CN201923986U - Low-pressure water-wall gasifying furnace - Google Patents
Low-pressure water-wall gasifying furnace Download PDFInfo
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- CN201923986U CN201923986U CN2011200105217U CN201120010521U CN201923986U CN 201923986 U CN201923986 U CN 201923986U CN 2011200105217 U CN2011200105217 U CN 2011200105217U CN 201120010521 U CN201120010521 U CN 201120010521U CN 201923986 U CN201923986 U CN 201923986U
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Abstract
The utility model discloses a low-pressure water-wall gasifying furnace, comprising a furnace body restricted with a furnace chamber, a clapboard with a slag outlet, a descending pipe and an ascending pipe sleeve, wherein the clapboard is horizontally arranged in the furnace body and divides the furnace chamber into a gasifying chamber and a chilling chamber that is arranged below the gasifying chamber; the descending pipe is arranged below the clapboard and is communicated with the gasifying chamber through a slag outlet; the ascending pipe sleeve is sheathed at the external side of the descending pipe; a water inlet is arranged at the bottom of the ascending pipe sleeve and a water outlet is arranged on top of the ascending pipe sleeve; the water outlet is communicated with the inside of the descending pipe so as to pump the chilled water into the descending pipe; and gas outlets are arranged on the quenching chamber and the side wall of the furnace body, close to the clapboard. As the chilled water is pumped in the ascending pipe sleeve and flows from bottom to top so as to exchange heat with the descending pipe and reduce the temperature of the gas in the descending pipe, the low-pressure water-wall gasifying furnace can realize the aim of preparing synthetic gas under the low-pressure situation, the investment cost of the equipment can be reduced, and the production efficiency can be improved.
Description
Technical field
The utility model relates to the combustion gas field, especially relates to a kind of Low Voltage and Water-cooled wall vapourizing furnace.
Background technology
At present, mainly be applicable to can source user the middle-size and small-size of fields such as pottery, glass, metallurgy, textile printing and dyeing, papermaking and city air feed for domestic industrial combustion gas.The combustion gas main source of most of producer is the fixed bed two-stage gasifier in the glass-ceramic industry, and it is to carry out improved a kind of type of furnace on the basis of fixed bed intermittent gasification.It is low that this vapourizing furnace has laid down cost, advantages of simple structure and simple, and, gas production rate low with coal requirement height, charcoal transformation efficiency is little can't to maximize, pollute high birth defect but exist simultaneously.
About structure and principle part, traditional vapourizing furnace divides two portions up and down, and top is non-slag-slag combustion gasification chamber, and the bottom is the shock chamber.Raw material such as oxygen and coal water slurry crude synthesis gas that the indoor reaction of combustion gasification is produced and at high temperature the lime-ash in the fused coal enter the shock chamber by cinder notch and synthetic gas lowered the temperature and discharge body of heater then.
The water wall that above-mentioned traditional vapourizing furnace adopts is mainly the water wall coil pipe, and what have is spiral pipe, have for vertical pipe adds fin, withstand voltage properties is lower, weld seam is many, and is dangerous.Further, the cinder notch in traditional vapourizing furnace adopts refractory brick to form, and under the washing away and corrode of high temperature gas flow, needs to change a refractory brick in general 4000-6000 hour, changes to bother and the cost height.
In addition, traditional vapourizing furnace adopts chilling ring and downtake form that synthetic gas is lowered the temperature more.Chilling ring and downtake adopt the INCOLOY825 material more, and rely on chilled water to be protected, and as the chilled water quantity not sufficient, will directly cause chilling ring and downtake to burn out, be out of shape.
In addition, because present high-pressure gasified stove all adopts lock hopper to carry out deslagging, there is following problem in low pressure gasifying as adopting lock hopper: the first, and the very complicated and highly compressed vapourizing furnace operation indifference of vapourizing furnace operation.The second, gasification frame is very high, even is higher than the highly compressed vapourizing furnace, invests very high.
