DE1551790B2 - BURNER PLATE MADE IN PARTICULAR CERAMIC MATERIAL FOR FLAMELESS COMBUSTION - Google Patents

Description

The invention relates to a burner plate made in particular of ceramic material for the flameless Combustion of fuel gases with a multitude of cylindrical channels that form a have increasing mouth cross-section.

Such a burner plate should essentially give off heat by radiation. Accordingly is hers Radiation power roughly proportional to its projection area perpendicular to the radiation direction. At one after the US-PS 33 21 000 known burner plate of this type is the plate on both sides with a larger Number of openings executed with the openings on the opposite side of the plate are connected by channels. As a result, the combustion is intended in a Plate depth take place, whereby they are caused by a reflection of thermal radiation generated by the combustion is supported. The channels should in particular generate a turbulent flow, which a complete combustion favors. The flow velocity should be increased in the subsequent openings the combustion gases decrease without removing the combustion zone from the area of the plate emigrates. The known plate requires a relatively complicated structure, especially since the Channels have sharp-edged boundaries in accordance with their task of generating turbulent flow. The channels have rectangular or cylindrical cross-sections. Between the openings, their mouth cross-sections both in the inner plate plane and in the outer plate plane from each other are spaced, and to a greater extent also between the channels is ceramic Material which is heated to a considerable extent by conduction, and which accordingly when it is applied, it radiates heat on the surface. This heat radiation takes place in the already represented way by the size of the radiating surface a limitation. In addition, the The flow velocity in the channels cannot be increased at will, but may only be increased by up to one Limit value can be increased, which is conditioned by the location of the combustion zone. The pressure of the fed Gas mixture must therefore be chosen carefully.

In contrast, the object of the invention is to provide a burner plate of the type described in the introduction Kind to the effect that on the one hand it is able to radiate an even larger amount of heat and at the same time a greater exposure to a combustible gas mixture is permitted, with also opposite Mixture pressure fluctuations an improved

Insensitivity should exist.

According to the invention, this is achieved in that, in the case of a burner plate, that described in the introduction Kind of touching adjacent mouth edges in the plane of the plate, and that the remaining webs have the shape of a paraboloid in cross section between the mouths.

This results in a particularly favorable design of the cylindrical channels subsequent expansions, in the course of which there is an approximately linear, continuous pressure drop comes. The flame burns in the gradually expanding section. At the same time it follows that that the individual channels only have a greater distance as a result of the expansions mentioned each other compared to other burner plates. This increases the radiating Front surface of the burner plate, which is given by the wall surfaces of the extensions projected onto it is, so that there is a considerable increase in radiation proportional to this total area. By The gradually growing combustion chamber still has the option of applying fuel to increase significantly, so that the temperature of the end face is chosen to be significantly higher can be. You can z. B. reach up to 1500 ° C.

In addition, at a distance from the burner plate on the outside, a radiation grille, as for example according to the DT-PS 12 18 375 is known to be used.

As a result, part of the radiated heat is reflected.

The invention is further illustrated with reference to the drawings relating to an exemplary embodiment. In it shows

1 shows a burner with the burner plate designed according to the invention,

Fig. La a grille to be attached in front of the burner plate,

F i g. 2 the burner plate according to the invention in plan view and

F i g. 3 the burner plate according to the invention in cross section.

According to FIG. 1, a burner with a housing 1 is used, into which a connection piece 2 opens, which extends from a mixture chamber 5 provided with supply lines 3 and 4 for gas and air. A distribution system 6 is initially provided in the housing, which ensures the uniform distribution of the mixture over the entire burner surface and can be designed in different ways for this purpose. The burner plate 7 is inserted into the front of the housing, to which an outer jet grille T is connected. The latter is particularly important for natural gas, while it can also be appropriate for town gas by increasing the reflection.

The burner plate to be seen from Fig. 2 and 3 shows for the sake of simplicity only a part of the channels 8, each of which consists of the cylindrical section 9 and the extension section 10 consists. As a result of the relatively large distance between the individuals Channels 8 from each other, the free hole cross-section of the cylindrical channel sections 9 is approximately only one Tenth of the value of the known burner. In the illustrated embodiment, excellent Radiation power achieved with a favorable efficiency by using the largest diameter of the Extension portion was 5.5 mm, while the diameter of the cylindrical portion and 1 mm

6i / yu

the total thickness of the burner plate was 25 mm.

With regard to the high temperatures of the new burner, the jet grille T is made from a correspondingly highly refractory steel alloy or, advantageously, from a ceramic material with a high radiation coefficient, but which does not offer any significant pneumatic resistance.

In order to use the burner area as much as possible for the solution of the object according to the invention, the extension sections 10 have been designed so that adjacent mouth edges such as suggested touch each other in the plane of the plate. The remaining webs between the mouths have parabolic cross-sections. Thanks to the small size of these bars, there is one after ignition rapid heating of the same as a result of increased heat transfer through radiation.

In the case of the burner according to the invention, reignition is ensured in particular by the fact that the beam grating, which advantageously consists of alumina, has an approximately honeycomb structure, the number of honeycomb cells roughly corresponding to the number of channels. In this way it is ensured that about every channel or its extension is under the radiation influence of a honeycomb cell wall, so that a partial extinction of the flame at z. B. natural gas heating is prevented. It is very useful if the honeycomb cell walls, which are approximately perpendicular to the plane of the burner surface, are made as thin as possible. The only thing that matters is that they can develop a good radiation effect, which in practice has led to the aforementioned lamellae being preferred less than about 1/4 mm can be chosen. Of course, as has already been shown, the pneumatic resistance of the beam grille is also extremely low. In Fig. la is such a beam grating, which can be used instead of the beam grating T already described, denoted by 7 ″.

20th

For this purpose 2 sheets of drawings

Claims (1)

Claim: Burner plate made in particular of ceramic material for the flameless combustion of Combustion gases with a multitude of cylindrical channels that increase in the mouth area Have mouth cross-section, thereby characterized in that adjacent mouth edges touch one another in the plane of the plate, and that the remaining webs between the mouths have the shape of a paraboloid in cross section exhibit.