CN105950199A

CN105950199A - Powder coal pyrolysis dedusting system with built-in granular bed

Info

Publication number: CN105950199A
Application number: CN201610453628.6A
Authority: CN
Inventors: 陈水渺; 肖磊; 薛逊; 姜朝兴; 吴道洪
Original assignee: Beijing Shenwu Environmental and Energy Technology Co Ltd
Current assignee: Beijing Shenwu Environmental and Energy Technology Co Ltd
Priority date: 2016-06-22
Filing date: 2016-06-22
Publication date: 2016-09-21

Abstract

The invention belongs to the field of coal graded gradient utilization, and mainly relates to a dedusting system in a powder coal pyrolysis process. In order to overcome the defects in the prior art, the invention designs and develops a powder coal pyrolysis dedusting system with a built-in granular bed. By combining the characteristics of the reactor, the built-in granular bed is utilized to perform dedusting treatment on pyrolysis gas; and by using the pyrolysis semicoke as a filter material, the used filter material can be easily regenerated, thereby efficiently solving the problem of dedusting of powder coal pyrolysis gas at low cost.

Description

A kind of pulverized coal pyrolysis dust pelletizing system of built-in grain bed

Technical field

The invention belongs to coal sub-prime cascade utilization field, relates generally to the dust pelletizing system during a kind of pulverized coal pyrolysis.

Background technology

Low-order coal sub-prime cascade utilization is the key areas of China 13 Coal Chemical Industry, especially for China's substantial amounts of low order fine coal, the most effectively utilizes the emphasis becoming research.Taking pyrolytic technique that low-order coal oil gas is taken out, remaining semicoke goes generating or again as gasified raw material, contrasts with Coal Gasification Technology, invests little, and water consumption is low, is the Technology Ways that efficiently utilizes of the Coal Clean that China advocates.But during pulverized coal pyrolysis, pyrolysis gas carries substantial amounts of dust granules, the high temperature ON-LINE SEPARATION being pyrolyzed coke breeze and pyrolysis oil gas during pulverized coal pyrolysis is one of main difficult technical of running into of this technique.Fine coal in, in Low Temperature Pyrolysis Process produce the phase transformation high, easy of dust-laden pyrolysis gas temperature.Pyrolysis coke breeze and pyrolysis oil-gas high-temperature ON-LINE SEPARATION effect are undesirable, ultimately result in the solid content in coal tar higher, and oil quality is poor, it is impossible to meet the quality index of the further deep processing of coal tar.At present, the pyrolytic technique of fine coal mainly has granule dedusting filter and pyrolysis gas dust arrester etc..But, the shortcomings such as the pulverized coal pyrolysis coke breeze and the pyrolysis oil-gas component that obtain through pyrolytic technique are extremely complex, solid content in coal tar is higher, oil quality is poor make it be difficult to directly utilize and store, it is difficult to industrial applications.During pulverized coal pyrolysis, the dedusting technology of dust-laden pyrolysis gas and the developmental research of key equipment, have become as one of low temperature pyrogenation field problem the most leaved for development in coal.

Summary of the invention

The present invention is directed to the deficiencies in the prior art, design and develop the pulverized coal pyrolysis dust pelletizing system of a kind of built-in grain bed, the feature of binding reactor of the present invention itself, use built-in grain bed that pyrolysis gas is carried out dust removal process, and utilize pyrolysis char as filter material, the filter material used easily regenerates such that it is able to low cost, a dedusting difficult problem for high efficiency solution pulverized coal pyrolysis gas.

