CN102911676A - Dry distillation carbonization furnace with flue pipe and carbonization method - Google Patents
Dry distillation carbonization furnace with flue pipe and carbonization method Download PDFInfo
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- CN102911676A CN102911676A CN2012103763000A CN201210376300A CN102911676A CN 102911676 A CN102911676 A CN 102911676A CN 2012103763000 A CN2012103763000 A CN 2012103763000A CN 201210376300 A CN201210376300 A CN 201210376300A CN 102911676 A CN102911676 A CN 102911676A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E50/00—Technologies for the production of fuel of non-fossil origin
- Y02E50/10—Biofuels, e.g. bio-diesel
Abstract
The invention discloses a dry distillation carbonization furnace with a flue pipe, which comprises a furnace hearth and a dry distillation kettle positioned in the furnace hearth, wherein a combustion chamber positioned at the bottom of the furnace heath and a flue on the inner side of the furnace hearth are formed by a clearance between the dry distillation kettle and the furnace hearth; the dry distillation kettle comprises a dry distillation kettle body and a dry distillation kettle cover; the inverted-L-shaped flue pipe which is inserted into the dry distillation kettle from the bottom and passes through one side surface of the dry distillation kettle body, and a material rack capable of being freely picked and placed are arranged in the dry distillation kettle body; and external fins for changing the structure of the flue is arranged on the outer wall of the dry distillation kettle body. The dry distillation carbonization furnace has the advantages that through arranging the flue pipe, internal fins, the external fins and the material rack, wooden raw materials in the dry distillation kettle can be heated evenly, thereby eliminating undercooked phenomena, simultaneously improving the heat exchange efficiency, decreasing fuel consumption, reducing the heating time, raising the carbon acquisition rate and stabilizing the quality of wood charcoal. Besides, the dry distillation carbonization furnace disclosed by the invention has a simple structure, is suitable for carbonized production of all wooden raw materials such as fruit wood, hardwood, bamboo and agricultural and forestry waste, and has high generalizability.
Description
Technical field
The present invention relates to a kind of charring furnace, be specifically related to a kind of dry distillation carbonizing furnace and charing method with flue tube for charcoal production.
Background technology
Timber or wood material decompose in the situation of secluding air at a certain temperature, generate charcoal, and by product comprises: wood tar oil, wood vinegar, wood gas.Charcoal is the impure decolorizing carbon that keeps residual tar in the original structure of timber and the hole.Be widely used as industry metallurgy reductive agent and fuel, also bringing into play significant role in fields such as purification of water quality, pollutent absorption, conduction and electromagnetic shieldings.Wood tar oil is a kind of useful product in veterinary drug, can also be as sanitas, Wood preservation agent and sealant.The composition of wood vinegar is extremely complicated, and its main component is water, acetic acid, methyl alcohol and acetone etc., mainly sprays, improves soil, body-care etc. as prevention and elimination of disease and pests, corps leaf surface.The wood gas main component is carbon monoxide, hydrogen and methane etc., and calorific value is approximately 5000kcal/m
3, be the civilian renewable and clean energy resource of alternative liquefied gas etc.Therefore, the demand of these thermal decomposition of wood products in market increases day by day.
Present charcoal is produced most local method sintering technology that adopt, and by a part of raw material of burning, makes to reach carbonization temperature, then cold stoking in the kiln in soil system or brick kiln processed.Advantage is less investment, but the shortcomings such as the charcoal quality is unstable, the production cycle long, byproduct can not reclaim, environmental pollution are arranged.
Along with the progress of science and technology, people begin to gradually adopt distillation process.Wood material is placed in the airtight Steel Shell, outside body of heater, is provided with heating furnace, by extra fuel combustion heating body of heater, the material temperature in the stove is risen, and then charing, and the pipeline collection by product by drawing.
