in combination with heat caused by burner hearth chamber 4, is passed to
Waste layer on fire grate 3, make rubbish while produce pyrolytic gasification, gasification gas is passed into burner hearth chamber 4 downwards by upper fire-grating 3 to be fired
Burn;
Upper fire-grating 3 is coordinated to overturn according to certain rules with feed to wheel mechanism 8, after the refuse pyrolysis under the upset of upper fire-grating 3
Solid content-garbage carbon burnt on lower fire grating 5, between upper fire-grating 3 and lower fire grating 5 formed opposed firing flame, gasification gas with heat
Garbage carbon complementary burning in burner hearth chamber 4 after solution, allows burner hearth chamber 4 to keep the lasting condition of high temperature (850 DEG C of >),
Combustible abundant , dioxins harmful substance of burning as far as possible is set thoroughly to decompose;Lower fire grating 5 uses reciprocating lower fire grating structure.
The lime-ash of after-flame is sent into the row of ash discharge chamber 14 by the reciprocating motion of the self-law of lower fire grating 5 on lower fire grating 5
Going out, the gasification gas of not thorough after-flame or carbon granules enter in dual firing chamber 6 after continuation fully burning in burner hearth chamber 4,
Discharged after being handled again by the depositing dust of dust-settling compartment 15 by outlet flue 7.
With reference to shown in Fig. 1, Fig. 6, lower fire grating 5 is independent overall structure, can outwards be skidded off by extension track 20.
Dual firing chamber 6 is located at the right side of burner hearth chamber 4, and two block wall 6a are provided with dual firing chamber 6, dual firing chamber 6 is divided into
Three separate spaces, pass through arch flue gas circulation passage 6b connections (as shown in Figure 7) between partition wall 6a.Set on the left side wall of combustion furnace
There is the air intlet 21 at the middle part of face lower fire grating 5, the upper right side of burner hearth chamber 4 is provided with face burner hearth chamber 4 once
Air feed mouth 22, secondary air feed mouth 23 is provided with the first separate space of dual firing chamber 6.The partition wall 6a quantity set in dual firing chamber 6 is unlimited
It is stifled in two.
It is fed and wheel mechanism 8 is dropped according to rubbish in the pyrolytic gasification speed control drying chamber 2 in pyrolytic gasification chamber 9
Amount, ensure there is certain cavity in pyrolytic gasification chamber 9, so that the high-temperature flue gas blasted by circulating fan 10 can be uniform
Dried rubbish is heated, reaches uniform, effective gasification, and combustion purpose.And upper fire-grating 3 is then controlled and lived on fire grate
The thickness of waste layer, it is ensured that pyrolytic gasification speed and guarantee burner hearth cavity temperature, gasification gas pass through the waste layer on upper fire-grating 3,
Burnt in into burner hearth chamber 4.If temperature reduces in burner hearth chamber 4, upper fire-grating 3 is according to circumstances rotated, will not
The complete rubbish of pyrolytic gasification, which is put on lower fire grating 5 (using reciprocating machine fire grate), to burn, and increases fire in burner hearth chamber 4
Power, ensure the temperature of burner hearth chamber 4 in rational scope, while passage 21 is designed with lower fire grating 5, material is burnt
Thoroughly carry out complete.
With reference to shown in Fig. 1, Fig. 2 and Fig. 8, upper fire-grating 3 includes three between left and right every the fire grate axle 3a of equidistant placement, every stove
Arrange on axle 3a equipped with fire grate frame 3b and fire grate bar 3c.Fire grate axle 3a and fire grate frame 3b are made of high temperature resistant tubing, fire grate frame
3b is welded on the left and right sides in the middle part of fire grate axle 3a, and fire grate frame 3b communicates with fire grate axle 3a endoporus, and fire grate bar 3c is welded on stove
Arrange in frame 3b to reduce fire grate frame 3b grid size.Upper fire-grating 3 uses air-cooled structure, and cold wind is in fire grate axle 3a, fire grate frame 3b
Flow route as shown by arrows in FIG..
