DE10149953A1 - Heating boiler for fuel in individual elements, especially pellets, has worm feed rising in feed direction; delivery end of worm housing opens into fuel holder floor with air inlets to sides - Google Patents

Abstract

The device has a burner in a combustion chamber in the form of a fuel holder (8) open at the top, for connection to a primary air feed and supplied with fuel from below by a worm feed (5) that rises in the feed direction. The delivery end (7) of the worm housing (6) opens into the floor (14) of the fuel holder, which has air inlets on both sides of the opening.

Description

The invention relates to a boiler for particulate fuel, in particular special pellets, with a burner provided in a combustion chamber, which consists of a fuel that can be connected to a primary air supply and is open at the top Assumption exists, from below via a conveyor mounted in a housing screw can be loaded with the fuel.

In boilers for lumpy fuel it is known (AT 402 850 B), in one Provide a pot-like burner in the combustion chamber, in which a hori Central conveyor screw for the fuel that flows through the burner pot formed riser is promoted upwards and in the area of the pot opening forms an ember stick. By replenishing fuel to the extent of Burning up a substantially constant embers stick is obtained, whereby the ashes formed over the rim of the burner into one below the burner designated ash room is separated. The primary air for the cremation voltage is supplied through the burner pot. You can also use the burner pot an upwardly widening, ring-shaped attachment is attached, the is double-walled and in the extended area passage openings for Has secondary air, with whose help a complete burnout of the fuel should be ensured. Favorable combustion conditions can only be complied with if one is due to the fuel supply False air supply can be prevented. This presupposes that the fuel is sufficiently compacted in the area of the screw conveyor, which is despite the  Providing baffle plates in the area of the burner pot is imperfect succeed. In addition, the compression of the fuel in Shaft of the burner pot higher friction losses can be accepted need and the burning conditions compared to a loosened Fuel stocks are deteriorating. In addition, the ring-shaped Secondary air supplied displaced from the flue gases to the outside, see above that the turbulence with the flue gases remains poor.

The invention is therefore based on the object, a boiler for piece To design fuel, especially pellets, so that an advantageous ver combustion of the fuel with a comparatively low construction wall can be ensured.

The invention solves this problem in that the screw conveyor in Direction of conveyance increases, which extends beyond the screw conveyor End of discharge of the screw housing in the bottom of the cup-like fuel Recording opens and that in the fuel intake on both long sides of the a pronounced longitudinal extension of the mouth of the Screw housing through openings for the primary air are provided.

The lumpy, free-flowing fuel is compressed in the screw housing due to gravity, see above that the risk of supplying false air largely via the screw conveyor can be closed. The desired Ver in the area of the screw conveyor However, the fuel seal does not affect the burn-up because the Mouth opening of the snail shell in the bottom of the cup-like burner material absorption compared to the cross section of the screw housing considerably expanded, so that in the area of cup-like fuel intake Loosening of the fuel delivered results. Because of the confluence of a screw housing rising in the conveying direction in the horizontal Bottom of the cup-like fuel intake, the mouth of the Schnec kengehäuses has a pronounced longitudinal extent in the conveying direction, results in a fuel dependent on the shape of this mouth opening  division in the cup-like fuel intake with a stretched ember bed, which the primary air advantageously by on both long sides of the mouth opening provided through openings in the fuel intake corresponding ver shares can be fed.

The conveyor screw, which rises in the direction of conveyance, also causes a infeed end of the worm gear lower than the discharge end house, which has the additional advantage that the upstream Be storage device can be connected in a space-saving manner at a low overall height can. This feeding device is operated by the screw conveyor of a warehouse formed space, the screw conveyor in the storage room can be comparatively deep be arranged, which means a good use of space.

Has the fuel intake two on both long sides of the orifice of the worm housing against a flat, peripheral edge section wall sections sloping down with the openings for the Pri märluft, so this sloping side wall sections not only an advantageous guidance of the fuel to a correspondingly stretched Embers, but also an even primary air intake in the Ember stick achieved along its longitudinal extent.

Because that at an acute angle in the bottom of the cup-like fuel took out snail housing a movement component of the Fuel in the direction of the longitudinal extent of the mouth opening, it is advisable to at least on the front in the direction of fuel delivery Narrow side of the mouth opening from the bottom of the fuel intake vertical section of the wall, the openings for the Has primary air. This wall section running transversely to the conveying direction restricts the free expansion of the embers in the longitudinal direction. The primary air supplied via this wall section, that of the fuel movement opposed, supports the complete burning of the against it Wall section of directed fuel flow. An additional wall section in the The area of the rear narrow side of the mouth opening can contain a fuel mul  de complete by the individual wall sections around the Mün opening.

So that an advantageous introduction of primary air into the embers can be achieved, the passage openings for the primary air can be considered as essentially over the height of the wall sections extending slots are formed. duri fen these slots also inclined in the direction of fuel delivery, so the fuel movement in the area of the ember stick advantageously taken into account be.