A kind of method and rapid thermal decomposition coke oven of producing biomass carbonization carbon and biological fuel gas disclosed such as Chinese patent ZL200810019302.8, the centre that is specially dry distillation charring chamber in same stove arranges gasification reactor chamber, and in furnace roof section a reinforced mouth of pipe is set, reinforced by this reinforced mouth of pipe gasification reactor chamber and dry distillation charring chamber in the stove, treat that two Room materials fill it up with; Close reinforced seal valve, open the air feed tube mouth that is arranged on the gasification reactor chamber bottom, start the negative pressure roots blower that is arranged on outside the stove, then open the fire door that is arranged on the gasification reactor chamber bottom; Light the gasification materiel of gasification reactor chamber bottom, shut fire door; Outside stove under the effect of negative pressure roots blower, the combustion gas of the 500-700C that produces ° of high temperature anoxic in the vaporizer in the suction stove, be diffused into by the combustion gas diffusing opening that is arranged on gasification reactor chamber top in the dry distillation charring chamber of gasification reactor chamber periphery, the destructive distillation of charing material is become biomass charcoal; Biomass charcoal enters in the bottom coal collecting chamber that is arranged on the dry distillation charring chamber, by be arranged on coal collecting chamber bottom scrape carbon slab with biomass carbonization carbon scrape into be arranged on the coal collecting chamber bottom go out the charcoal mouth of pipe discharge out of the furnace the biomass carbonization carbon product.
Also there are many shortcomings in above-mentioned charring furnace, and is low such as heat transfer efficiency, and fuel consumption is large, near body of heater central authorities half-cooked phenomenon often arranged; Because charging is many, the easy crushing of the charcoal of lower floor etc.
Summary of the invention
The first purpose of the present invention is, for above-mentioned the deficiencies in the prior art, provides a kind of dry distillation carbonizing furnace with flue tube for the thermal decomposition of wood.
The second purpose of the present invention is to provide a kind of method of utilizing above-mentioned dry distillation carbonizing furnace wood raw material to be carried out charing.
For realizing the first purpose, the present invention adopts following technical scheme:
Dry distillation carbonizing furnace with flue tube of the present invention, comprise burner hearth and be positioned at the retort of burner hearth, gap between described retort and the burner hearth consists of the flue of the combustion chamber and the burner hearth inboard that are positioned at burner hearth bottom, described retort is comprised of destructive distillation kettle and destructive distillation kettle cover, is provided with the flue tube that is inverted L shape that inserts from the bottom and pass from the retort body side surface in the destructive distillation kettle; And the material frame that can freely pick and place; The external wall of described retort is provided with the outer fin that changes flue structure.
Described flue tube is 1 ~ 200, and the ratio of total cross-sectional area of flue tube and destructive distillation kettle cross-sectional area is 1/200 ~ 1/50.
Flue tube of the present invention is arranged on destructive distillation kettle middle part, and quantity can be 1 ~ 200, and concrete quantity can be decided according to the size of flue tube.Satisfying total cross-sectional area of flue tube and the ratio of destructive distillation kettle cross-sectional area is 1/200 ~ 1/50, can obtain desirable heat-transfer effect.Wherein preferred flue tube is 4 ~ 10, and the ratio of total cross-sectional area of flue tube and destructive distillation kettle cross-sectional area is 1/125 ~ 2/125.
Described inverted L shape flue tube is made of vertical flue tube and the horizontal flue pipe of connection by metal hose, and specifically vertically flue tube vertically inserts from the destructive distillation autoclave body bottom, transfers horizontal flue Guan Bingcong retort body side surface at close destructive distillation kettle top and passes.This design can avoid temperature stress to the destruction of destructive distillation kettle and flue tube itself, thereby has prolonged the life-span of whole dry distillation carbonizing furnace.
Outer fin of the present invention can be for being arranged on several ring-type fins on the external wall of retort, arbitrary neighborhood two ring-type fins are respectively equipped with the breach that is staggeredly located, the interval D of adjacent fins accounts for 5% ~ 100% of kettle total length, preferred 10% ~ 50%, described outer fin consists of by this breach and inboard wall of burner hearth and revolves circuitous flue around the retort body disc.