Every fire grate axle 3a is installed by the fire grate bearing block 25 being arranged on outside combustion furnace, body of heater front and rear sides each three
Individual fire grate bearing block 25.Two fire grate drive cylinders 18 pump, and are supported by Stagger-wrap in fire grate bearing
The chain sprocket mechanism of seat 25 is converted into circular motion, is that 0 °~90 ° positive and negative turns over so as to drive three fire grate axle 3a to do amplitude
It is dynamic.
Claims (7)
1. a kind of chamber isolated small-sized rubbish pyrolytic gasification combustion furnace, including hopper (1), and the drying chamber being arranged in combustion furnace
(2), upper fire-grating (3), burner hearth chamber (4), lower fire grating (5), dual firing chamber (6) and outlet flue (7), and hopper (1), drying chamber
(2), upper fire-grating (3), burner hearth chamber (4), lower fire grating (5) are set gradually from top to bottom, it is characterised in that:The hopper (1)
Bottom is provided with gate (19), be provided with the side wall at the top of the drying chamber (2) with water vapour suction chamber (11), in drying chamber
(2) bottom is provided with can carry out the positive and negative feed stirred to wheel mechanism (8) to rubbish so that feed to wheel mechanism (8) with it is upper
Pyrolytic gasification chamber (9) is added between fire grate (3), the feed by tube-shaped shaft (8a) and is welded on tube-shaped shaft to wheel mechanism (8)
Former (8b) on (8a) forms, and offers some apertures (8c) on every former (8b), circulation is provided with the combustion furnace
Blower fan (10), the high-temperature flue gas in dual firing chamber (6) is imported into pyrolytic gasification chamber (9) with reference to high temperature flue gas pipeline (24), wherein one
Part high-temperature flue gas is flowed upwardly in drying chamber (2) to drying garbage, caused water vapour by the aperture (8c) on former (8b)
The condensation liquefaction tank (12) imported in the presence of combustion chamber draft by water vapour suction chamber (11) outside combustion furnace is liquefied, no
Solidifying property foul smell imports the interior high-temperature calcination of burner hearth chamber (4) by exhaust tube (13) and handled;Another part high-temperature flue gas flows downward,
The heat of this part high-temperature flue gas makes dried rubbish in pyrolytic gasification chamber (9) interior rapid thermal decomposition, in combination with combustion furnace
Heat caused by thorax chamber (4) forms convection current radiation, is passed to waste layer on upper fire-grating (3), makes rubbish while produce pyrolytic gasification, gas
Change gas to be passed downwards by upper fire-grating (3) into burner hearth chamber (4) burning;Upper fire-grating (3) is coordinated to turn over feed to wheel mechanism (8)
Turn, the solid content garbage carbon after refuse pyrolysis under upper fire-grating (3) upset is burnt on lower fire grating (5), upper fire-grating (3) and lower stove
Arrange and opposed firing flame formed between (5), gasification gas with the garbage carbon after pyrolysis is complementary in burner hearth chamber (4) burns, allow combustion
More than 850 DEG C of the condition of high temperature that burner hearth chamber (4) keeps lasting is burnt, is harmful to the combustible abundant , dioxins that burn as far as possible
Material thoroughly decomposes;The lime-ash of after-flame is sent into ash discharge chamber by the reciprocating motion of lower fire grating (5) self-law on lower fire grating (5)
(14) discharge, the gasification gas of not thorough after-flame or carbon granules, which enter in dual firing chamber (6), in burner hearth chamber (4) continues fully burning
Afterwards, discharged after then being handled by dust-settling compartment (15) depositing dust by outlet flue (7).
2. chamber isolated small-sized rubbish pyrolytic gasification combustion furnace according to claim 1, it is characterised in that:The feed is to wheel
Totally three, and be equidistantly arranged at intervals in same level, mechanism (8), each feed in wheel mechanism (8) to being provided with circumferentially
Four uniform formers (8b), each feed to wheel mechanism (8) by be arranged on combustion furnace it is external to wheel bearing fulcrum bearing
(16) install, two pump to wheel drive oil cylinder (17), by Stagger-wrap to wheel bearing fulcrum bearing (16)
Chain sprocket mechanism is converted into circular motion, is that 0 °~90 ° positive and negative turns over so as to drive three feeds to do amplitude to wheel mechanism (8)
It is dynamic.
