DE3509506A1 - Atmospheric gas burner - Google Patents

Abstract

The atmospheric gas burner consists of at least one burner pipe (6) with a large number of gas outflow openings in the form of fine slots, fine bores or the like, an element which reduces the flame temperature and thus the NOx formation being arranged in the flame region above the burner pipe. <??>In order further to reduce the NOx formation, the reducing element (1) is designed in the form of webs, bars, strips (5) or the like, which run transversely and/or longitudinally in relation to the longitudinal axis (2) of the pipe and form heat radiation surfaces, and these are designed to be jointly distance-adjustable with regard to their distance from the burner pipe (6). <IMAGE>

Description

(15 2θ1)

Atmospheric gas burner

This concerns an atmospheric gas burner, which consists of at least one burner tube with a plurality of gas outflow openings, which in Form of fine slots, fine bores or the like. Are arranged on the burner tube. Above the burner tube is the flame temperature in the Flairan area and thus arranged the NOX formation reducing element.

In the context of the overall environmental pollution problem, so-called NOX emissions are also still in the process Moved to the fore, especially with heating boilers equipped with atmospheric gas burners such emissions must be expected, which must be reduced. There are many different ones for that Efforts have been made, for example, in such a way that one over the burner tube or the burner tubes has arranged fine-meshed metal grids at a certain distance. But this changes the course of the combustion so disturbed overall that there are increased CO values, which is also not desirable is..Furthermore, it was found that the NOX emission does not only depend on the fact that by arranging heat radiating elements in the flame area the Flame itself cools, but that as a further influence

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size the combustion chamber geometry surrounding the burner and ultimately the type and composition of the gases to be burned play a not insignificant role to play.

The invention is accordingly based on the object to create an atmospheric gas burner whose flame temperature and thus NOX formation reducing element takes a smaller negative influence on the CO formation and with which an adaptation to the respective operating gas and to a certain extent also to the ambient geometry of the burner is enabled.

This object is with an atmospheric gas burner of the type mentioned according to the invention solved by the features listed in the characterizing part of the main claim. Advantageous further training result from the subclaims.

It is essential that the entire area is not simply screened off by a metal mesh, which leads to an all-over disruption of the flame formation, but with a reducing element, the in the form of webs, rods that run transversely and / or longitudinally to the longitudinal axis of the pipe and form radiation surfaces, Strips or the like is formed and that ins-

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overall is designed to be adjustable in terms of its distance from the burner tube. The whole is so much more coarsely structured than the previously known, fine-meshed fabric, so that at least the larger part of the flames burning above the pipe remains undisturbed by the reducing element, since this is structured much more coarsely than a fine-meshed fabric. Because these items that are the reducing Forming an element, radiating heat, is also necessary for sufficient heat dissipation for the flame areas taken care of, in which such an element does not run directly. About the whole thing about his Effectiveness to make reproducible and that with different environmental geometry and it is also varying gas compositions It is essential that the reducing element is not specially designed for each specific case To have to provide burner, in its distance to the burner tube, to be jointly adjustable in terms of distance, Quite apart from the fact that this basically allows the element to be in its optimal position without any problems can be adjusted to the burner tube or to the flames. Because the reducing element is made up of several There are bars, rods, strips or the like, these items are expediently attached to at least one holder and this is made adjustable with respect to the pipe, i.e. the holder can be adjusted on the pipe itself or on the pipe support

to be ordered. Furthermore, it is of course also possible to use these individual elements on their own To fix the pipe, which would, however, involve considerable effort. So much at least if a common holder is provided for the individual parts, this does not necessarily have to be on Burner tube or the burner holder, but it is also possible to attach this holder to a suitable one Place the surrounding combustion chamber walls to be spaced adjustable.

The aforementioned NOX emissions from heating systems are, by the way, in "Gas international" Volume 20 (1981), Issue 1, pages 41, 42, discussed.