For solving above-mentioned technical problem, the technical solution used in the present invention is:

The invention provides a kind of pulverized coal pyrolysis dust pelletizing system, including: pyrolysis reactor and grain bed, described grain bed is arranged in described pyrolysis reactor, it is positioned at described pyrolysis reactor bottom and is fixedly connected on the sidewall of described pyrolysis reactor, and being arranged in the front end of the pyrolysis gas outlet of described pyrolysis reactor；Wherein: described grain bed includes loading head, inlet end, outlet side and bottom discharging opening; described loading head is obliquely installed in the top of described grain bed; the upper end of described loading head is connected with the sidewall of described pyrolysis reactor; the lower end of described loading head is connected with described outlet side, and the semicoke granule for described pyrolysis reactor is produced collects in the described grain bed of inflow；Described inlet end is air inlet grid plate structure, described air inlet grid plate structure includes air inlet grid plate and multiple first deflection plate, one end of described first deflection plate is connected with described air inlet grid plate, the other end extends as free end along direction, lower right, interval between the free end of adjacent described first deflection plate forms the opening of described air inlet grid plate so that the baffling that the opening part at described air inlet grid plate is formed flows toward direction, lower right；Described outlet side is grid plate structure of giving vent to anger, described grid plate structure of giving vent to anger includes give vent to anger screen and multiple second deflection plate, one end of described second deflection plate is connected with described screen of giving vent to anger, the other end extends as free end along direction, lower left, the opening being spaced described in formation screen of giving vent to anger between the free end of adjacent described second deflection plate so that the baffling that the opening part at described screen of giving vent to anger is formed flows toward direction, upper right side.

According to embodiments of the invention, described first deflection plate is 15-60 degree with the angle of vertical curve；Described second deflection plate is 15-60 degree with the angle of vertical curve.

According to embodiments of the invention, described grain bed is plate armature, and described loading head is collection flitch.

According to embodiments of the invention, in the discharging semicoke of the discharge system that the bottom discharging opening of described grain bed inserts described pyrolysis gas reactor.

According to embodiments of the invention, control the translational speed of semicoke granule in described grain bed by described pyrolysis reactor load.

According to embodiments of the invention, pyrolysis gas is 0.05-0.5m/s through the flow velocity of described air inlet grid plate structure and described grid plate structure of giving vent to anger, and the spacing of described inlet end and described outlet side is 50-300mm.

According to embodiments of the invention, described pyrolysis reactor includes: charging aperture, pyrolysis gas outlet, discharging opening and heat accumulation type radiant tube, described charging aperture is arranged on the roof of described pyrolysis reactor, described pyrolysis gas outlet is arranged on the sidewall of described pyrolysis chamber, described heat accumulation type radiant tube is along the short transverse multi-tier arrangement of described reactor, and every layer has the many described heat accumulation type radiant tubes arranged in the horizontal direction.

In another aspect of the present invention, the invention provides a kind of method utilizing foregoing pulverized coal pyrolysis dust pelletizing system to carry out pulverized coal pyrolysis dedusting.According to embodiments of the invention, the method comprises the following steps:

A. fine coal is joined in described pyrolysis reactor by charging aperture, in described pyrolysis reactor, complete pyrolytic process；

B. it is pyrolyzed the semicoke granule of generation, enters described grain bed by described loading head and pile up, be used for filtering；

C. the pyrolysis gas being pyrolyzed generation enters described grain bed from described inlet end, and described pyrolysis gas is carried out dust removal process；

D. the pyrolysis gas of removing dust is through described outlet side out, is then discharged by the pyrolysis gas outlet of described pyrolysis reactor.

According to embodiments of the invention, the semicoke granule in described grain bed in described step b enters described pyrolysis reactor by the bottom discharging opening of described grain bed, then discharged by the discharging opening of described pyrolysis reactor, and the translational speed of semicoke granule in described grain bed can be controlled by the load of described pyrolysis reactor.