Because of the pronounced longitudinal extent of the mouth opening and from it depending on the bed of embers, the cup-shaped fuel intake can be a have a substantial rectangular base, which is particularly simple Kon creates structural relationships. In addition, there is a favorable adjustment of the Brenners to the mostly rectangular combustion chambers of the boiler.

As already mentioned, this is compared to the cross section of the screw housing enlarged mouth opening of the discharge end of the snail shell This is essential for loosening which has a favorable influence on the burning behavior of fuel in the ember field. In addition, that in the area of Mouth opening enlarged flow cross section of any constrictions in the Mouth area do not have a lasting impact on fuel production can. To increase these effects, the mouth opening in the loading range of the rear narrow side in the direction of fuel delivery to one rectangular cutout should be expanded.

The movement component of the fuel in the longitudinal direction of the muzzle can be in connection with the enlarged section of the muzzle uneven fuel accumulation over the length of the embers to lead. To remedy this, you can extend the screw conveyor th discharge end of the screw housing against the mouth opening protruding, rising in the conveying direction, central web. This web holds the part of the fuel flow running onto it opposite  the partial flows moved sideways past the web, which fills the cup-shaped fuel intake in the rear area of the mouth opening supports so that for a uniform burn over the entire embers stock is taken care of.

Secondary air is supplied in the usual way for the afterburning of the flue gases leads, and preferably in an area above the gasification zone. If a secondary air nozzle is used for this, there is a risk that the Secondary air, the flue gases are partially displaced, so that the desired intimate mixing of the flue gases with the secondary air is impaired. Around To prevent here, the fuel intake in a conventional manner a guiding device which surrounds the firing material intake and is open at the top be placed in the at least one secondary air nozzle, preferably in Area of the rear narrow side of the mouth opening, the Guide means a lower, widening section and one adjoining the upper, tapering section. Through this guide device an intimate swirling of the flue gases with the injected secondary air forced by the gas flows that follow are pushed outside against the upward tapering section the main gas flow directed upwards. To go through the upward tapering section of the guide device, the ash deposit appropriate ashes must not be obstructed in the control system passage openings are provided, the location and size of which of the Adapt the construction of the fuel intake-dependent embers training is. Generally, these ash passages are in the area of the over ganges between the oppositely inclined sections of the guide device come to lie.

The subject matter of the invention is shown in the drawing, for example. It demonstrate

Fig. 1 shows the burner of a boiler according to the invention for fragmentized internal material in a partly-open side view,

Fig. 2 this burner, in a plan view

Fig. 3, the refueling of the burner in a plan view on a larger scale,

Fig. 4 is a longitudinal section through the fuel intake along the line IV-IV of Fig. 3 and

Fig. 5 shows the fuel intake in a section along the line VV of Fig. 3. As can be seen from Figs. 1 and 2, the burner 1 receiving de assembly is by means of a mounting flange 2 on a bushing 3 in a boiler wall forming a water jacket 4 flanged. This Bauein unit comprises a screw conveyor 5 rising in the conveying direction with the screw housing 6 , a fuel receptacle 8 connected to the upper discharge end 7 of the screw housing 6 , which is connected to a primary air supply 9 , a blower 10 arranged outside the boiler on the mounting flange 2 which on the one hand supplies the primary air supply 9 and on the other hand a secondary air nozzle 11 with air, and an electrical ignition device 12 which projects with its ignition head 13 into the fuel receptacle 8 . In contrast to conventional burners, the burner 1 according to the invention forms a tassenför-shaped fuel receiver 8, in the bottom 14, the extended on the screw conveyor 5 beyond the discharge end of the screw housing 7 opens. 6 Due to the increasing in the conveying screw 5 results in the bottom 14 of the fuel receptacle 8, an elliptical mouth opening 15 , which is all in the region of the rear end in the conveying direction is extended by a sleeve 16 attached to the housing 6 to a rectangular cutout 17 , as this can be seen in particular from FIG. 3. Along the longitudinal sides of the mouth opening 15 , the fuel receptacle 8 has two sections 18 falling from a peripheral edge section towards the mouth opening 15 , which are provided with slot-shaped through holes 19 , as can be seen in FIGS. 3 to 5. In the region of the front narrow side of the mouth opening 15 in the conveying direction, a vertical wall section 20 projects from the bottom 14 of the fuel receptacle 8 and likewise forms slot-shaped passage openings 21 ( FIG. 5). The fuel trough resulting between the wall sections 18 and 20 around the orifice opening 15 is delimited in the region of the rear edge of the orifice opening 15 by a wall section 22 which is parallel to the wall section 20 and which, however, has no air passage openings. The ignition head 13 passes through this wall section 22 in a guide tube 23 .

Since the wall portions 18, 20 and 22, a refueling 8 encloses cavity 24 sequent limit, the fuel can through this cavity 24 receiving the primary air 8 is supplied. For this purpose, 8 connecting pieces 25 for the lines of the primary air supply 9 are provided in the region of the cavity 24 in the bottom 14 of the fuel receptacle.