The utility model content
The utility model is intended to solve at least one of technical problem that exists in the prior art.For this reason, a purpose of the present utility model is to propose a kind of Low Voltage and Water-cooled wall vapourizing furnace, and the life-span of described Low Voltage and Water-cooled wall vapourizing furnace is longer, withstand voltage properties is better.In addition, this Low Voltage and Water-cooled wall vapourizing furnace can be implemented under the low pressure situation makes synthetic gas, has reduced equipment investment cost, has improved production efficiency.
A kind of Low Voltage and Water-cooled wall vapourizing furnace according to the utility model embodiment comprises: be limited with the body of heater of furnace chamber, described furnace chamber sidewall is provided with water wall, and the top of described body of heater is formed with main import, and the bottom is formed with slag-drip opening; Be formed with the dividing plate of cinder notch, described dividing plate level is located in the described body of heater and with described furnace chamber and is separated into vaporizer and the shock chamber that is positioned under the described vaporizer; Downtake, described downtake are located at described dividing plate below and are communicated with described vaporizer by described cinder notch; And the rising pipe box, described upcast cover is set in the described downtake outside, and the bottom of described rising pipe box is provided with water-in and the top is provided with water outlet, and described water outlet and described downtake internal communication are to feed chilled water in described downtake; Wherein, described shock chamber, near being formed with the air outlet on the side wall of furnace of dividing plate, and on the sidewall of close the furnace bottom of shock chamber, be formed with Heisui River and export.
Low Voltage and Water-cooled wall vapourizing furnace according to the utility model embodiment, feed chilled water and mobile from top to bottom in the rising pipe box, with the temperature of downtake heat exchange with the reduction downtake, thereby guarantee that downtake is unlikely to because of high temperature deformation even burns out, simultaneously, the chilled water that sprays in the downtake can be carried out abundant heat exchange with the high-temperature synthesis gas in the downtake, thereby has saved employed chilling ring in traditional manufacturing synthetic gas, has greatly reduced the cost of investment of equipment.
In addition, also have following additional technical feature according to Low Voltage and Water-cooled wall vapourizing furnace of the present utility model:
Described body of heater comprises: first main body, and described first main body is for vertically cylindrical; Top and described main import that top shell, described top shell seal described first main body are formed on the shell of top; Bottom and its top that drain pan, described drain pan are connected described first main body form down truncated cone shape, and described slag-drip opening is formed on the bottom of described drain pan; Wherein said dividing plate almost fixed is at the middle part vertically of described first main body.
Alternatively, described cinder notch is located at the central authorities of described dividing plate, and described dividing plate upwards arches upward to cinder notch gradually from its neighboring.
Further alternatively, be formed with a plurality of cooling water inlets on the periphery of described dividing plate, so that the heat at cinder notch place is taken away by cooling water circulation.
Described Low Voltage and Water-cooled wall vapourizing furnace further comprises: residual cake valve, described residual cake valve are located at described furnace chamber bottom; And scum pipe, described scum pipe is connected to described slag-drip opening.When forming the bulk slag in the vapourizing furnace, for example cause owing to reasons such as furnace temperature fluctuation in the vapourizing furnace or coal replacings, the bulk slag will directly sink to the bottom of shock chamber, need regularly directly get rid of from scum pipe.
Described Low Voltage and Water-cooled wall vapourizing furnace further comprises twice scum pipe valve, and described twice scum pipe valve is located on the described scum pipe successively.Thus, adopt no lock hopper deslagging form, can make flow process simpler on the one hand, handled easily on the other hand, has reduced the dregs breaker and the lock hopper system that need in traditional vapourizing furnace, has reduced the height of gasification frame, invests lower.
In an embodiment of the present utility model, described water wall is the semicircle pipe that is coiled on the furnace chamber sidewall, and the described semicircle seal of tube be connected to the furnace chamber sidewall and cool off described furnace chamber sidewall to feed fluid.Alternatively, described semicircle pipe is wound to the part of described shock chamber sidewall at least.
In another embodiment of the present utility model, described water wall is along the axially extended semicircle pipe of body of heater, and described semicircle pipe circumferentially distributes and described semicircle seal of tube ground is connected to the furnace chamber sidewall along described body of heater, cools off described furnace chamber sidewall with the feeding fluid.Alternatively, described semicircle pipe extends downwardly into the part of described shock chamber sidewall at least.