When the combustion chambers burn of fuel at burner hearth bottom, the high-temperature flue gas that produces rises along flue, the present invention is after the external wall of retort arranges several notched ring-type fins, along the whole S-shaped rising of flue, flue gas fully contacts rear emptying from upper furnace with the destructive distillation kettle high-temperature flue gas via above-mentioned breach.Arranging of this fin increased heat interchanging area, is conducive to the charing of wood material, obtains high-quality finished product.
Above-mentioned arbitrary neighborhood two ring-type fins are equipped with the breach that is staggeredly located, the angle of two breach can be for identical or different, and be advisable preferred 90 ° ~ 180 ° to be not less than 30 °, most preferably be 180 °, this moment, high-temperature flue gas can carry out more fully heat exchange with retort.
As another embodiment of the invention, described outer fin can also be for being arranged on the spiral fin on the external wall of retort, and described spiral fin and inboard wall of burner hearth consist of the flue around destructive distillation kettle spiral.The high-temperature flue gas that the combustion chamber produces rises along screw type flue, carries out sufficient heat exchange with the destructive distillation kettle.
In order further to optimize flue structure, improve the efficient of high-temperature flue gas and retort body heat exchange, the external fin height h of contriver is that the ratio of burner hearth and retort outer wall spacing L has also carried out specific aim research.Outer fin of the present invention can perpendicular to the external wall setting of retort, also can be with it certain inclination angle and arrange.The preferred described outer fin height h of the present invention is 10% ~ 100% of burner hearth and retort outer wall spacing L, and more preferably this ratio is 85% ~ 95%.At this moment, the flue of outer fin and burner hearth, retort formation can be realized the optimization of heat transfer efficiency.
Dry distillation carbonizing furnace of the present invention can also further arrange inner fin in the destructive distillation kettle, described inner fin is several rotational symmetry distribution fins that vertically arrange on the retort inwall, and the angle of adjacent fins is 10 ~ 180 °, preferred 30 ~ 120 °.Described inner fin and retort are preferably contour.
In order to prevent the charcoal attrition crushing, guarantee simultaneously higher charring rate, the present invention has abandoned the conventional technical scheme that directly wood material is deposited in the retort, in retort, set up a material frame, material frame size and destructive distillation kettle interior shape are complementary, and are provided with 2 ~ 200 layers of flase floor, preferred 3 ~ 30 layers, more preferably 4 ~ 10 layers, flase floor is provided with the gap identical with quantity with the inner fin position.During use, wood material evenly is positioned on the flase floor of different layers, again material frame integral body is lifted up into and carry out charing in the retort, inner fin and flase floor are separated the destructive distillation kettle and are several independently spaces, not only can prevent the waste that the charcoal attrition crushing causes, can also the conveniently assemble and disassemble material, productivity is overally improved.
Those skilled in the art will know that, in the carbonization process, there is larger impact in the volumetric ratio of retort and burner hearth to the carbonization process of wood material, this ratio is larger, illustrate that treatable wood material is more in the retort, but the too little heat transfer efficiency that causes in the space of combustion zone and flue descends, and affects productivity; This ratio is less, and the space of combustion zone and flue is larger, then more is conducive to improve heat transfer efficiency, but because the retort volume is less, will inevitably cause productive rate to descend.Hold concurrently and maximum output in order to obtain best heat-transfer effect, the contriver has made further restriction to the volumetric ratio of retort and burner hearth, is preferably 40% ~ 96%, and more preferably 70% ~ 90%, carbonization process at this moment is the most desirable.
In addition, retort of the present invention covers and also is provided with venting port and the temperature survey mouth of being convenient to collect by product, makes things convenient for the user in time to detect the interior temperature of retort, accurately controls carbonization process.Mode of connection between destructive distillation kettle cover and the destructive distillation kettle is known to those skilled in the art, preferably adopts flange airtight.
