DE3830038A1 - Burner and method for its operation - Google Patents

Abstract

The fuel is introduced into the flame in stages, it being possible for the flame gases to cool down as they travel from one stage to the next. In addition, the fuel is so intensely heated downstream of the first stage that self-carburisation arises. Consequently, the flame receives improved radiation properties, with the result that its temperature decreases. Finally, inert gas is sucked into the flame as cooling gas. A combustion with greatly reduced Nox formation results.

Description

The invention relates to a method for operating a Bren ners, with the fuel and combustion air a flame holder are fed. The invention further relates to a corresponding burner.

As is known, there is a causal relationship between the formation of NO _x and the combustion temperature. In order to reduce NO _x emissions, efforts are therefore being made to lower the combustion temperature.

The invention has for its object to keep the combustion temperature low and thus to reduce the NO _x formation ver.

The method according to the invention is thereby characterized records that the flame holder a primary portion of the burning material for superstoichiometric combustion is supplied and that the rest of the fuel is heated for self-carburization and as a secondary component in at least one stage downstream of the Flame holder is entered into the flame.

According to the invention, a step combustion is therefore used tet. The first stage is combustion on the flame holder. This combustion is extremely stoichiometric and is ongoing therefore at comparatively low temperatures. Here is followed by at least a second stage. The one However, certain air ratio fuel can also be required can be added in a larger number of stages. Between The flame gases occupy the individual addition stages agreed way back and get the opportunity To give off heat to the outside. The combustion temperature each level is therefore below the value that is when adding the fuel in a single stage would ask. The heat of reaction is released in a targeted manner, which leads to exact adherence to the desired heating surface burden leads.  

Also essential is the effect of self-burying, which results from the heating of the secondary portion of the fuel. The fuel is broken down, producing soot, among other things. This significantly increases the radiation emissivity of the flame, which in turn leads to a lowering of the flame temperature. In addition, the fuel is given the ability to partially reduce the NO _x formed in the previous combustion stage again.

The method according to the invention can basically be based on use any fuel. Special advantages, in particular with regard to the effect of self-carburization themselves when burning natural gas. The split occurs Temperatures of 600 to 650 ° C and it has been observed that the blue flame per se while improving the beam properties assumes an intense yellow color.

A preferred procedure results from the fact that the Secondary portion of the fuel is heated by the flame. The secondary portion of the fuel is processed by burning the primary part.

According to the invention, the secondary portion of the fuel can be radial be entered into the flame. This is possible from the outside Lich. However, it is more advantageous if the secondary component of the fuel is centrally entered into the flame. Man achieves very good mixing and uniformity Distribution.

To increase the latter effect, can be in the flame a swirl flow can be generated.  

The primary portion of the fuel can also be used according to the invention be entered radially into the combustion air. This is again possible from the outside. However, it is more advantageous also here that the primary portion of the fuel is central to the Combustion air is entered.

Finally, the combustion temperature fiction, ge according to further lower that downstream of the flame holder Inert gas is sucked into the flame. The inert gas acts as Cooling gas.

The invention also provides one in particular according to the burner with a flame neck ter, a housing surrounding the flame holder that upstream of the flame holder has an air duct, and a feed tion device for fuel in the area of flames holder is provided with at least one outlet opening, this burner characterized according to the invention is that the fuel supply device is downstream is extended beyond the flame holder and in which ver extended area has at least one outlet opening. The feeder divides the fuel into a Pri share of the amount that is on the flame holder with the combustion air burns stoichiometrically, and a secondary portion that is on its way through the extended area of the feeder device heated up to self-carburizing and split state enters the flame. Between the flame holder and the entry point of the secondary portion has the flame already released heat to the environment. The temperature is so comparatively low. It does not increase too much casual because the carburized fuel emits the radiation improved flame properties. According to the invention with a any number of levels can be worked.  

Preferably, the supply device for fuel is as lance formed through the flame holder. they penetrates the hot flame areas and leads naturally to heat the secondary portion of the fuel.

According to the downstream end of the lance can Show axial outlet opening. Alternatively or additionally the invention proposes that the lance in its downstream area extended beyond the flame holder at least has a ring of radial outlet openings. After one The lance also has another advantageous feature in the area of the flame holder at least one ring of radial exit openings on. In any case, for an even Ver division and thorough mixing ensured. The dimensions of the Aus the lance's openings are matched so that the respective stages of combustion set the desired air ratio.