Be not submerged into when carrying out water-bath in the water coolant at described downtake, the coiling length of described semicircle pipe will extend to the part of described at least shock chamber sidewall always, to strengthen cooling performance.
Alternatively, described semicircle sealing of tube is on described furnace chamber sidewall.
According to the Low Voltage and Water-cooled wall vapourizing furnace of the utility model embodiment, adopt semicircle pipe water wall structure, compare with traditional spiral pipe, on thermomechanical property, do not have the difference of essence, but withstand voltage properties is better, weld seam is still less, and is safer.
The water outlet of described rising pipe box be formed on described rising pipe box top, in downtake the annulus of side opening.Like this, because the water outlet of rising pipe box adopts the circumferential weld structure, the probability that this water outlet stops up is zero, and if contain dirty sheet in the buck, also can directly ejection from circumferential weld, and can not get lodged in wherein, thus work-ing life of rising pipe box and downtake prolonged.
A plurality of secondary oxygen jets are further formed at side wall of furnace top.
Additional aspect of the present utility model and advantage part in the following description provide, and part will become obviously from the following description, or recognize by practice of the present utility model.
Description of drawings
Above-mentioned and/or additional aspect of the present utility model and advantage are from obviously and easily understanding becoming the description of embodiment in conjunction with following accompanying drawing, wherein:
Fig. 1 is the diagrammatic cross-section according to the Low Voltage and Water-cooled wall vapourizing furnace of an embodiment of the present utility model, and wherein water wall is the semicircle pipe that is coiled on the furnace chamber sidewall;
Fig. 2 is the enlarged view that Fig. 1 centre circle shows I portion; And
Fig. 3 is the water wall synoptic diagram according to the Low Voltage and Water-cooled wall vapourizing furnace of another embodiment of the present utility model, and wherein water wall is along the axially extended semicircle pipe of body of heater.
Reference numeral:
100, body of heater; 200, dividing plate; 300, downtake; 400, rising pipe box;
500, residual cake valve; 600, scum pipe; 700, scum pipe valve;
800, secondary oxygen jet; 900, cooling water inlet
Embodiment
Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings, and wherein identical from start to finish or similar label is represented identical or similar elements or the element with identical or similar functions.Below by the embodiment that is described with reference to the drawings is exemplary, only is used to explain the utility model, and can not be interpreted as restriction of the present utility model.
In description of the present utility model, term " inboard ", " outside ", " on ", close the orientation of indications such as D score, " top ", " end " or position is based on orientation shown in the drawings or position relation, it only is the utility model rather than require the utility model therefore can not be interpreted as for convenience of description with specific orientation structure and operation to restriction of the present utility model.
Below with reference to a kind of Low Voltage and Water-cooled wall vapourizing furnace of Fig. 1-Fig. 3 description according to the utility model embodiment.Those skilled in the art are understandable that alleged " low pressure boiler " is meant that furnace pressure is 16kgf/cm2 and following boiler thereof here.
As shown in Figure 1, a kind of Low Voltage and Water-cooled wall vapourizing furnace according to the utility model embodiment comprises body of heater 100, dividing plate 200, downtake 300 and rising pipe box 400.
Body of heater 100 comprises furnace shell and the refractory lining layer 160 that is arranged in the furnace shell, thereby is limited with furnace chamber 110 in body of heater 1, and furnace shell 1 for example is the metal furnace shell, and refractory lining layer 160 for example is a carbofrax material.Top at the sidewall of furnace chamber 110 is provided with water wall 120, specifically, water wall 120 is arranged between the furnace shell and refractory lining layer of upper of furnace body, and water or steam flow in water wall 120 and is lower than 280 degrees centigrade with the temperature that guarantees the furnace wall, prevents that the furnace wall from damaging because of excessive temperature.Dividing plate 200 is divided into vaporizer and shock chamber with furnace chamber 110.