The fuel fed to the feed end 26 of the screw conveyor via a cellular wheel sluice via a charging device, not shown, is conveyed into the fuel receptacle 8 with the aid of the screw conveyor 5 , the fuel being subjected to gravity-related compression due to the increasing arrangement of the screw conveyor in the conveying direction, which causes a false air supply for the fuel receptacle 8 largely excludes via the screw housing 6 . However, this fuel compression does not hinder the combustion of fuel because the flow cross-section for the fuel in the loading area of the orifice 15 increases considerably, which leads to a loosening of the fuel that is advantageous for the combustion, which occurs in the area between the wall sections 18 , 20 and 22 resulting fuel trough forms an embers as soon as the fuel is ignited via the ignition head 13 of the ignition device 12 . The snail housing passing at an acute angle into the fuel receptacle 8 requires a movement component of the fuel in the longitudinal direction of the mouth opening 15 , which leads to a longitudinal extension of the ember stick. This ember stick is, however, accumulated on the transverse wall section 20 and at the same time supplied in this area with primary air flowing in counter to the direction of movement of the fuel, so that partial combustion conditions also occur in the area of the front end of the ember stick. The primary air supply in the region of the long sides of the embers takes place via the through openings 19 inclined in the direction of movement of the fuel in the sloping wall sections 18th

So that a uniform fuel distribution can be achieved over the Glutstocklänge spite of the movement component in the longitudinal direction of the mouth opening 15 in the region of the discharge end 7 of the screw housing 6 is provided a against the mouth opening 15 above, increasing in the conveying direction, central web 27 which divides the stream of movement of the fuel and withholds the partial flow arriving on it from the other partial flows with the effect that the rear region of the fuel trough is better filled with fuel, which is also important for the ignition of the fuel via the ignition head 13 .

Above the gasification zone of the embers, the secondary air nozzle 11 is arranged, which should ensure good post-combustion of the flue gases. After combustion, however, requires an intimate mixing of the flue gases with the secondary air. For this reason, a guiding device 28 , which surrounds the embers, is placed on the fuel receptacle 8 and consists of a lower, upwardly widening section 29 and an adjoining upper section 30 , which tapers upwards again, as shown in FIG. 1 can be removed. By means of this guide device 28 , the gas streams pushed outward against the section 30 are deflected inward, so that these gas streams mix again with the ascending main gas stream, thereby ensuring the desired intimate swirling of the secondary air with the flue gases.

However, the guide device 28 must not hinder the ash separation. Therefore, in the guide 28 ash openings 31 are provided through which the ash from the region of the fuel receptacle is discharged and falls into a 8 below the burner 1 provided ash chamber.

Claims (8)

1. Boiler for particulate fuel, in particular pellets, with a burner provided in a combustion chamber, which consists of a connectable to a primary air supply, upwardly open fuel intake, which can be sent from below via a screw conveyor mounted in a housing with the fuel, thereby characterized in that the screw conveyor ( 5 ) rises in the direction of conveyance, that the discharge end extended beyond the screw conveyor ( 5 ) ( 7 ) of the screw housing ( 6 ) in the bottom ( 14 ) of the cup-like fuel receptacle ( 8 ) and that Fuel intake ( 8 ) on both longitudinal sides of the mouth opening ( 15 ) of the screw housing ( 6 ), which has a pronounced longitudinal extent, through openings ( 19 ) for the primary air are seen before. 2. Boiler according to claim 1, characterized in that the fuel receptacle ( 8 ) two on both long sides of the mouth ( 15 ) of the Schnec kengehäuses ( 6 ) from a flat peripheral edge portion against the Bo ( 14 ) sloping wall sections ( 18 ) with has the passage openings ( 19 ) for the primary air. 3. Boiler according to claim 2, characterized in that at least on the front in the direction of fuel forward narrow side of the Mündungsöff opening ( 15 ) from the bottom ( 14 ) of the fuel receptacle ( 8 ) a vertical Wandab section ( 20 ), the passage openings ( 21 ) for the primary air. 4. Boiler according to claim 2 or 3, characterized in that the passage openings ( 19 , 21 ) for the primary air are formed as slots extending substantially over the height of the wall sections ( 18 , 20 ). 5. Boiler according to one of claims 1 to 4, characterized in that the cup-shaped fuel holder ( 8 ) has a substantially rectangular base. 6. Boiler according to one of claims 1 to 5, characterized in that the mouth opening ( 15 ) in the region of the rear narrow side in the conveying direction of the fuel is widened to a rectangular cutout ( 17 ). 7. Boiler according to one of claims 1 to 6, characterized in that in the discharge screw ( 5 ) extended discharge end ( 7 ) of the screw kengehäuses ( 6 ) against the mouth opening ( 15 ) protruding, rising in the conveying direction, central web ( 27 ) is provided. 8. A boiler according to any one of claims 1 to 7, characterized in that the fuel consumption (8) in per se known manner, a focal product receptacle (8), open to the top guide (28) can be placed surrounding, in the at least one secondary air ( 11 ) opens preferably in the area of the rear narrow side of the mouth opening, that the guide device ( 28 ) has a lower, upwardly widening section ( 29 ) and an adjoining upper, upwardly tapering section ( 30 ) and that in the Guide device ( 28 ) ash passage openings ( 31 ) are provided.