A predefined subdivision into the primary part and second According to the invention, the proportion of där also results from the fact that upstream area of the lance surrounded by a cladding tube is which ends in the area of the flame holder and this one provided intended outlet for fuel. The The cladding tube is charged with the primary portion, while the Lance only leads the secondary part.

The cladding tube can according to a further feature of the invention be open at its downstream end. In addition or alternatively, the cladding tube can be at least one ring more radially Have openings.

For reasons of combustion technology, in particular for reasons the flame stability, one becomes the primary part of the burning upstream of the flame holder into the combustion air  initiate. However, there is also the possibility that the ent speaking outlet openings slightly downstream of the Flam to be provided. The latter then essentially works only as a baffle plate.

In a development of the invention, the burner is characterized shows that the housing surrounding the flame holder downstream of the flame holder forms a flame guide that min at least over part of the length of the feed device extends for fuel. In the case of an impulse burner you put the entire fuel supply inside the flame laying. With ceiling spotlights, however, there is definitely Possibility to protrude the lance from the flame guide to let. The lance is advantageously behind the end the flame leading to a funnel-shaped outlet opening expanded.

To offer the possibility of cooling gas being injected into the flame is sucked, the housing according to the invention in the area of Have flame guide injector nozzles.

The invention further provides that the flame holder as Swirl disk is formed.

In the following the invention is based on a preferred embodiment Example of the device according to the invention in combination hang explained in more detail with the accompanying drawing. The Drawing shows in:

Figure 1 is a schematic longitudinal section through a first embodiment of the burner according to the invention.

Fig. 2 shows the detail A of Figure 1, but in a modified embodiment.

Fig. 3 shows a schematic longitudinal section through a second embodiment of the burner according to the invention;

. Fig. 4 shows the burner of Figure 3 modified in easy mold;

Fig. 5 is a schematic longitudinal section through a third embodiment of the burner according to the invention.

According to Fig. 1 of the burner comprises a housing 1, in which is arranged a flame holder 2. Upstream of the flame holder, the housing 1 forms an air duct 3 and downstream of the flame holder a flame duct 4 . Through the flame holder 2 extends a supply device for fuel gas in the form of a lance 5th

The lance 5 is provided upstream of the flame holder 2 with outlet openings 6 for a primary portion of the fuel gas. This primary component is burned on the flame holder 2 strongly above stoichiometric.

At a distance downstream from the flame holder 2 , the lance 5 , which is closed at its end, has further outlet openings 7 , specifically for a secondary portion of the fuel gas. Before the flame gases reach the outlet openings 7 from the flame holder, they have already given off heat and accordingly reduced their temperature. Now if the secondary portion of the fuel gas through the openings 7 leads into the flame gases, the combustion temperature remains low compared to a combustion in which the entire fuel gas is introduced into the combustion air at a single point. Any number of stages for introducing the secondary portion of the fuel gas into the flame gases can be provided over the length of the lance 5 .

The secondary portion of the fuel gas is so strongly heated on its way through the lance 5 from the flame holder 2 to the outlet openings 7 that self-carburization occurs. The fuel gas is split up and soot is produced. This improves the radiation properties of the flame gases. Furthermore, there is a partial reduction in the NO _x formed in the previous combustion stage.

In addition, the housing 1 in the area of the flame guide 4 has injector nozzles 8 through which inert gas is sucked into the flame, which leads to flame cooling and accordingly to a further reduction in the formation of NO _x .

The fuel gas is emitted centrally and radially from the lance 5 through the outlet openings 6 and 7 . In the modified embodiment according to FIG. 2, the radial outlet openings 7 are replaced by an axial outlet opening 9 , which is located in the otherwise closed, downstream end of the lance 5 . The dimensions of the outlet openings are matched to one another in such a way that each stage of the combustion process receives the intended amount of fuel gas.

Referring to FIG. 3 primary and secondary component are supplied the fuel gas separately. The secondary portion reaches the lance 5 and is transported to the outlet openings 7 with appropriate heating. For the primary portion, a cladding tube 10 is provided, which surrounds the lance 5 upstream of the flame holder 2 . In the present case, the outlet openings 6 for the primary portion of the fuel gas in the cladding tube 10 are arranged directly upstream of the flame holder 2 .