Described retort bottom also is provided with inlet mouth, after carbonization reaction finishes, can pass into freezing air from the inlet mouth of bottom, it is contacted with the destructive distillation kettle carry out heat exchange, makes inner charcoal cool off rapidly discharging, has improved production efficiency.The those skilled in the art that are set to that inlet mouth is concrete grasp, can realize that cooling off rapidly charcoal is as the criterion.
The present invention also provides the method for utilizing above-mentioned dry distillation carbonizing furnace that wood material is carried out charing, and the method specifically comprises the steps:
(1) impurity is removed in the wood material sorting that will treat charing, is cut into length less than 30cm again, and sectional area is less than 60cm
2Fritter;
(2) wood material behind the sub-sieve is carried out drying and dewatering, the control moisture content is≤20%;
(3) wood material after will dewatering places on the material frame, and material frame integral body is put into retort, buckles kettle cover again and carries out airtight;
(4) the ignite fuel of burner hearth bottom, the high-temperature flue gas of generation rises along outer fin and the inner flue that spirals that consists of of burner hearth, and the temperature of described high-temperature flue gas is 500 ~ 700 ℃, and carbonization time is 3 ~ 6h;
(5) after charing finishes, material frame is taken out in retort, get product through collection.
Adopt technique scheme, the invention has the advantages that:
1, the setting of flue tube and inside and outside fin can make the wood material homogeneous heating in the retort, has stopped half-cooked phenomenon.Inside and outside fin has all improved heat exchange efficiency simultaneously, has reduced fuel consumption, has reduced heat-up time, improves terrible charcoal rate, and has stablized the charcoal quality.
2, reaction complete after, can pass into from burner hearth bottom by freezing air, and destructive distillation kettle contact heat-exchanging, make inner charcoal cool off rapidly discharging, improved production efficiency.
3, the special construction of material frame has further guaranteed charring rate and production efficiency.
(content of particle diameter≤10mm) is reduced to almost by about 10% not to be had powdered carbon in the product charcoal.The carbonization time that reaches identical charcoal quality product saves about 50%.
4, dry distillation carbonizing furnace of the present invention is applied widely, applicable to the charing production of fruit tree, hardwood, bamboo wood, all wood materials of agriculture and forestry organic waste material (stalk, shell, wood sawdust etc.).
Description of drawings
Fig. 1 is the structural representation of the embodiment of the invention 1 dry distillation carbonizing furnace;
Fig. 2 is the A-A sectional view among Fig. 1;
Fig. 3 is material frame sectional view among the embodiment 1;
Fig. 4 is the B-B sectional view of Fig. 3;
Fig. 5 is the structural representation of the embodiment of the invention 2 dry distillation carbonizing furnaces;
Fig. 6 is the A-A sectional view among Fig. 5;
Fig. 7 is material frame sectional view among the embodiment 2;
Fig. 8 is the B-B sectional view of Fig. 7;
Main figure elements explanation
1 burner hearth, 2 destructive distillation kettlies, 21 metallic hoses, 22 outer fins, 23 inner fins, 24 flue tubes, 3 destructive distillation kettle covers, 31 venting ports, 32 temperature survey mouths, 4 material frames.
Embodiment
Below in conjunction with drawings and Examples the present invention is described further.
Embodiment 1
Dry distillation carbonizing furnace as shown in Figure 1 comprises burner hearth 1 and is positioned at the retort of burner hearth that the gap between described retort and the burner hearth 1 consists of the flue (figure does not indicate) of the combustion chamber and burner hearth 1 inboard that are arranged in burner hearth 1 bottom.Retort is comprised of destructive distillation kettle 2 and destructive distillation kettle cover 3, and at the middle part of destructive distillation kettle 2, uniform 6 are inserted from the bottom, transferring near destructive distillation kettle top laterally and the flue tube that is inverted L shape 24 that passes from destructive distillation kettle 2 sides; The ratio of total cross-sectional area of flue tube 24 and destructive distillation kettle 2 cross-sectional areas is 3/200; Also be provided with the material frame 4 that can freely pick and place in the destructive distillation kettle; (referring to Fig. 3), destructive distillation kettle 2 outer walls are provided with the outer fin 22 that changes flue structure.