3. chamber isolated small-sized rubbish pyrolytic gasification combustion furnace according to claim 2, it is characterised in that:The feed is to wheel
Strengthened between each former (8b) and tube-shaped shaft (8a) of mechanism (8) with floor (8d) welding.
4. chamber isolated small-sized rubbish pyrolytic gasification combustion furnace according to claim 1, it is characterised in that:The gate (19)
For double throttle valves.
5. chamber isolated small-sized rubbish pyrolytic gasification combustion furnace according to claim 1, it is characterised in that:The lower fire grating
(5) it is independent overall structure, can be outwards skidded off by extension track (20).
6. chamber isolated small-sized rubbish pyrolytic gasification combustion furnace according to claim 1, it is characterised in that:The water vapour is taken out
Chamber (11) ring set is inhaled at the top of drying chamber (2), and some face water vapour suction chambers are provided with the side wall of the drying chamber (2)
(11) water vapour via (2a).
7. chamber isolated small-sized rubbish pyrolytic gasification combustion furnace according to claim 1, it is characterised in that:The dual firing chamber
(6) it is located at the right side of burner hearth chamber (4), is provided with least two block walls (6a) in dual firing chamber (6), passes through between partition wall (6a)
Arch flue gas circulation passage (6b) is connected, and passage (21), the upper right of burner hearth chamber (4) are provided with the lower fire grating (5)
Side is provided with an air feed mouth (22) of face burner hearth chamber (4), and secondary air feed is provided with the first separate space of dual firing chamber (6)
Mouth (23).
Priority Applications (1)
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CN201720731649.XU CN206944164U (en) | 2017-06-19 | 2017-06-19 | Chamber isolated small-sized rubbish pyrolytic gasification combustion furnace |
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CN201720731649.XU CN206944164U (en) | 2017-06-19 | 2017-06-19 | Chamber isolated small-sized rubbish pyrolytic gasification combustion furnace |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107120658A (en) * | 2017-06-19 | 2017-09-01 | 重庆航天机电设计院 | A kind of chamber isolated small-sized rubbish pyrolytic gasification combustion furnace |
CN108343947A (en) * | 2018-04-13 | 2018-07-31 | 山东英才学院 | The flammule low-intensity Double layer burning device and combustion method of biomass molding fuel |
CN108413402A (en) * | 2018-03-21 | 2018-08-17 | 南京工程学院 | A kind of wind electricity blade wastes thermal decomposition incineration furnace and its control method |
CN108413401A (en) * | 2018-03-15 | 2018-08-17 | 重庆科技学院 | A kind of refuse pyrolysis gasification process method of gear rolling fire bars tube furnace |
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2017
- 2017-06-19 CN CN201720731649.XU patent/CN206944164U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107120658A (en) * | 2017-06-19 | 2017-09-01 | 重庆航天机电设计院 | A kind of chamber isolated small-sized rubbish pyrolytic gasification combustion furnace |
CN108413401A (en) * | 2018-03-15 | 2018-08-17 | 重庆科技学院 | A kind of refuse pyrolysis gasification process method of gear rolling fire bars tube furnace |
CN108413402A (en) * | 2018-03-21 | 2018-08-17 | 南京工程学院 | A kind of wind electricity blade wastes thermal decomposition incineration furnace and its control method |
CN108413402B (en) * | 2018-03-21 | 2019-09-20 | 南京工程学院 | A kind of wind electricity blade wastes thermal decomposition incineration furnace and its control method |
CN108343947A (en) * | 2018-04-13 | 2018-07-31 | 山东英才学院 | The flammule low-intensity Double layer burning device and combustion method of biomass molding fuel |
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Effective date of registration: 20180409 Address after: 400039 Chongqing Jiulongpo Yuzhou Road No. 60 Patentee after: Chongqing Aerospace Industry Co., Ltd. Address before: A road 400039 Jiulongpo District of Chongqing Science Park No. 3 Patentee before: Chongqing Aerospace Electromechanical Design Institute |