The beneficial effects of the present invention is:

(1) the pulverized coal pyrolysis dust pelletizing system that the present invention provides has resistant to elevated temperatures advantage, it is possible to normally work under the high temperature of 500～600 DEG C；

(2) the pulverized coal pyrolysis dust pelletizing system that the present invention provides has good heat insulation effect and corrosion resistance, condensable gases in pyrolysis gas can be effectively prevented to cause it to be attached on cleaner owing to variations in temperature generates the tar in dust, thus, it is possible to be effectively prevented from that acceleration equipment under the high temperature conditions is aging even makes it ineffective；

(3) the pyrolysis gas time of staying in cleaner unit in the pulverized coal pyrolysis dust pelletizing system that the present invention provides is short, the dust carried secretly in pyrolysis gas can be removed within the shortest time, effectively prevent pyrolysis gas and the side reactions such as second pyrolysis occur in cleaner, it is ensured that tar quality；

(4) feature of the pulverized coal pyrolysis dust pelletizing system binding reactor itself that the present invention provides, use built-in grain bed that pyrolysis gas is carried out dust removal process, and utilize pyrolysis char as filter material, the filter material used easily regenerates such that it is able to low cost, a dedusting difficult problem for high efficiency solution pulverized coal pyrolysis gas.

Accompanying drawing explanation

Fig. 1 is the structure chart of pulverized coal pyrolysis dust pelletizing system of the present invention.

Fig. 2 is the structure chart of grain bed of the present invention.

Wherein, 1, charging aperture, 2, pyrolysis reactor, 3, heat accumulation type radiant tube, 4, grain bed, 41, loading head, 42, inlet end, 43, outlet side, 44, bottom discharging opening, 45, air inlet grid plate, 46, the first deflection plate, 47, screen of giving vent to anger, the 48, second deflection plate, 5, pyrolysis gas outlet, 6, discharging opening.

Detailed description of the invention

Embodiments of the invention are described below in detail, and the example of described embodiment is shown in the drawings, and the most same or similar label represents same or similar element or has the element of same or like function.The embodiment described below with reference to accompanying drawing is exemplary, is only used for explaining the present invention, and is not considered as limiting the invention.

In describing the invention, it will be appreciated that, term " on ", D score, "left", "right", " interior ", the orientation of the instruction such as " outward " or position relationship be based on orientation shown in the drawings or position relationship, it is for only for ease of the description present invention and simplifies description, rather than instruction or hint indication device or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention.Additionally, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include one or more this feature.In describing the invention, except as otherwise noted, " multiple " are meant that two or more.

In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " is installed ", " being connected ", " connection " should be interpreted broadly, and connects for example, it may be fixing, it is also possible to be to removably connect, or be integrally connected；Can be to be mechanically connected, it is also possible to be a connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be the connection of two element internals.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood with concrete condition.

According to an aspect of the present invention, the invention provides the pulverized coal pyrolysis dust pelletizing system of a kind of built-in grain bed, Fig. 1 is the structure chart of pulverized coal pyrolysis dust pelletizing system of the present invention.As shown in Figure 1, the pulverized coal pyrolysis dust pelletizing system of this built-in grain bed includes: pyrolysis reactor 2 and grain bed 4, described grain bed is arranged in described pyrolysis reactor, it is positioned at described pyrolysis reactor bottom and is fixedly connected on the sidewall of described pyrolysis reactor, and being arranged in the front end of the pyrolysis gas outlet 5 of described pyrolysis reactor；Wherein: described grain bed includes loading head 41, inlet end 42, outlet side 43 and bottom discharging opening 44; described loading head is obliquely installed in the top of described grain bed; the upper end of described loading head is connected with the sidewall of described pyrolysis reactor; the lower end of described loading head is connected with described outlet side, and the semicoke granule for described pyrolysis reactor is produced collects in the described grain bed of inflow；Described inlet end is air inlet grid plate structure, described air inlet grid plate structure includes air inlet grid plate 45 and multiple first deflection plate 46, one end of described first deflection plate is connected with described air inlet grid plate, the other end extends as free end along direction, lower right, interval between the free end of adjacent described first deflection plate forms the opening of described air inlet grid plate so that the baffling that the opening part at described air inlet grid plate is formed flows toward direction, lower right；Described outlet side is grid plate structure of giving vent to anger, described grid plate structure of giving vent to anger includes give vent to anger screen 47 and multiple second deflection plate 48, one end of described second deflection plate is connected with described screen of giving vent to anger, the other end extends as free end along direction, lower left, the opening being spaced described in formation screen of giving vent to anger between the free end of adjacent described second deflection plate so that the baffling that the opening part at described screen of giving vent to anger is formed flows toward direction, upper right side.

