DE20203768U9 - BURNER - Google Patents

Description

burner

The invention relates to a burner with a burner tube formed from a flame tube and a support tube with a baffle provided with at least one opening and with a nozzle assembly a fuel nozzle, with a recirculation opening open towards the boiler room being provided between the flame tube and the support tube and the flame tube leaving a recirculation gap with a Section is inserted into the support tube, so that between the section and the support tube a concentric to the support tube extending recirculation

to lation channel is formed,

Liquid or gaseous fuel burners include a burner tube, in which the fuel emerging from a fuel nozzle of a nozzle assembly, for example oil, is mixed with also supplied primary air and this mixture is burned to form a flame. The combustion tube itself is according to a previously known state of Technology consisting of a support tube in which the nozzle assembly with the fuel nozzle is held. In the support tube, one or more can act as a bluff body Orifices having baffle plates can be arranged, the at least an opening at the same height or in the direction of flow behind the fuel nozzle. The support tube is opposite one as well the front flame tube associated with the burner tube is fixedly arranged on the burner. Between the flame tube and the support tube there is a recirculation

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culation gap is provided through which exhaust gases from the boiler room enter the Burner tube.

The flame tube has a rearward tubular section which is tapered with respect to its diameter s, with which the latter is inserted slightly into the front opening of the support tube. The section inserted into the support tube is used to fasten the flame tube to the support tube, for which purpose guide pins projecting radially outward from the distance are provided which engage in corresponding guide grooves in the support tube. The guides are inclined with respect to a cross-sectional area of the burner tube, so that by rotating the flame tube it can be moved axially with respect to the support tube and set up in order to be able to change the width of the recirculation gap between the flame tube and the support tube. In this known prior art, a constriction is provided immediately below the end of the flame tube reaching into the support tube.

Such burners, which are usually used stationary, should are operated with as few emissions as possible. For this reason, in the prior art described above, the recirculation gap is adaptable to the respective operating parameters, such as distillery output and / or boiler size.

By supplying the recirculation exhaust gas stream consisting of already In the exhaust gases in the boiler room, efforts are made to cool the flame in the flame tube. At the same time, the supplied primary air flow due to the relatively warm recirculation exhaust gas flow in this regard warmed up. Furthermore, one endeavors to avoid the formation of soot that too can lead to a disruption of the burner operation.

It has been found that in this context in particular the outer sections of the baffle plate bordering on the support tube are to be regarded as critical, the sections facing the flame tube Soot deposits can be observed again and again on the side. Burners are known whose burner tubes have radial recirculation openings are arranged almost immediately adjacent to the side of the baffle plate facing the flame. This measure can

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usually in the area of the inner mouths of these recirculation openings Due to the sucked in recirculation exhaust gas flow, soot deposition can be avoided, but soot deposition can occur still take place in the edge regions of the baffle plate located between the openings. In addition, if it is provided, it must be arranged radially Recirculation openings a correspondingly large suction cutout can be provided in the boiler door.

A generic burner is known from DE 39 30 569 C2. The

ίο flame tube of this burner is in the support tube forming a Recirculation channel running concentrically to the flame tube is used, the inner mouth of which is arranged pointing in the direction of the support tube is. This section of the flame tube is inserted into an insert section which is larger in diameter than the rest of the support tube, to which a conically tapered section for connecting the insert section, which is larger in diameter, to the actual support tube borders. Inserted into the support tube is a bluff body with a to Flame tube pointing protruding sleeve with a nozzle-like taper. The nozzle holder is accommodated in the sleeve-like body with the fuel nozzle, the annular gap between the nozzle assembly and the sleeve of the baffle serving to supply the primary air flow. The boundary of the damming body facing the flame tube is located at a distance from the tapered section in the area of the actual Support tube and thus at a distance from the insert section. The edge regions of the bluff body adjoining the support tube are thus located in traps designed in terms of flow technology, in which soot deposition can hardly be avoided. However, this is undesirable.