In an embodiment of the present utility model, water wall 120 is the semicircle pipe on the sidewall that is coiled in furnace chamber 110, and semicircle seal of tube ground is connected to furnace chamber 110 sidewalls to supply water or steam flow, as shown in Figure 1, cools off described furnace chamber sidewall with the feeding fluid.That is to say that the semicircular opening of semicircle pipe is fixed on (for example being welded to) described furnace chamber sidewall.Alternatively, described semicircle pipe is wound to the part of described shock chamber sidewall at least
In another embodiment of the present utility model, water wall 120 is along body of heater 100 axially extended semicircle pipes, and the semicircle pipe circumferentially distributes and semicircle seal of tube ground is connected to furnace chamber 110 sidewalls with water supply or steam flow, as shown in Figure 2 along body of heater 100.That is to say that the semicircular opening of semicircle pipe is fixed to for example to be welded on the described furnace chamber sidewall and cools off described furnace chamber sidewall to feed fluid.Alternatively, the semicircle pipe circumferentially evenly and closely distributes along body of heater 100, so that better protection is carried out in the furnace wall.Alternatively, described semicircle pipe extends downwardly into the part of described shock chamber sidewall at least.
Be not submerged into when carrying out water-bath in the water coolant at described downtake 300, the coiling length of described semicircle pipe will extend to the part of described at least shock chamber sidewall always, to strengthen cooling performance.
According to the Low Voltage and Water-cooled wall vapourizing furnace of the utility model embodiment, adopt semicircle pipe water wall structure, compare with traditional spiral pipe, on thermomechanical property, do not have the difference of essence, but withstand voltage properties is better, weld seam is still less, and is safer.
Be formed with main import 130 at the top of body of heater 100, the bottom of body of heater is formed with slag-drip opening 140.Alternatively, 130 places are provided with main process burner 131 in main import, as shown in Figure 1, are used to feed for example coal water slurry of various reaction raw materials.Alternatively, the side wall upper part of body of heater 100 further forms a plurality of secondary oxygen jets 600, for example can be three.The part of extraneous oxygen for example 80%-100% enters furnace chamber by main process burner 131, coal water slurry enters furnace chamber from main process burner 131 simultaneously, the other part of oxygen enters vapourizing furnace by secondary oxygen jet 600 and carry out complicated redox reaction under about 1500 degrees centigrade high temperature 0.5MPaG, generation is the crude synthesis gas of main component with CO, H2, CO2, and produces lime-ash after the coal slurry fusion at high temperature.
As shown in Figure 1, body of heater 100 comprises first main body 101, top shell 102 and drain pan 103.First main body 101 is for vertically cylindrical.The top and the main import 130 of top shell 102 sealings first main body 101 are formed on the top shell 102, and wherein, top shell 102 can form arc as shown in fig. 1, also can form taper as shown in Figure 2.Bottom and its top that drain pan 103 is connected first main body 101 form down truncated cone shape.In an example of the present utility model, drain pan 103 also further comprises connection section 1031, second main body 1032 and end cap 1033.Connection section 1031 is for falling truncated cone shape, and second main body 1032 forms diameter vertically cylindrical less than first main body, 101 diameters, and the lower end of end cap 1033 sealings second main body 1032 and the bottom that slag-drip opening 140 is formed on end cap 1033 are to be used for discharging reacted residue in the body of heater.
Dividing plate 200 levels are located in the body of heater 100, and particularly, dividing plate 200 is and the adaptive disc of furnace diameter and the almost fixed middle part vertically in first main body 101.Dividing plate 200 will be separated into vaporizer 111 that is used for the gaseous combustion reaction and the shock chamber 112 that is positioned under the vaporizer 111 in the furnace chamber 110.On dividing plate 200, be provided with cinder notch 210, preferably, cinder notch 210 is formed on the central authorities of dividing plate 200, and dividing plate 200 210 upwards arches upward gradually from its neighboring to cinder notch, make the cinder notch place form accumulated slag, with the anti-slag of slag, and about 1500 ℃ high-temperature synthesis gas and lime-ash in the vaporizer 111 enter decrease temperature and pressure in the shock chamber 112 by cinder notch 210, and discharge body of heater.In the practical application, temperature is about 1500 ℃ in the vaporizer 111, and the temperature on 112 tops, shock chamber is about 100 ℃, and the effect of the dividing plate between vaporizer 111 and the shock chamber 112 mainly is to increase gas backmixing, improves efficiency of carbon conversion.