According to a particular embodiment of the invention, this grain bed profile and " fixing connected mode " with described pyrolytic reaction implement body thereof are not particularly limited, as long as ensureing that what grain bed can be stable is connected in pyrolysis reactor.Preferably, described grain bed profile can be body structure, and before and after this body structure, sidewall extends along the inner chamber of pyrolysis reactor, and the two ends of described front-rear side walls sidewall weld with reactor respectively is fixed.Thus, native system utilizes in pyrolysis reactor and pyrolytic process using the hot semicoke that produces as in the way of the grain bed combination of filter material, solves the problem that pyrolysis gas dedusting is difficult during pulverized coal pyrolysis.

The inventors discovered that, the pulverized coal pyrolysis dust pelletizing system of a kind of built-in grain bed in the present invention, feature by binding reactor itself, use built-in grain bed that pyrolysis gas is carried out dust removal process, and utilize pyrolysis char as filter material, the filter material used easily regenerates such that it is able to low cost, a dedusting difficult problem for high efficiency solution pulverized coal pyrolysis gas.

According to embodiments of the invention, it is adaptable to the described pyrolysis reactor of the pulverized coal pyrolysis dust pelletizing system of this built-in grain bed includes: charging aperture 1, pyrolysis gas outlet 5, discharging opening 6 and heat accumulation type radiant tube 3.Described charging aperture is arranged on the roof of described pyrolysis reactor, for being joined in pyrolysis reactor by material.Described discharging opening is arranged on the diapire of described pyrolysis reactor, for being discharged by the semicoke granule that pyrolysis reactor produces.Described pyrolysis gas outlet is arranged on the sidewall of described pyrolysis chamber, and fixing with described grain bed is connected, for by the pyrolysis gas discharge pyrolysis reactor after grain bed dedusting.Described heat accumulation type radiant tube is along the short transverse multi-tier arrangement of described reactor, and every layer has the many described heat accumulation type radiant tubes arranged in the horizontal direction, is used for heating pyrolysis reactor, can break up the material added from charging aperture so that it is mix homogeneously simultaneously.Raw material enters from the upper feed inlet of pyrolysis reactor, utilizes descending from gravity, is heated by radial canal, pyrolytic reaction occurs, discharges pyrolysis gas and semicoke.

According to embodiments of the invention, it is adaptable to material, the connected mode of described first deflection plate of the pulverized coal pyrolysis dust pelletizing system of this built-in grain bed and arrange orientation and be not particularly limited, as long as pyrolysis gas can be made to enter grain bed.According to some specific embodiments, described first deflection plate can be resistant to elevated temperatures material, it is preferred that for steel plate；One end of described first deflection plate can be in the way of using fixing connection with described air inlet grid plate, it is preferred that for welding；The other end of described first deflection plate the lower right any direction that orientation can be described air inlet grid plate is set, it is preferred that the angle of described first deflection plate and vertical curve is 15-60 degree.Thus, it is possible to ensure pyrolysis reactor produce pyrolysis gas can baffling, along direction, lower right flow into grain bed.

According to embodiments of the invention, it is adaptable to material, the connected mode of described second deflection plate of the pulverized coal pyrolysis dust pelletizing system of this built-in grain bed and arrange orientation and be not particularly limited, as long as the pyrolysis gas after dedusting can be made to discharge grain bed.According to some specific embodiments, described second deflection plate can be resistant to elevated temperatures material, it is preferred that for steel plate；One end of described second deflection plate can be in the way of using fixing connection with described screen of giving vent to anger, it is preferred that for welding；The other end of described second deflection plate arrange orientation can be described in give vent to anger the lower left any direction of screen, it is preferred that described second deflection plate is 15-60 degree with the angle of vertical curve.Thus, it is possible in guarantee grain bed through dedusting pyrolysis gas can baffling, along direction, upper right side flow out grain bed.