Wherein burner hearth 1 is built into cylindrically by refractory brick, and destructive distillation kettle 2 is the hollow cylinder of high temperature resistant steel, bottom weldering ellipsoidal head, and be provided with inlet mouth.Destructive distillation kettle cover 3 is the ellipsoidal head form, and destructive distillation kettle 2 is airtight by flange, center opened round venting port 31, and the limit is provided with gos deep into the interior thermopair of still as temperature survey mouth 32.The outer fin 22 of uniform 7 annulus of right cylinder outer short transverse, the Notch angle that two neighbouring outer fins are 22 is 180 °.Outer fin 22 height h are burner hearth 1 and 90% of retort outer wall spacing L.As shown in Figure 2, retort inside centered by its central shaft, symmetrical uniform 6 the rectangle inner fins 23 of span centre, 60 ° of adjacent angles, its height is identical with retort.In the present embodiment, the volumetric ratio of retort and burner hearth 1 is 80%.
As shown in Figure 3 and Figure 4.Material frame 4 sizes and destructive distillation kettle 2 interior shapes coupling, cylindrical, forms support by steel pipe, in the present embodiment, material frame 4 is provided with 7 layers of sub-stent, every layer of support laying grid, every layer of grid open 6 with the identical gap in inner fin 23 positions.
During use, will treat that first the wood material of charing is pulverized, the pre-treatment such as dehydration, the wood material after then will processing places on the material frame, and material frame integral body is put into retort; The fuel of burner hearth bottom ignites, the high-temperature flue gas that generates rises along the flue tube of outer fin and inner spiral flue or the destructive distillation autoclave body bottom that consists of of burner hearth, realizes the charing of wood material, after charing finishes, material frame is taken out in retort, get product through collection.
Embodiment 2
Dry distillation carbonizing furnace as shown in Figure 5 comprises burner hearth 1 and is positioned at the retort of burner hearth that the gap between described retort and the burner hearth 1 consists of the flue (figure does not indicate) of the combustion chamber and burner hearth 1 inboard that are arranged in burner hearth 1 bottom.Retort is comprised of destructive distillation kettle 2 and destructive distillation kettle cover 3, and at the middle part of destructive distillation kettle 2, uniform 4 are inserted from the bottom, transferring near destructive distillation kettle top laterally and the flue tube that is inverted L shape 24 that passes from destructive distillation kettle 2 sides; The ratio of total cross-sectional area of flue tube 24 and destructive distillation kettle 2 cross-sectional areas is 1/125; Also be provided with the material frame 4 that can freely pick and place in the destructive distillation kettle; (referring to Fig. 3), destructive distillation kettle 2 outer walls are provided with the outer fin 22 that changes flue structure.
As shown in Figure 6, burner hearth 1 is built into rectangle by refractory brick.Destructive distillation kettle 2 is the hollow rectangle body of high temperature resistant steel, and destructive distillation kettle cover 3 is the conical head form, and destructive distillation kettle 2 is airtight by flange, center opened round venting port 3-1, and the limit is provided with gos deep into the interior thermopair of still as temperature survey mouth 32.The outer fin 22 of uniform 5 rectangular rings of destructive distillation kettle 2 outer short transverses, the Notch angle that neighbouring two outer fins are 22 is 180 °.Outer fin 22 height h are burner hearth 1 and 85% of retort outer wall spacing L.
As shown in Figure 6, retort inside centered by its central shaft, symmetrical uniform 4 the rectangle inner fins 23 of span centre, 90 ° of adjacent angles, its height is identical with retort.In the present embodiment, the volumetric ratio of retort and burner hearth 1 is 70%.
As shown in Figure 7 and Figure 8, material frame 4 sizes and destructive distillation kettle 2 interior shapes coupling, rectangular.Form support by steel pipe, in the present embodiment, material frame 4 is provided with 4 layers of sub-stent, and every layer of support laid grid, every layer of grid open 4 with the identical gap in inner fin 23 positions.