In an example of the present utility model, can be the water jacket form in the cinder notch 210, inner lining refractory is carbofrax material for example.Particularly, be formed with a plurality of entrance of cooling water 220 on the periphery of dividing plate 200 and for example be two, water coolant enters dividing plate 220 arrival cinder notch 210 edges from entrance of cooling water 220 and circulation flows away, so that the heat of slag is taken away by cooling water circulation.Alternatively, cinder notch 210 adopts antifriction metal (AFM)s to make, and installs wearing-resistant tile additional, compares with the cinder notch that traditional refractory brick forms, and maintenance is convenient, changes easily.
Be formed with air outlet 150 on the sidewall of the body of heater 100 of the close dividing plate 200 of shock chamber 112, the synthetic gas in shock chamber 112 after the decrease temperature and pressure is discharged body of heater from air outlet 150.On the side wall of furnace of the close furnace bottom of shock chamber 112, be formed with Heisui River outlet 170.
Downtake 300 is located at dividing plate 200 belows and is communicated with vaporizer 111 by cinder notch 210, and the lime-ash that forms after pyritous crude synthesis gas in the vaporizer 111 and the coal slurry fusion enters in the downtake 300 by cinder notch 210 jointly.Rising pipe box 400 is set in downtake 300 outsides, and the bottom of rising pipe box 400 is provided with water-in 410 and the top is provided with water outlet 420, water outlet 420 and 300 interior connections to feed chilled water in downtake 300 of downtake.Like this, chilled water enters the rising pipe box and moves upward from water-in 410, and directly spray from water outlet 420, thus, downtake 300 can by with rising pipe box 400 in the chilled water heat exchange to reduce temperature, thereby guarantee that downtake is unlikely to because of high temperature deformation even burns out, simultaneously, chilled water and the downtake 300 interior high-temperature synthesis gas that spray in the downtake 300 are carried out abundant heat exchange.Chilled water carries out stockpiling body of heater after the heat exchange with high-temperature synthesis gas in downtake 300, can further make the higher downtake 300 of temperature carry out water-bath in chilled water, to reduce temperature and to reduce infringement.At last, the high-temperature synthesis gas temperature is by about Quench to 100 degree centigrade, and discharges body of heater from air outlet 150, simultaneously, chilled water stockpiles in body of heater can pass through Heisui River outlet regulating liquid level, and promptly liquid level will be spilt into the body of heater outside above the part of Heisui River outlet 170.
In an embodiment of the present utility model, the water outlet of rising pipe box 400 420 for be formed on rising pipe box 400 tops, in downtake 300 annulus of side opening.Like this, because the water outlet of rising pipe box adopts the circumferential weld structure, the probability that this water outlet stops up is zero, and if contain dirty sheet in the buck, also can directly ejection from circumferential weld, and can not get lodged in wherein, thus work-ing life of rising pipe box and downtake prolonged.Alternatively, rising pipe box and downtake all adopt 304 materials, and cost significantly reduces and overhauls conveniently.In addition, owing to saved employed chilling ring in traditional manufacturing synthetic gas, greatly reduced the cost of investment of equipment.
Because the temperature in the shock chamber 112 is by below the chilled water Quench to 100 degree centigrade; therefore in an example of the present utility model; water wall 120 axially extends to dividing plate 200 belows from top to bottom along body of heater; be the top of shock chamber 112; but all-round protection is positioned at the furnace wall of vaporizer 111 thus, to prevent the distortion that Yin Gaowen causes even to burn out.
In an embodiment of the present utility model, Low Voltage and Water-cooled wall vapourizing furnace further comprises residual cake valve (figure does not show) and scum pipe 500.Residual cake valve is located at furnace chamber 110 bottoms, particularly, is arranged on the bottom, shock chamber.Scum pipe 500 is connected to slag-drip opening 140.Because the pressure according to the Low Voltage and Water-cooled wall vapourizing furnace of the utility model embodiment is lower, can directly discharge without pressure release.Therefore, when forming the bulk slag in the vapourizing furnace, for example cause owing to reasons such as furnace temperature fluctuation in the vapourizing furnace or coal replacings, the bulk slag will directly sink to the bottom of shock chamber, need regularly directly get rid of from scum pipe.