The invention is based on this discussed prior art therefore the object of developing a burner of the generic type mentioned at the outset in such a way that a soot storage in the above-described edge areas of the bluff body is prevented.

This object is achieved in that the inner The mouth is directed towards the bluff body and is only spaced apart from it so far that the bluff body in its adjoining the support tube The recirculated recirculation exhaust gas flow emerging from the recirculation channel flows directly against the edge areas.

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In the burner according to the invention it is provided that the training of the recirculation channel, formed by the section of the flame tube reaching into the support tube and the support tube via an outlet

s section is arranged to run concentrically to the support tube. It is provided that the inner mouth of the recirculation channel inside the burner tube in such a way to this side surface of the baffle is arranged that these areas of the baffle plate are flown directly by the incoming recirculation exhaust gas flow. Because of

ίο the flow conditions prevailing in the subject matter of the invention a soot deposit is effectively prevented in the relevant areas of the bluff body. In the event that these edge areas of the Baffles are flowed directly against the entering recirculation exhaust gas flow, this also has the advantage that through the relatively warm

is recirculation exhaust gas flow is the outer edge areas of the bluff body appropriately heated and heated so that soot formation in these areas is also prevented for this reason. In the central In the middle areas of the bluff body, it is already sufficiently heated by the flame. In an embodiment of the bluff body as This is the baffle plate in its edge, bordering on the support tube Areas with flow on both sides - from one side through the primary air flow and from the flame side through the hot recirculation exhaust gas flow.

The formation of a recirculation channel that has a certain extension has, also has the consequence that the actual recirculation gap is located at a distance from the bluff body and in particular can be so far away from this that in each case relatively hot recirculation exhaust gases be sucked in. Naturally, the recirculation exhaust gases drawn in are hotter, the closer the recirculation gap is to front end of the flame tube. In addition, the sucked in recirculation exhaust gas stream is additionally heated within the Recirculation channel in that it extends over the length of the recirculation channel is guided along the hot flame tube. Therefore, the temperature of the inside the burner tube is orifice saturation from the recirculation channel exiting recirculation exhaust gas flow sufficiently high to avoid the bluff body to avoid soot formation in the edge To be able to heat up areas; likewise is the temperature of the

Recirculation exhaust flow not so deep that excessive cooling the flame would be caused, which leads to instability and malfunctions.

A recirculation gap or on is off in the case of the burner in question several individual openings ultimately formed recirculation gap provided. Even if the individual openings are in the area of the recirculation gap are spaced apart from one another by webs or the like, a closed recirculation exhaust gas flow occurs in the burner tube on the mouth side out of the annular recirculation channel so that the entire edge area of the bluff body is flown against from this side or these areas of the baffle are located in the negative pressure zone created by the recirculation exhaust gas flow that is to enter.

In a preferred development of such a burner it is provided that the flame tube can be set up axially with respect to the support tube, by this measure the width of the recirculation gap and at the same time the distance between the bluff body and the inner mouth to be able to adjust the recirculation channel. The simultaneous establishment the distance between the inner mouth of the recirculation channel and the bluff body causes a low burner output and thus only one recirculation gap that is smaller in terms of its cross-sectional area and the correspondingly lower recirculation exhaust gas flow the bluff body is nevertheless sufficiently exposed to the flow in its marginal areas to achieve the desired advantages. With higher burner output and a correspondingly larger recirculation gap is the distance between the inner opening of the recirculation channel and the bluff body further spaced. Due to the stronger recirculation exhaust gas flow, there is sufficient flow against the bluff body in this setting as well. To guide the flame tube, provision can be made for the flame tube on the support tube via guide pins projecting radially in the section to attach, which in turn in appropriately trained elongated and inclined guides engage. In this configuration, the width of the can by axially rotating the flame tube relative to the support tube Recirculation gap can be established.