During use, will treat that first the wood material of charing is pulverized, the pre-treatment such as dehydration, the wood material after then will processing places on the material frame, and material frame integral body is put into retort; The fuel of burner hearth bottom ignites, the high-temperature flue gas that generates rises along the flue tube of outer fin and inner spiral flue or the destructive distillation autoclave body bottom that consists of of burner hearth, realizes the charing of wood material, after charing finishes, material frame is taken out in retort, get product through collection.
Embodiment 3
Compare with embodiment 1, distinctive points only is: in the present embodiment, and the outer fin 22 of uniform 10 annulus of right cylinder outer short transverse, the Notch angle that two neighbouring outer fins are 22 is 90 °.Outer fin 22 height h are burner hearth 1 and 95% of retort outer wall spacing L.Uniform 2 the rectangle inner fins 23 of the inner span centre of retort, its height is identical with retort.The volumetric ratio of retort and burner hearth 1 is 90%.Material frame 4 is provided with 2 layers of sub-stent, and every layer of support laid grid, every layer of grid open 2 with the identical gap in inner fin 23 positions.
Embodiment 4
Compare with embodiment 1, distinctive points only is: in the present embodiment, and the outer fin 22 of uniform 2 annulus of right cylinder outer short transverse, the Notch angle that two neighbouring outer fins are 22 is 45 °, 90 ° or 135 °.Outer fin 22 height h are 100% of burner hearth and retort outer wall spacing L.Uniform 10 the rectangle inner fins 23 of the inner span centre of retort, 36 ° of adjacent angles, its height is identical with retort.The volumetric ratio of retort and burner hearth 1 is 96%.Material frame 4 is provided with 30 layers of sub-stent, and every layer of support laid grid, every layer of grid open 10 with the identical gap in inner fin 23 positions.
Embodiment 5
Compare with embodiment 2, distinctive points only is: in the present embodiment, described outer fin 22 is for being arranged on the spiral fin on destructive distillation kettle 2 outer walls, and this spiral fin and inboard wall of burner hearth consist of the flue around destructive distillation kettle 2 spirals.In the carbonization process, high-temperature flue gas rises along the spirrillum flue, carries out heat exchange with retort.
Embodiment 6
Compare with embodiment 2, distinctive points only is: in the present embodiment, flue tube 24 is 10, and the ratio of total cross-sectional area of flue tube 24 and destructive distillation kettle 2 cross-sectional areas is 2/125.
Embodiment 7
Compare with embodiment 2, distinctive points only is: in the present embodiment, flue tube 24 is 100, and the ratio of total cross-sectional area of flue tube 24 and destructive distillation kettle 2 cross-sectional areas is 1/50.
Embodiment 6
Present embodiment provides the method for utilizing above-mentioned dry distillation carbonizing furnace that wood material is carried out charing, and the method specifically comprises the steps:
(1) impurity is removed in the wood material sorting that will treat charing, and being cut into length is 20 ~ 25cm again, and sectional area is less than 60cm
2Fritter;
(2) wood material behind the sub-sieve is carried out drying and dewatering, the control moisture content is 15 ~ 18%;
(3) wood material after will dewatering places on the material frame, and material frame integral body is put into retort, buckles kettle cover again and carries out airtight;
(4) the ignite fuel of burner hearth bottom, the high-temperature flue gas of generation rises along outer fin and the inner flue that spirals that consists of of burner hearth, and the temperature of described high-temperature flue gas is 600 ~ 620 ℃, and carbonization time is 4.5h;
(5) after charing finishes, material frame is taken out in retort, get product through collection.