According to embodiments of the invention, it is adaptable to concrete shape and the fixing connected mode of the described grain bed of the pulverized coal pyrolysis dust pelletizing system of this built-in grain bed are not particularly limited, as long as the sidewall within pyrolysis reactor can be fixedly connected on.According to some specific embodiments, the concrete shape of described grain bed can be plate armature or body structure, it is preferred that for plate armature；Described grain bed can weld with the fixing connected mode of described pyrolysis reactor.

According to embodiments of the invention, it is adaptable to material and the shape of the described loading head of the pulverized coal pyrolysis dust pelletizing system of this built-in grain bed are not particularly limited, as long as the semicoke granule that pyrolysis reactor produces can be collected in inflow grain bed.According to some specific embodiments, the material of described loading head can be resistant to elevated temperatures material, such as steel plate, iron plate etc.；The shape of described loading head can be tabular or discoid, it is preferred that for collection flitch.Thus, it is possible to ensure that the semicoke granule that pyrolysis reactor produces can be collected in entrance grain bed to a greater extent.

According to embodiments of the invention, the discharging semicoke of the discharge system being inserted into described pyrolysis gas reactor be applicable to the bottom discharging opening of the described grain bed of the pulverized coal pyrolysis dust pelletizing system of this built-in grain bed, for the semicoke granule in grain bed is discharged, and it is possible to control the translational speed of semicoke granule in described grain bed by described pyrolysis reactor load.

According to embodiments of the invention, the screen split shed area of the described air inlet grid plate structure and described grid plate structure of giving vent to anger that are applicable to the pulverized coal pyrolysis dust pelletizing system of this built-in grain bed is not particularly limited, as long as ensure that pyrolysis gas is through described air inlet grid plate structure and the flow velocity of described grid plate structure of giving vent to anger.According to some specific embodiments, pyrolysis gas can be 0.05-0.5m/s through the flow velocity of described air inlet grid plate structure and described grid plate structure of giving vent to anger.Further, the spacing of described inlet end and described outlet side can be 50-300mm, ensures pyrolysis gas dust removing effects, and the furnace pressure of pyrolysis reactor will not be the highest simultaneously.

According to another aspect of the present invention, present invention also offers a kind of method that pulverized coal pyrolysis dust pelletizing system utilizing foregoing built-in grain bed carries out pulverized coal pyrolysis dedusting.According to embodiments of the invention, the method comprises the following steps:

A. fine coal is joined in described pyrolysis reactor by charging aperture, in described pyrolysis reactor, complete pyrolytic process.According to embodiments of the invention, described fine coal enters in described pyrolysis reactor by described charging aperture, and after described heat accumulation type radiant tube heats, heated fine coal occurs pyrolytic reaction in pyrolysis reactor, produces pyrolysis gas and semicoke granule.

B. it is pyrolyzed the semicoke granule of generation, enters described grain bed by described loading head and pile up, be used for filtering.According to embodiments of the invention, the semicoke granule that described pyrolysis reactor produces collects through the loading head of described grain bed, is flowed into described grain bed, and piles up in described grain bed, for the pyrolysis gas in described grain bed is carried out dust removal and filtration.Semicoke granule in described grain bed gradually moves down along described grain bed, described pyrolysis reactor is entered by the bottom discharging opening of described grain bed, then discharged by the discharging opening of described pyrolysis reactor, and the translational speed of semicoke granule in described grain bed can be controlled by the load of described pyrolysis reactor.