The invention is based on an exemplary embodiment under Described with reference to the accompanying figures. Show it:

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Fig. 1: A schematic cross section through the burner tube of a burner,

Fig. 2: An enlarged view of an edge portion of the burner tube of Figure 1 and

FIG. 3 shows a schematic cross section through the burner tube of another burner.

An otherwise not shown burner includes a total of The burner tube identified by the reference number 1, which is formed from two partial tubes - a support tube 2 and a flame tube 3. In the support tube 2 is a baffle plate 4 with one or more as a baffle openings ö arranged. In relation to the baffle plate 4 The upstream region of the support tube 2 is a nozzle assembly 5 with a fuel nozzle 6 for introducing the required fuel, for example oil provided. The support tube 2 also serves to supply a primary air flow, as is done by the one arranged parallel to the one in the nozzle assembly 5 Arrows in Figure 1 is shown.

The flame tube 3 comprises a rear, tapered one pointing towards the support tube 2 Section 7 with which the flame tube 3 is inserted into the mouth of the support tube 2 on the front side. The section 7 of the flame tube 3 is designed concentrically to the support tube section surrounding section 7. The outer diameter of the section 7 of the flame tube 3 is smaller than the inner diameter of the support tube 2, so that in this way an annular channel 8 approximately the length of the section 7 of the Flame tube 3 is formed. The channel 8 opens on the outside and thus towards the boiler room 9 into a recirculation gap 11 formed between the front end 10 of the support tube 2 and the flame tube 3 of the Breriner pipe 1 opens out below as a recirculation channel Addressed channel 8 at a short distance in front of the surface of the baffle 4 facing the flame tube 3. The recirculation gap 11 and the annular recirculation channel 8 serve as a suction opening during operation of the burner to suck in exhaust gases located in the boiler room in order to transfer them into the interior of the burner tube 1 bring to. The recirculation channel 8 has a certain extent in

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Longitudinal direction of the burner tube 1, so that through the recirculation gap 11 relatively hot exhaust gases can be sucked in. These will through the recirculation channel 8, which runs concentrically to the section 7 of the flame tube 3 or to the support tube 2, in the direction of the baffle plate 4, this recirculation exhaust gas stream being additionally heated by its contact with the section 7 of the flame tube 3. The out the inner mouth M of the recirculation channel 8 exiting recirculation exhaust gas flow thus has a relatively high temperature. The arrangement of the inner mouth M of the recirculation channel 8 is directed so that

ίο the recirculation exhaust gas flow, especially the outer edge areas the baffle plate 4, with which it adjoins the support tube 2, flows on the one hand, this has the consequence that it is otherwise in the flow shadow the primary air supplied have flowed against them, so that soot particles are prevented from being deposited. To be another these areas cooled by the adjacent support tube 2 are additionally heated, so that soot formation and soot deposition also occur through this measure is counteracted. In these outer areas is thus the baffle plate 4 flowed against from both of its sides - from one side by the supplied primary air flow and from the other Side through the recirculation exhaust stream.

The distance between the recirculation gap 11 and the inner mouth M of the recirculation channel 8, depending on the burner design be of different lengths. It is essential that the inner mouth of the recirculation channel 8 is designed so that in particular the outer edge areas of the baffle plate 4 are flown against by the exiting recirculation exhaust gas flow.

The flame tube 3 is in the embodiment shown in the figures Can be set up in the axial direction of the burner tube 1 to form the support tube 2. The support tube 2 is stationary with respect to the flame tube 3. The flame tube 3 carries in the area of its section 7, as can be seen from Figure 2, several circumferentially distributed guide pins 12, one of which is shown in FIG. The guide pins 12 are radial from the section 7 of the flame tube 3 arranged protruding and engage in each one Guide groove 13, made in the support tube 2. The guide grooves 13 are inclined with respect to a cross-sectional area of the burner tube 1 and do not have one in the figures for inserting the guide pins 12