With the above-mentioned solution or the new type of design of an atmospheric gas burner, in any case showed that the NOX emissions in gas boilers with "normal" gas burners are significantly reduced can be, but in particular that through the possible adjustability of the reducing element up to a certain degree of the ambient geometry, but in particular different gas compositions Account can be taken of what is essential for the manufacturer of such burners The advantage of having to provide different types of burner is to adapt the burner to the respective conditions in terms of the best possible

male NOX reduction can be set without At the same time, having to accept an increase in CO, i.e. / it can, so to speak, be the critical intersection of the CO value line and the NOX emission curve can be set.

There are of course a wide variety of shapes for the individual parts forming the reducing element and possible arrangements, whereby a design of the burner has proven to be advantageous has that the open spaces enclosed in front of the individual parts of the element in the overall cross-section and, viewed in vertical projection, a maximum of 60 to 70% of those provided with the gas outflow openings Corresponds to the pipe surface over which the element is arranged.

As a rule, the gas discharge openings on burner tubes of this type are spaced apart from one another Groups arranged. In such burner tubes it has proven to be advantageous that the reducing Element-forming webs, rods, strips or the like over the areas without openings between to arrange the opening groups. It is also advantageous if the reducing element is lamellar Webs are used, these perpendicular to the longitudinal axis of the combustion tube or in its longitudinal direction

to be arranged running over the gas outflow openings. Such vertically arranged, lamellar webs therefore apparently have a special one favorable effect because the rooms enclosed by them appear to be chimney-like, small ones Shafts form with relatively large bounding walls, from which the heat can radiate well, which is associated with a favorable cooling effect on the flame.

Since the individual parts forming the reducing element are exposed to intense heat, it is advantageous to provide these with incisions in order to avoid heat distortions counteract the entire length.

The atmospheric gas burner is illustrated below with the aid of the graphic representation of Embodiments explained in more detail.

It shows schematically

Fig. 1 to 7 each in plan view of the burner tube with the associated reducing Element;

1A-7A, viewed in the direction of the longitudinal axis of the burner tube, the respectively associated Views of the burner tubes in the direction of arrow B;

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8, also seen in the direction of arrow B, shows a special embodiment and

9 shows a sheet metal blank for training

of the reducing element according to FIGS. 1-4.

In the embodiment according to FIG. 1, the individual parts forming the reducing element 1 are made from transversely to the longitudinal axis 2 of the burner tube arranged strips 5, which in view of a simple Manufacturing, but also the adjustability from a sheet metal blank 15 can be formed by punching out corresponding openings 16 from this sheet metal blank, between which the strips 5 run. This sheet metal blank 15 is then bent in the sense of FIG. 1A and pushed over the burner tube 6. Lateral slots 17 allow different distances to be set whole structure to the burner tube 6. Since the gas outflow openings 10 usually on the burner tubes 6 are arranged in groups 10 'at a distance from one another, the entire element is advantageously arranged in such a way that that the strips 5 run over the areas 12 without openings between the groups of openings 10 '. The same also applies to the embodiments according to FIGS. 2-4, the embodiment 2 differs from that according to FIG. 1, IA in that the sheet metal blank 15 is box-shaped

is edged.

Due to the in the embodiments according to Fig. 3, 4 provided lateral protrusions 13 of the strip 5 only needs to be used for a slightly different bracket of the element 1, which can be easily recognized from FIGS. 3A and 4A, and none further explanation is required.

5 and 5A show an embodiment / in which the individual parts forming the reducing element 1 are formed in the form of webs 3 which are perpendicular to the tube 6 and are arranged in lamellar fashion, which are connected at their ends by transverse webs and then
are assigned to the tube 6 so that they can be adjusted in a suitable manner. Such webs 3 could also be arranged to run transversely to the pipe 6.

In the embodiments according to FIG. 7, the individual parts forming the reducing element 1 are
formed from longitudinally extending rods 4, which sit in suitable holders 18, which in turn are adjustable in distance with respect to the tube 6 in the direction of arrow C. These rods could also be made much shorter and provided with suitable holders and extend transversely to the tube 6. The embodiment according to FIGS. 7, 7A differs from that according to FIG. 6 in that the holder

of the reducing element 1 not on the pipe 6 itself is made, but at a suitable point a boundary wall of the combustion chamber, not shown here, which wall in the exemplary embodiment according to FIG. 7 can be, for example, a water-carrying pocket 19 arranged above the burner tube 6. The holder is there also designed to be adjustable. The rods 4 do not have to be designed as round rods but these can also have other suitable profile cross-sections. So much for the individual elements are correspondingly long elements extending parallel to the longitudinal axis 2 of the burner tube, these can be provided with incisions 14 in order to counteract warping under thermal stress, as indicated in FIG. 6.