Embodiment 7
Present embodiment provides the method for utilizing above-mentioned dry distillation carbonizing furnace that wood material is carried out charing, and the method specifically comprises the steps:
(1) impurity is removed in the wood material sorting that will treat charing, and being cut into length is 25 ~ 30cm again, and sectional area is less than 60cm
2Fritter;
(2) wood material behind the sub-sieve is carried out drying and dewatering, the control moisture content is 18 ~ 20%;
(3) wood material after will dewatering places on the material frame, and material frame integral body is put into retort, buckles kettle cover again and carries out airtight;
(4) the ignite fuel of burner hearth bottom, the high-temperature flue gas of generation rises along outer fin and the inner flue that spirals that consists of of burner hearth, and the temperature of described high-temperature flue gas is 500 ~ 520 ℃, and carbonization time is 6h;
(5) after charing finishes, material frame is taken out in retort, get product through collection.
Embodiment 8
Present embodiment provides the method for utilizing above-mentioned dry distillation carbonizing furnace that wood material is carried out charing, and the method specifically comprises the steps:
(1) impurity is removed in the wood material sorting that will treat charing, and being cut into length is 15 ~ 20cm again, and sectional area is less than 60cm
2Fritter;
(2) wood material behind the sub-sieve is carried out drying and dewatering, the control moisture content is 10 ~ 15%;
(3) wood material after will dewatering places on the material frame, and material frame integral body is put into retort, buckles kettle cover again and carries out airtight;
(4) the ignite fuel of burner hearth bottom, the high-temperature flue gas of generation rises along outer fin and the inner flue that spirals that consists of of burner hearth, and the temperature of described high-temperature flue gas is 680 ~ 700 ℃, and carbonization time is 3h;
(5) after charing finishes, material frame is taken out in retort, get product through collection.
Embodiment in above-described embodiment can further make up or replace; and embodiment is described the preferred embodiments of the present invention; be not that the spirit and scope of the present invention are limited; under the prerequisite that does not break away from design philosophy of the present invention; the various changes and modifications that the professional and technical personnel makes technical scheme of the present invention in this area all belong to protection scope of the present invention.
Claims (10)
1. dry distillation carbonizing furnace with flue tube, comprise burner hearth and be positioned at the retort of burner hearth, gap between described retort and the burner hearth consists of the flue of the combustion chamber and the burner hearth inboard that are positioned at burner hearth bottom, it is characterized in that: described retort is comprised of destructive distillation kettle and destructive distillation kettle cover, is provided with the flue tube that is inverted L shape that inserts from the bottom and pass from the retort body side surface in the destructive distillation kettle; And the material frame that can freely pick and place; The external wall of described retort is provided with the outer fin that changes flue structure.
2. dry distillation carbonizing furnace according to claim 1, it is characterized in that: described flue tube is 1 ~ 200, the ratio of total cross-sectional area of flue tube and destructive distillation kettle cross-sectional area is 1/200 ~ 1/50.
3. dry distillation carbonizing furnace according to claim 1, it is characterized in that: described outer fin is several ring-type fins that are arranged on the external wall of retort, arbitrary neighborhood two ring-type fins are respectively equipped with the breach that is staggeredly located, the interval D of adjacent fins accounts for 5% ~ 100% of kettle total length, and described outer fin revolves circuitous flue by this breach and inboard wall of burner hearth formation around the retort body disc.
4. dry distillation carbonizing furnace according to claim 1, it is characterized in that: described outer fin is the spiral fin that is arranged on the external wall of retort, described spiral fin and inboard wall of burner hearth consist of the flue around destructive distillation kettle spiral.
5. dry distillation carbonizing furnace according to claim 1, it is characterized in that: described outer fin height h is 10% ~ 100% of burner hearth and retort outer wall spacing L.
6. dry distillation carbonizing furnace according to claim 1, it is characterized in that: on the described destructive distillation inner wall of kettle inner fin that several distribute axisymmetricly is set vertically, the angle of adjacent fins is 10 ~ 180 °.
7. dry distillation carbonizing furnace according to claim 6, it is characterized in that: described material frame is provided with 2 ~ 200 layers of flase floor, and flase floor is provided with the gap identical with quantity with the inner fin position.
8. dry distillation carbonizing furnace according to claim 1, it is characterized in that: the volumetric ratio of described retort and burner hearth is 40% ~ 96%.