In another embodiment of the present utility model, Low Voltage and Water-cooled wall vapourizing furnace also further comprises twice scum pipe valve (figure does not show), twice scum pipe valve is located on the scum pipe 500 successively, the effect of similar lock hopper is arranged, when the needs deslagging, twice scum pipe valve is opened simultaneously just and can directly be discharged.
According to the Low Voltage and Water-cooled wall vapourizing furnace of the utility model embodiment, adopt no lock hopper deslagging form, can make flow process simpler on the one hand, handled easily on the other hand, has reduced the dregs breaker and the lock hopper system that need in traditional vapourizing furnace, reduced the height of gasification frame, invested lower.
Below with reference to the working process of Fig. 1-Fig. 3 description according to the Low Voltage and Water-cooled wall vapourizing furnace of the utility model embodiment.
At first, coal water slurry is sent to the main import 130 at body of heater top by high-pressure coal pulp pump and enters in the furnace chamber, and the part of extraneous oxygen for example 80%-100% enters furnace chamber by main process burner 131, and a part enters in the furnace chamber by secondary oxygen jet 600 in addition.Coal slurry, oxygen G﹠W etc. in vaporizer 111 1500 degrees centigrade high temperature and the pressure condition of normal pressure~1.6MPa under complicated redox reaction takes place, generation is the crude synthesis gas of main component with CO, H2, CO2, produces lime-ash after the coal slurry fusion at high temperature.
Pyritous crude synthesis gas and lime-ash in the vaporizer 111 enter in the downtake 300 by cinder notch 210.Simultaneously, chilled water enters the rising pipe box 400 and moves upward to carry out downtake 300 coolings that heat exchange makes with downtake 300 from the water-in 410 of rising pipe box 400, directly sprays from water outlet 420 then, enters into downtake 300 inside.Chilled water and the downtake 300 interior high-temperature synthesis gas that spray in the downtake 300 are carried out abundant heat exchange.
Chilled water carries out stockpiling body of heater after the heat exchange with high-temperature synthesis gas in downtake 300, can further make the higher downtake 300 of temperature in chilled water, carry out water-bath, to reduce temperature and to reduce infringement, the part that the liquid level of the chilled water that stockpiles in body of heater simultaneously, surpasses Heisui River outlet 170 will be spilt into the body of heater outside.
At last, the high-temperature synthesis gas temperature is by about Quench to 100 degree centigrade, and discharges body of heater from air outlet 150, to wash in the synthesis gas washing step of carrying out next step.
In the description of this specification sheets, concrete feature, structure, material or characteristics that the description of reference term " embodiment ", " some embodiment ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means in conjunction with this embodiment or example description are contained at least one embodiment of the present utility model or the example.In this manual, the schematic statement to above-mentioned term not necessarily refers to identical embodiment or example.And concrete feature, structure, material or the characteristics of description can be with the suitable manner combination in any one or more embodiment or example.
Although illustrated and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: can carry out multiple variation, modification, replacement and modification to these embodiment under the situation that does not break away from principle of the present utility model and aim, scope of the present utility model is limited by claim and equivalent thereof.
Claims (13)
1. a Low Voltage and Water-cooled wall vapourizing furnace is characterized in that, comprising:
Be limited with the body of heater of furnace chamber, described furnace chamber sidewall is provided with water wall, and the top of described body of heater is formed with main import, and the bottom is formed with slag-drip opening;
Be formed with the dividing plate of cinder notch, described dividing plate level is located in the described body of heater and with described furnace chamber and is separated into vaporizer and the shock chamber that is positioned under the described vaporizer;
Downtake, described downtake are located at described dividing plate below and are communicated with described vaporizer by described cinder notch; And
Rising pipe box, described upcast cover are set in the described downtake outside, and the bottom of described rising pipe box is provided with water-in and the top is provided with water outlet, and described water outlet and described downtake internal communication are to feed chilled water in described downtake;
Wherein, described shock chamber, near being formed with the air outlet on the side wall of furnace of dividing plate, and on the sidewall of close the furnace bottom of shock chamber, be formed with Heisui River and export.