C. the pyrolysis gas being pyrolyzed generation enters described grain bed from described inlet end, and described pyrolysis gas is carried out dust removal process.Described grain bed is plate armature, mainly include loading head, inlet end, outlet side and bottom discharging opening, wherein, described inlet end is air inlet grid plate structure, described air inlet grid plate structure includes air inlet grid plate and multiple first deflection plate, one end of described first deflection plate is connected with described air inlet grid plate, the other end extends as free end along direction, lower right, described first deflection plate and vertical line angle are 15-60 degree, interval between the free end of adjacent described first deflection plate forms the opening of described air inlet grid plate, the baffling formed at the opening part of described air inlet grid plate is flowed toward direction, lower right；Described outlet side is grid plate structure of giving vent to anger, described grid plate structure of giving vent to anger includes give vent to anger screen and multiple second deflection plate, one end of described second deflection plate is connected with described screen of giving vent to anger, the other end extends as free end along direction, lower left, described second deflection plate is 15-60 degree with the angle of vertical line, the opening being spaced described in formation screen of giving vent to anger between the free end of adjacent described second deflection plate so that the baffling that the opening part at described screen of giving vent to anger is formed flows toward direction, upper right side.Described pyrolysis gas is 0.05-0.5m/s through the flow velocity of described air inlet grid plate structure and described grid plate structure of giving vent to anger, and the spacing of described inlet end and described outlet side is 50-300mm.The bottom discharging opening of grain bed inserts the discharge end of pyrolysis gas reactor, the high-temperature semi-coke produced in pyrolytic process is entered in grain bed by loading head piles up, and the translational speed of grain bed is controlled by pyrolysis reactor load, dust-laden pyrolysis gas enters from the inlet end of grain bed, after semicoke particle filtering, obtain dedusting pyrolysis gas.Wherein, described pyrolysis gas is deflected in described grain bed via the inlet end of described grain bed with the flow velocity of 0.05-0.5m/s, dust removal and filtration process is carried out by the semicoke granule in described grain bed, then discharge via the outlet side of described grain bed with the flow velocity of 0.05-0.5m/s, obtain the pyrolysis gas after dedusting.

Embodiment 1

Utilize pyrolytic reaction system that Australia's brown coal are processed, add grain bed dedusting and only take the contrast of cyclone dust extractor to be shown in Table 1.

Table 1: Australia's brown coal pyrolysis processing dedusting contrast

Sequence number	Pyrolysis gas dedusting method	Dustiness after dedusting
			1	Cyclone dust removal	125mg/Nm³
2	Grain bed dedusting	42mg/Nm³

Embodiment 2

Utilize pyrolytic reaction system that Indonesia's brown coal are processed, add grain bed dedusting and only take the contrast of cyclone dust extractor to be shown in Table 2.

Table 2: Indonesia's brown coal pyrolysis processing dedusting contrast

Sequence number	Pyrolysis gas dedusting method	Dustiness after dedusting
			1	Cyclone dust removal	132mg/Nm³
2	Grain bed dedusting	38mg/Nm³

The pulverized coal pyrolysis dust pelletizing system of built-in grain bed that the present invention provides have high temperature resistant, heat insulation effect good and the advantage of corrosion resistance, normally can work under the high temperature of 500～600 DEG C, and in prevention pyrolysis gas, condensable gases causes it to be attached on cleaner owing to variations in temperature generates the tar in dust effectively, thus, it is possible to be effectively prevented from that acceleration equipment under the high temperature conditions is aging even makes it ineffective.And, pyrolysis gas time of staying in grain bed in the pulverized coal pyrolysis dust pelletizing system of the built-in grain bed that the present invention provides is short, the dust carried secretly in pyrolysis gas can be removed within the shortest time, effectively prevent pyrolysis gas and the side reactions such as second pyrolysis occur in cleaner, it is ensured that tar quality；Further, by the feature of binding reactor itself, use built-in grain bed that pyrolysis gas carries out dust removal process, and utilize pyrolysis char easily to regenerate as filter material, the filter material used such that it is able to low cost, a dedusting difficult problem for high efficiency solution pulverized coal pyrolysis gas.

In the description of this specification, the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means that the specific features, structure, material or the feature that combine this embodiment or example description are contained at least one embodiment or the example of the present invention.In this manual, the schematic representation to above-mentioned term is not necessarily referring to identical embodiment or example.And, the specific features of description, structure, material or feature can combine in any one or more embodiments or example in an appropriate manner.Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that: these embodiments can carry out in the case of without departing from the principle of the present invention and objective multiple change, revise, replace and modification, the scope of the present invention is limited by claim and equivalent thereof.

