DE10037841B4 - Method and burner for heating an industrial furnace - Google Patents

Abstract

Method for heating a furnace chamber of an industrial furnace, wherein a gaseous fuel and an oxygen carrier gas are supplied to the industrial furnace, characterized
That the gaseous fuel is subdivided into two sub-streams, one of which is under a higher pressure than the other,
- That the oxygen carrier gas is supplied to the lower pressure substream of the fuel and forms a first flame with this, and
- That the sub-stream under higher pressure is introduced into the furnace chamber of the industrial furnace such that it forms a second flame ignited by the first flame, which extends further than the first flame into the furnace chamber.

Description

The The invention relates to a method and a burner for heating a furnace chamber of an industrial furnace, the industrial furnace a gaseous Fuel and an oxygen carrier gas, preferably air, fed become.

Such burners are for example from the DE 199 20 113 A1 and the WO 91/10105 are known and each comprise a housing, a burner head arranged in the housing, an air line formed upstream of the burner head from the housing, a gas line leading to the burner head, which is provided at the height of the burner head with gas nozzles, and a gas lance which is connected to the gas line and extends through the burner head to the level of the gas nozzles.

The Combustion of gaseous Fuels, especially natural gas, is low in pollutants and therefore for reasons the environmental protection very favorable. Also lets Achieve optimal combustion with maximum energy yield.

Out establish high quality product is one strives to achieve an optimal, d. H. a defined consistent, if necessary uniform temperature and heat distribution to ensure in the oven room. task The invention is for this purpose a particularly advantageous possibility to accomplish.

• – dass der gasförmige Brennstoff in zwei Teilströme unterteilt wird, von denen der eine unter einem höheren Druck steht als der andere,
• – dass das Sauerstoffträgergas dem unter niedrigerem Druck stehenden Teilstrom des Brennstoffs zugeführt wird und mit diesem eine erste Flamme bildet und
• – dass der unter höherem Druck stehende Teilstrom derart in den Ofenraum des Industrieofens eingeführt wird, dass er eine von der ersten Flamme gezündete zweite Flamme bildet, die sich weiter als die erste Flamme in den Ofenraum hineinerstreckt.

To solve this problem, the method mentioned above is characterized according to the invention by

• That the gaseous fuel is subdivided into two sub-streams, one of which is under a higher pressure than the other,
• - That the oxygen carrier gas is supplied to the lower pressure substream of the fuel and forms a first flame with this and
• - That the sub-stream under higher pressure is introduced into the furnace chamber of the industrial furnace such that it forms a second flame ignited by the first flame, which extends further than the first flame into the furnace chamber.

Of the significant advantage of the invention is that the formation of two independently controllable flames to adapt the heating to a variety of different Allow furnace room geometries and geometries of the feedstock. The variability the stove room heating is therefore almost unlimited and also allows an adaptation to changing ones Conditions. Above all, flame lengths of 5 m and more can be achieved. For high-speed burners, for example, the range is limited to 3 to 4 m.

One Essential field of application of the invention is the ceiling heating of drying and kilns for ceramic Feedstock. The oven rooms are relatively high and can a height from about 5 m reach to big To absorb quantities of kiln.

In front All things in underdeveloped regions have been heated with oil of this kind; which was allowed to drip from the ceiling. This was already an improvement across from obtained solid fuels, which merely thrown into the oven were. The dripping oil heated and evaporated before it ignited. Through decades of customization the location of the fuel addition and the respective amount of fuel on product, stocking and flow conditions in the furnace room, a certain optimization of the temperature distribution was achieved.

The Invention offers the possibility the oil heating switch to gas heating and thus to go to a low-emission combustion. At the same time an improvement of the product quality is achieved, because the heat distribution in the oven room can be optimally adapted to the respective conditions. Even the floor areas of the oven room are reliably heated.

Of the under higher Compressed partial flow of the fuel will be downstream of that Place initiated into the furnace room of the industrial furnace, at the out the oxygen carrier gas and forming the first flame under the lower pressure substream. The second flame thus represents a penetrating into the furnace chamber Continuation and extension of the first flame. The distance between the two flames is allowed but not too big, otherwise a reliable over ignition is not guaranteed can be.