2. Low Voltage and Water-cooled wall vapourizing furnace according to claim 1 is characterized in that described body of heater comprises:
First main body, described first main body is for vertically cylindrical;
Top and described main import that top shell, described top shell seal described first main body are formed on the shell of top; And
Bottom and its top that drain pan, described drain pan are connected described first main body form down truncated cone shape, and described slag-drip opening is formed on the bottom of described drain pan;
Wherein said dividing plate almost fixed is at the middle part vertically of described first main body.
3. Low Voltage and Water-cooled wall vapourizing furnace according to claim 2 it is characterized in that described cinder notch is located at the central authorities of described dividing plate, and described dividing plate arches upward upwards gradually to cinder notch from its neighboring.
4. Low Voltage and Water-cooled wall vapourizing furnace according to claim 3 is characterized in that, is formed with a plurality of cooling water inlets on the periphery of described dividing plate.
5. Low Voltage and Water-cooled wall vapourizing furnace according to claim 2 is characterized in that, further comprises:
Residual cake valve, described residual cake valve are located at described furnace chamber bottom; And
Scum pipe, described scum pipe is connected to described slag-drip opening.
6. Low Voltage and Water-cooled wall vapourizing furnace according to claim 5 is characterized in that, further comprises twice scum pipe valve, and described twice scum pipe valve is located on the described scum pipe successively.
7. Low Voltage and Water-cooled wall vapourizing furnace according to claim 1 is characterized in that, described water wall is the semicircle pipe that is coiled on the furnace chamber sidewall, and the described semicircle seal of tube be connected to the furnace chamber sidewall, cool off described furnace chamber sidewall to feed fluid.
8. Low Voltage and Water-cooled wall vapourizing furnace according to claim 7 is characterized in that described semicircle pipe is wound to the part of described shock chamber sidewall at least.
9. Low Voltage and Water-cooled wall vapourizing furnace according to claim 1, it is characterized in that, described water wall is along the axially extended semicircle pipe of body of heater, and described semicircle pipe circumferentially distributes and described semicircle seal of tube ground is connected to the furnace chamber sidewall along described body of heater, cools off described furnace chamber sidewall with the feeding fluid.
10. Low Voltage and Water-cooled wall vapourizing furnace according to claim 9 is characterized in that described semicircle pipe extends downwardly into the part of described shock chamber sidewall at least.
11., it is characterized in that described semicircle sealing of tube is on described furnace chamber sidewall according to claim 7 or 9 described Low Voltage and Water-cooled wall vapourizing furnaces.
12. Low Voltage and Water-cooled wall vapourizing furnace according to claim 1 is characterized in that, the water outlet of described rising pipe box be formed on described rising pipe box top, in downtake the annulus of side opening.
13. Low Voltage and Water-cooled wall vapourizing furnace according to claim 1 is characterized in that, the side wall upper part of vaporizer further forms a plurality of secondary oxygen jets.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2011200105217U CN201923986U (en) | 2011-01-13 | 2011-01-13 | Low-pressure water-wall gasifying furnace |
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| Application Number | Priority Date | Filing Date | Title |
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| CN2011200105217U CN201923986U (en) | 2011-01-13 | 2011-01-13 | Low-pressure water-wall gasifying furnace |
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| CN201923986U true CN201923986U (en) | 2011-08-10 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102634378A (en) * | 2012-04-25 | 2012-08-15 | 神华集团有限责任公司 | Gasification furnace and chilling chamber thereof |
-
2011
- 2011-01-13 CN CN2011200105217U patent/CN201923986U/en not_active Expired - Lifetime
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102634378A (en) * | 2012-04-25 | 2012-08-15 | 神华集团有限责任公司 | Gasification furnace and chilling chamber thereof |
| CN102634378B (en) * | 2012-04-25 | 2014-12-24 | 神华集团有限责任公司 | Gasification furnace and chilling chamber thereof |
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