In the embodiment of Fig. 8, the reducing element 1 forming individual parts of annular strips 5 ¹ , which have a larger diameter with respect to the burner tube and which sit on a common carrier 20, which is also again in relation to the burner tube 6 Direction of arrow C is adjustable.

The illustrated and described shapes of the individual parts forming the reducing element 1, in particular with regard to their transverse or longitudinal assignment to the burner tubes is not mandatory, i.e.

the webs 3 or 4 rods can have a circular or oval format and the element can be strung together 1 form. For example, the individual parts can also consist of small ones clamped between the holders chain-like strands exist. Unless the strips 5 are relatively broad, the individual parts can also form a lattice structure, but not in the sense of a fine-meshed structure Network, but in the form of a much coarser grid structure with a sufficiently large Open space. However, embodiments and arrangements in the sense of FIGS. 1 to 5, in which the fact is used that the gas outflow openings 10 of the burner tubes in uniform spaced groups 10 'are arranged, whereby the flames on the one hand least through the strips 5 are disturbed, but on the other hand represent relatively large, heat-radiating surfaces and thus ensure that the flames are cooled.

The arrangement of lamellar-like lamellae standing perpendicular to the tube 6 has proven to be particularly advantageous Web 3 proved, both in a longitudinal and transverse arrangement, because of such a training to a certain extent a "chimney effect" is inherent and these elements are relatively large, heat-radiating Have surfaces.

Claims (8)

(15 2o1) 3 5 OS b O 6 Patent Attorneys Dlpl.-lng. Arr.iftor patent claims: Dip !, (nc Woif An d <v .vu.i Atmospheric gas burner, consisting of at least a burner tube with a large number of gas outlet openings in the form of fine slots, Fine bores or the like, with the flame temperature and thus the flame temperature above the burner tube in the flame area the NOX formation reducing element is arranged, characterized in that that the reducing element (1) in the form of the pipe longitudinal axis (2) transversely and / or longitudinally, Bars forming heat radiation surfaces (3), rods (4), strips (5) or the like. And these in relation to their distance from the burner tube (6) are designed to be jointly adjustable in distance. 2. Burner according to claim 1, characterized in that the element (1) on the Pipe (6) or on the pipe support (7) is arranged adjustable in distance. 3. Burner according to claim 1, characterized in that the the element (1) forming, similar items attached to holders (8) and the holder "with respect to the tube (6) are designed to be adjustable in distance. 4. Burner according to one of claims 1 to 3, there- characterized in that the included by the individual parts of the element (1) Open areas (9) in the overall cross-section and in vertical projection, a maximum of 60 to 70% of those with the gas outflow openings (10) corresponds to the tube surface (11) provided over which the element (1) is arranged. 5. Burner according to one of claims 1 to 5, with a burner tube (6) on which the gas outflow openings (10) are arranged in spaced groups (10 ¹ ), characterized in that the webs (1) forming the reducing element (1) 3), rods (4), strips (5) or the like. Are arranged ^{over the opening-free areas (12) between the opening groups (10 1).} 6. Burner according to one of claims 1 to 5, there- · characterized in that the webs (3) forming the reducing element (1) extend perpendicular to the longitudinal axis (2) of the combustion tube the gas outflow openings (10) are arranged. 7. Burner according to one of claims 1 to 5, characterized in that the webs (3), rods (4), strips (5) arranged transversely to the longitudinal axis (2) of the burner tube (6) -Jf- • ο * are provided with a protrusion (13) on both sides with respect to the burner tube (6). 8. Burner according to one of claims 1 to 7, characterized in that when the individual parts forming the reducing element (1) are arranged parallel to the longitudinal axis (2) of the burner tube (6) the individual parts are provided with incisions (14).