Claims

1. a pulverized coal pyrolysis dust pelletizing system, it is characterized in that, including: pyrolysis reactor and grain bed, described grain bed is arranged in described pyrolysis reactor, it is positioned at described pyrolysis reactor bottom and is fixedly connected on the sidewall of described pyrolysis reactor, and being arranged in the front end of the pyrolysis gas outlet of described pyrolysis reactor；Wherein:

Described grain bed includes loading head, inlet end, outlet side and bottom discharging opening; described loading head is obliquely installed in the top of described grain bed; the upper end of described loading head is connected with the sidewall of described pyrolysis reactor; the lower end of described loading head is connected with described outlet side, and the semicoke granule for described pyrolysis reactor is produced collects in the described grain bed of inflow；Described inlet end is air inlet grid plate structure, described air inlet grid plate structure includes air inlet grid plate and multiple first deflection plate, one end of described first deflection plate is connected with described air inlet grid plate, the other end extends as free end along direction, lower right, interval between the free end of adjacent described first deflection plate forms the opening of described air inlet grid plate so that the baffling that the opening part at described air inlet grid plate is formed flows toward direction, lower right；Described outlet side is grid plate structure of giving vent to anger, described grid plate structure of giving vent to anger includes give vent to anger screen and multiple second deflection plate, one end of described second deflection plate is connected with described screen of giving vent to anger, the other end extends as free end along direction, lower left, the opening being spaced described in formation screen of giving vent to anger between the free end of adjacent described second deflection plate so that the baffling that the opening part at described screen of giving vent to anger is formed flows toward direction, upper right side.

2. pulverized coal pyrolysis dust pelletizing system as described in claim 1, it is characterised in that described first deflection plate is 15-60 degree with the angle of vertical curve, and described second deflection plate is 15-60 degree with the angle of vertical curve.

3. pulverized coal pyrolysis dust pelletizing system as described in claim 1, it is characterised in that described grain bed is plate armature, described loading head is collection flitch.

4. according to the pulverized coal pyrolysis dust pelletizing system according to any one of claim 1-3, it is characterised in that in the discharging semicoke of the discharge system that the bottom discharging opening of described grain bed inserts described pyrolysis gas reactor.

5. according to the pulverized coal pyrolysis dust pelletizing system according to any one of claim 1-3, it is characterised in that control the translational speed of semicoke granule in described grain bed by described pyrolysis reactor load.

6. the pulverized coal pyrolysis dust pelletizing system as according to any one of claim 1-3, it is characterised in that pyrolysis gas is 0.05-0.5m/s through the flow velocity of described air inlet grid plate structure and described grid plate structure of giving vent to anger, and the spacing of described inlet end and described outlet side is 50-300mm.

7. according to the pulverized coal pyrolysis dust pelletizing system according to any one of claim 1-3, it is characterized in that: described pyrolysis reactor includes: charging aperture, pyrolysis gas outlet, discharging opening and heat accumulation type radiant tube, described charging aperture is arranged on the roof of described pyrolysis reactor, described pyrolysis gas outlet is arranged on the sidewall of described pyrolysis chamber, described heat accumulation type radiant tube is along the short transverse multi-tier arrangement of described reactor, and every layer has the many described heat accumulation type radiant tubes arranged in the horizontal direction.

8. the method that the pulverized coal pyrolysis dust pelletizing system that a kind utilizes according to any one of claim 1-7 carries out pulverized coal pyrolysis dedusting, it is characterised in that comprise the following steps:

9. method as described in claim 8, it is characterized in that, the semicoke granule in described grain bed in described step b enters described pyrolysis reactor by the bottom discharging opening of described grain bed, then discharged by the discharging opening of described pyrolysis reactor, and the translational speed of semicoke granule in described grain bed can be controlled by the load of described pyrolysis reactor.