The embodiment according to FIG. 4 differs only slightly from that according to FIG. 3. Instead of the outlet openings 6 , the cladding tube 10 is open at the downstream end, so that the primary portion of the fuel gas from the annular space between the cladding tube 10 and the lance 5 occurs. namely downstream of the flame holder 2 . Furthermore, the lance 5 is also open at its downstream end.

The embodiment described above represents pulse burners. Fig. 5 shows the application of the invention to a ceiling heater. The main difference is that the lance 5 extends beyond the flame guide 4 and is expanded to a funnel-shaped outlet opening 11 .

Within the scope of the invention, possibilities are given for further modifications. As already mentioned, this applies above all to the number of combustion stages. Furthermore, wherever a row of holes of outlet openings 6 or 7 is shown in the exemplary embodiments, several of which are provided. Axial outlet openings can also be combined with radial outlet openings. The flame holder 2 shown in the drawing is preferably formed as a swirl plate with Tial slots. However, any other type of flame holder can also be used.

Such combinations are also considered to be disclosed as essential to the invention tion of the claimed features by the enclosed Claims version differ.

Claims (20)

1. A method of operating a burner, the fuel and combustion air being fed to a flame holder, characterized in that the flame holder is supplied with a primary portion of the fuel for over-stoichiometric combustion and that the rest of the fuel is heated for self-carburization and as a secondary portion in at least one stage downstream of the Flame holder is entered into the flame. 2. The method according to claim 1, characterized in that the secondary portion of the fuel is heated by the flame becomes. 3. The method according to claim 1 or 2, characterized in that the secondary portion of the fuel radially into the flame is entered. 4. The method according to any one of claims 1 to 3, characterized ge indicates that the secondary portion of the fuel is central is entered into the flame. 5. The method according to any one of claims 1 to 4, characterized ge indicates that a swirl flow is generated in the flame becomes. 6. The method according to any one of claims 1 to 5, characterized ge indicates that the primary portion of the fuel radially in the combustion air is entered. 7. The method according to any one of claims 1 to 6, characterized ge indicates that the primary part of the fuel is central in the combustion air is entered.   8. The method according to any one of claims 1 to 7, characterized ge indicates that downstream of the flame holder inert gas in the Flame is sucked in. 9. Burner with a flame holder ( 2 ), a housing surrounding the flame holder ( 1 ), which has an air duct upstream of the flame holder, and a feed device for fuel which is provided in the region of the flame holder with at least one outlet opening ( 6 ) characterized in that the supply device for fuel is extended downstream beyond the flame holder ( 2 ) and has at least one outlet opening ( 7 , 9 , 11 ) in the extended area. 10. Burner according to claim 9, characterized in that the supply device for fuel as through the Flammenhal ter ( 2 ) passing lance ( 5 ) is formed. 11. Burner according to claim 10, characterized in that the downstream end of the lance ( 5 ) has an axial opening ( 9 ). 12. Burner according to claim 10 or 11, characterized in that the lance ( 5 ) in its downstream region above the flame holder ( 2 ) extended area has at least one ring of radial outlet openings ( 7 ). 13. Burner according to one of claims 10 to 12, characterized in that the lance ( 5 ) in the region of the flame holder ( 2 ) has at least one ring of radial outlet openings ( 6 ). 14. Burner according to one of claims 10 to 12, characterized in that the upstream region of the lance ( 5 ) is surrounded by a cladding tube ( 10 ) which ends in the region of the flame holder ( 2 ) and the outlet opening provided here ( 6 ) for fuel. 15. Burner according to claim 14, characterized in that the cladding tube ( 10 ) is open at its downstream end. 16. Burner according to claim 14 or 15, characterized in that the cladding tube ( 10 ) has at least one ring of radial openings. 17. Burner according to one of claims 9 to 16, characterized in that the flame holder ( 2 ) surrounding the housing ( 1 ) downstream of the flame holder forms a flame guide ( 4 ) which is at least over part of the length of the feed device for fuel extends. 18. Burner according to claim 17, characterized in that the lance ( 5 ) behind the end of the flame guide ( 4 ) is expanded to a funnel-shaped outlet opening ( 11 ). 19. Burner according to one of claims 17 or 18, characterized in that the housing ( 1 ) in the area of the flame guide ( 4 ) has injector nozzles ( 8 ). 20. Burner according to claim 9 to 19, characterized in that the flame holder ( 2 ) is designed as a swirl disk.