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shown insertion section. By turning the flame tube 3 over its longitudinal axis is thus the width of the recirculation gap 11 - like indicated by the double arrow in Figure 2 - adjustable. Furthermore, this adjustability with the establishment of the recirculation gap 11 is the The distance between the mouth M and the baffle plate 4 can be set up. This ensures that with different widths of the recirculation gap 11, especially with small adjustment widths and thus a relatively small one Distance of the mouth M from the baffle plate 4, the edge areas of the baffle plate 4 as intended by the then corresponding

ίο low recirculation exhaust gas flow have flown. Furthermore, this is Flame tube 3 can be fixed in its established position in relation to the support tube 2 in a manner not shown in detail.

FIG. 3 shows a further burner, not shown in greater detail, with a burner tube identified as a whole by the reference symbol 1 '. The burner tube 1 'is constructed in principle like the burner tube 1 of Figures 1 and 2. For this reason, the same reference numerals are used to identify the same features, but supplemented by a'. In contrast to the burner 1, ^{a baffle 4 'is inserted into the support tube 2 1 of} the burner 1' instead of a baffle plate 4. The damming body 4 'comprises a ^{sleeve-shaped body projecting towards the flame tube 3 1} and having a taper on the front side. Enclosed by this sleeve-shaped extension is the fuel nozzle 6 'inside. From Figure 3 it is clear that in this embodiment of a baffle 4 ', the edge areas of the baffle 4' adjoining the support tube 2 'flowed against by the recirculation exhaust gas flow or are located in the negative pressure zone established by the inflow of the recirculation exhaust gas flow, so that a Soot deposition in these areas is effectively counteracted.

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1.1 * Burner tube 2.2 ' Support tube 3.3 ' Flame tube 4.4 ' Baffle plate 5.5 ' Nozzle holder 6.6 ' Fuel nozzle 7.7 ' Section of the flame tube 8.8 ' Channel, recirculation channel 9.9 " Boiler room 10, 10 " front end of the support tube 11.11 ' Recirculation gap 12, Guide pin 13, Guide groove M, M ¹ Mouth of the recirculation channel Ö, Ö ' opening

Claims (5)

-10 protection claims 1. Burner with a burner tube (1, 1 '), formed from a flame tube (3, 3') and a support tube (2, 2 ') with a baffle (4, 4) provided with at least one opening (Ö, ö') ') and with a nozzle assembly (5, 5') with a fuel nozzle (6, 6 '), with one to the boiler room (9, 9') between the flame tube (3, 3 ') and the support tube (2, 2') open recirculation opening (11, 11 ') is provided and the flame tube (3, 3') is inserted into the support tube (2, 2 ') leaving a recirculation gap (11, 11') with a section (7, 7 '), so that between the section (7, 7 ') and the support tube (2, 2') a recirculation channel (8, 8 ') running concentrically to the support tube (2, 2') is formed, characterized in that the inner opening (M, M ') in such a way towards the bluff body (4, 4') and is only spaced from this so far that the bluff body (4, 4 ') in its edge regions bordering the support tube (2, 2') directly through the out of the Recirculation channel (8, 8 ') off entering recirculated recirculation exhaust gas flow is flown. 2. Burner according to claim 1, characterized in that the flame tube (3, 3 ") can be set up axially to the support tube (2, 2 ') and through this set-up the width of the recirculation gap (11, 11') and the distance of the mouth (M , M ') of the recirculation channel (8, 8') to the bluff body (4,4 ') can be changed. 3. Burner according to claim 2, characterized in that the Flame tube (3) is guided over guide pins (12) engaging radially in guides (13) in the support tube (2), the guides (13) inclined with respect to a cross-sectional plane of the burner tube (1) are. 4. Burner according to claim 1, characterized in that the guides (13) have an insertion section for inserting the guide pins (12). -11- 5. Burner according to one of claims 2 to 4, characterized in that the flame tube can be fixed relative to the support tube. • * • · ■