9. dry distillation carbonizing furnace according to claim 1, it is characterized in that: described retort covers and is provided with venting port and temperature survey mouth.
10. one kind is utilized each described dry distillation carbonizing furnace of claim 1-9 to the method that wood material carries out charing, it is characterized in that:
(1) impurity is removed in the wood material sorting that will treat charing, is cut into length less than 30cm again, and sectional area is less than 60cm
2Fritter;
(2) wood material behind the sub-sieve is carried out drying and dewatering, the control moisture content is≤20%;
(3) wood material after will dewatering places on the material frame, and material frame integral body is put into retort, buckles kettle cover again and carries out airtight;
(4) the ignite fuel of burner hearth bottom, the high-temperature flue gas of generation rises along inner spiral flue and the flue tube that consists of of outer fin and burner hearth, and the temperature of described high-temperature flue gas is 500 ~ 700 ℃, and carbonization time is 3 ~ 6h;
(5) after charing finishes, material frame is taken out in retort, get product through collection.
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CN103589441A (en) * | 2013-11-25 | 2014-02-19 | 潍坊金丝达环境工程股份有限公司 | Improved energy-saving continuous gasification cracking furnace |
CN114806617A (en) * | 2022-05-16 | 2022-07-29 | 唐山市新雅诺生物科技有限公司 | Normal-pressure anaerobic carbonization pyrolysis furnace and plant organic matter carbonization treatment method |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH03237191A (en) * | 1990-02-14 | 1991-10-23 | Hamada Juko Kk | Dry distillation apparatus |
CN2276502Y (en) * | 1997-01-22 | 1998-03-18 | 季可达 | Coal dry distillation pipe with drag release gear |
CN2387108Y (en) * | 1999-06-01 | 2000-07-12 | 徐振江 | Dry distillate pot with fire dividing pipe |
JP2010001471A (en) * | 2008-05-23 | 2010-01-07 | Aoki Mitsuru Shoji:Kk | Dry distillation apparatus and dry distillation and liquefaction system |
CN201793520U (en) * | 2010-09-17 | 2011-04-13 | 陕西亿鑫生物能源科技开发有限公司 | Biomass retort |
CN202865166U (en) * | 2012-09-29 | 2013-04-10 | 蓝星(北京)化工机械有限公司 | Dry distillation carbonization furnace with flue pipes |
-
2012
- 2012-09-29 CN CN201210376300.0A patent/CN102911676B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH03237191A (en) * | 1990-02-14 | 1991-10-23 | Hamada Juko Kk | Dry distillation apparatus |
CN2276502Y (en) * | 1997-01-22 | 1998-03-18 | 季可达 | Coal dry distillation pipe with drag release gear |
CN2387108Y (en) * | 1999-06-01 | 2000-07-12 | 徐振江 | Dry distillate pot with fire dividing pipe |
JP2010001471A (en) * | 2008-05-23 | 2010-01-07 | Aoki Mitsuru Shoji:Kk | Dry distillation apparatus and dry distillation and liquefaction system |
CN201793520U (en) * | 2010-09-17 | 2011-04-13 | 陕西亿鑫生物能源科技开发有限公司 | Biomass retort |
CN202865166U (en) * | 2012-09-29 | 2013-04-10 | 蓝星(北京)化工机械有限公司 | Dry distillation carbonization furnace with flue pipes |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103589441A (en) * | 2013-11-25 | 2014-02-19 | 潍坊金丝达环境工程股份有限公司 | Improved energy-saving continuous gasification cracking furnace |
CN103589441B (en) * | 2013-11-25 | 2014-11-19 | 潍坊金丝达环境工程股份有限公司 | Improved energy-saving continuous gasification cracking furnace |
CN114806617A (en) * | 2022-05-16 | 2022-07-29 | 唐山市新雅诺生物科技有限公司 | Normal-pressure anaerobic carbonization pyrolysis furnace and plant organic matter carbonization treatment method |
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