In Further development of the invention is proposed that the two substreams of the fuel parallel to each other, for example, coaxially Industrial furnace supplied become. It can the two flames are formed side by side, but again while maintaining the ignition interval. With coaxial design of the flames there is also the possibility that the second flame penetrates the first flame.

The Configuration of the two flames can be achieved via the pressure of the two partial flows of the fuel vary. As favorable it has been proven that the one sub-stream of the fuel under a pressure of 1 to 80 mbar and the other partial flow under one Pressure of more than 200 mbar stands.

The air ratio, based on the total Throughput of the gaseous fuel is preferably set below 1. For complete combustion, therefore, the oxygen in the furnace chamber is accessed. It is particularly advantageous to set the air ratio, based on the lower pressure substream of the fuel, to at most 1. The second flame thus works exclusively with the oxygen in the furnace chamber.

In Further development of the invention is also proposed that the Oxygen carrier gas the low-pressure substream of the fuel muzzle mixing at the confluence is fed into the partial flow of the fuel.

Of the Proportion of the lower pressure substream is advantageously at the most 80% of the total fuel. At least 20% of the fuel stand So the second flame available.

The ignition and monitoring limited to combustion preferably on the first flame, which in turn the ignition of the second flame takes over.

• – einem Gehäuse,
• – einem in dem Gehäuse angeordneten Brennerkopf,
• – einer stromauf des Brennerkopfes vom Gehäuse gebildeten Luftleitung,
• – einer zum Brennerkopf führenden Gasleitung, die auf der Höhe des Brennerkopfes mit Gasdüsen versehen ist,
• – einer Gaslanze, die sich durch den Brennerkopf hindurch mindestens bis auf die Höhe der Gasdüsen erstreckt, und
• – einer in der Gasleitung stromauf der Gasdüsen vorgesehenen Drosselstelle, die einen über die Gasleitung zugeführten Brennstoff in einen Teilstrom, der aus der stromauf der Drosselstelle mit der Gasleitung verbundenen Gaslanze austritt, und in einen aus den Gasdüsen austretenden Teilstrom teilt und bewirkt, dass der aus der Gaslanze austretende Teilstrom des Brennstoffs unter einem höheren Druck steht als der aus den Gasdüsen austretende Teilstrom.

The burner according to the invention is provided to solve the problem with

• A housing,
• A burner head arranged in the housing,
• An air line formed upstream of the burner head from the housing,
• A gas line leading to the burner head, which is provided with gas nozzles at the level of the burner head,
• A gas lance extending through the burner head at least to the level of the gas nozzles, and
• - One provided in the gas line upstream of the gas nozzle orifice, which divides a supplied via the gas line fuel into a partial stream, which exits from the upstream of the throttle point connected to the gas line gas lance, and in a leaking from the gas nozzle partial flow and causes the the gas lance leaking partial flow of the fuel is under a higher pressure than the emerging from the gas nozzles partial flow.

Accordingly the gas nozzles create one short flame while A long flame escapes from the gas lance. The flames form coaxial with each other, wherein the distance of the gas lance mouth the Degree of embedding of the second flame in the first flame determined.

In Further development of the invention is proposed that the housing downstream the burner head forms a combustion chamber and that the gas lance extends at least to the outlet end of the combustion chamber.

Preferably is the burner head with an ignition and flame monitoring device Mistake.

The Invention will be described below with reference to a preferred embodiment explained in more detail in connection with the accompanying drawings. The drawing shows in:

1 an axial section through the front part of a burner according to the invention.

The burner after 1 has a housing 1 on which a burner head 2 contains. Upstream of the burner head 2 forms the housing 1 an air line 3 ,

To the burner head 2 leads a gas line 4 , which at the height of the burner head gas nozzles 5 forms. Upstream of the gas nozzles 5 is in the gas line 4 a throttle point 6 intended.

A gas lance 7 stands with the gas line 4 in connection, upstream of the throttle 6 , The gas lance 7 extends through the burner head 2 through and opens downstream of the mouth of a combustion chamber 8th coming from the case 1 downstream of the burner head 2 is formed.

In operation, air and gas reach the burner head 2 , through the air line 3 or through the gas line 4 , The gas nozzles generate 5 in the combustion chamber 8th a first flame. A second flame is at the mouth of the gas lance 7 educated. Due to the throttle point 6 that stands to the gas nozzles 5 flowing gas under a lower pressure than that from the gas lance 7 escaping gas. The from the gas lance 7 Exiting second flame thus forms an extension of the gas nozzles 5 exiting first flame.

A device not shown ensures the ignition and flame monitoring of the gas nozzles 5 exiting first flame. This in turn ensures the ignition of the gas lance 7 exiting second flame. The distance to the gas lance 7 from the mouth of the combustion chamber 8th is projected, is chosen so that a reliable over-ignition is guaranteed.

The burner can be adapted to different conditions, on the one hand via the throttle point 6 , Which determines the pressure ratio of the two partial flows of the gas, and on the other over the length and the diameter of the gas lance 7 ,

Moreover, significant variations are possible within the scope of the invention. Thus, an adjustable gas divider can be provided, which allows a change in the pressure ratio between the two partial flows of the gas during operation. Also, the gas lance can be displaced in the axial direction. Furthermore, it can be ensured that the quantitative ratio between the two partial flows of the gas can be changed. The combustion chamber is in 1 indicated only schematically. It can be shaped differently, both in terms of their length and in terms of their diameter. Diameter changes over the length are also conceivable.

Of the Term of gaseous Fuel is widely interpreted in the present case. The invention can be also with vaporous and possibly even with dusty Realize fuel. The oxygen carrier gas is preferably air in question. Operation with oxygen is equally possible, as well as an operation with air enriched with oxygen.

Claims (11)

Method for heating a furnace chamber of an industrial furnace, wherein a gaseous fuel and an oxygen carrier gas are supplied to the industrial furnace, characterized in that - the gaseous fuel is subdivided into two partial streams, one under a higher pressure than the other, that the Oxygen carrier gas is supplied to the lower pressure substream of the fuel and forms with this a first flame, and - that the higher-pressure substream is introduced into the furnace chamber of the industrial furnace such that it forms a second flame ignited by the first flame, the extends further than the first flame into the oven room. Method according to claim 1, characterized in that that the two sub-streams of the fuel are fed in parallel to the industrial furnace. Method according to claim 1 or 2, characterized that the one partial flow of the fuel under a pressure of 1 to 80 mbar and the other partial flow under a pressure of more than 200 mbar. Method according to one of claims 1 to 3, characterized that the air ratio, based on the total flow rate of the gaseous fuel set to less than 1. Method according to claim 4, characterized in that that the air ratio, based on the lower pressure Partial flow of the fuel, at most 1 is set. Method according to one of claims 1 to 5, characterized that the oxygen carrier gas the lower pressure substream of the fuel estuary mixing at the confluence is fed into the partial flow of the fuel. Method according to one of claims 1 to 6, characterized the proportion of the lower pressure substream maximum 80% of the entire fuel. Method according to one of claims 1 to 7, characterized that of the oxygen carrier gas and the lower pressure substream of the fuel monitored formed first flame becomes. Burner for heating the furnace chamber of an industrial furnace, comprising - a housing ( 1 ), - one in the housing ( 1 ) arranged burner head ( 2 ), - one upstream of the burner head ( 2 ) from the housing ( 1 ) formed air line ( 3 ), - one to the burner head ( 2 ) leading gas line ( 4 ), which at the height of the burner head ( 2 ) with gas nozzles ( 5 ), - a gas lance ( 7 ) passing through the burner head ( 2 ) through at least up to the height of the gas nozzles ( 5 ), and - one in the gas line ( 4 ) upstream of the gas nozzles provided throttle point ( 6 ), one via the gas line ( 4 ) supplied fuel into a partial flow, which from the upstream of the throttle point ( 6 ) with the gas line ( 4 ) connected gas lance ( 7 ), and into one of the gas nozzles ( 5 ) parting stream and causes the gas lance ( 7 ) leaving partial flow of the fuel is under a higher pressure than the emerging from the gas nozzles partial flow. Burner according to claim 9, characterized in that the housing ( 1 ) downstream of the burner head ( 2 ) a combustion chamber ( 8th ) and that the gas lance ( 7 ) at least to the outlet end of the combustion chamber ( 8th ). Burner according to claim 9 or 10, characterized in that the burner head ( 2 ) is provided with an ignition and flame monitoring device.