DE4002238A1 - Liquid fuel burner - has nozzle off centre in burner tube and connected to common feed pipe - Google Patents

Abstract

The liquid-fuel burner has a combustion chamber formed by a burner tube of preferably round cross-section. The tube (11) contains two or more independent spray nozzles (15, 16, 17), mounted off-centre and connected to a common feed pipe (23). They can be situated at a distance from the tube axis equal to roughly one-quarter of the tube diameter. ADVANTAGE - Optimum mixture combustion at low temperature in chamber.

Description

The invention relates to a burner for Ver burning of liquid fuels with one by one Burner tube with a preferably circular cross section formed combustion chamber.

In oil burners of this type are centered in the burner pipe one or more, usually three right next to each other other arranged atomizer nozzles used, the Combustion air each in a traffic jam disc incorporated opening is fed. The too atomizer nozzles combined in a block thus act since they form a compact common flame, like one with an atomizer nozzle equipped burner, so that thereby the combustion is not affected. Despite the elev Lichen construction work can therefore also by a multiple arrangement of atomizing nozzles the proportion of nitrogen oxides not be reduced in the exhaust gases, because on the one hand the Flame mostly through the large opening in the baffle plate a lot of combustion air, which is only partly due to the combustion participates, is fed, on the other hand by the compact Burner flame a high core temperature and thus a high one Nitrogen oxide content in the exhaust gases is unavoidable.

The object of the invention is therefore an oil burner to create the aforementioned type, the optimal Ver gassing and extremely good combustion of the air-fuel gen mix at a low temperature level in the kiln chamber allows so that the proportion of nitrogen oxides in the Exhaust gases to a considerable extent compared to the comparison cash refinements can be reduced. The flame should therefore burn out blue and the ver combustion air should, in order to avoid excess air, be adaptable to the flame. Furthermore, the required construction costs should be kept low, too Burners can be retrofitted to burn in existing ones To improve plants and thus a nitrogen oxide reduction guarantee.

According to the invention, this is achieved in that the burner tube two or more together to one Fuel supply line connected atomizer nozzles are arranged off-center and independently of each other.

It is expedient to use the atomizer nozzle with each about 1/4 of the diameter of the burner tube speaking distance to its longitudinal axis in this put and each atomizer nozzle one in one in that Burner tube inserted baffle plate incorporated Assign aperture.

After further training, the combustion temperature Lower the door additionally and thus the proportion of the stick further reduce oxides to supply exhaust gas into the Combustion chamber in the burner tube preferably concentrically this one to a boiler room assigned to the burner connected feeder can be used, which in Area of the combustion chamber one or more outlet openings features.  

The exhaust gas supply member can have a simple design as adjustable in the axial direction of the burner tube arranged preferably closed tube at the end be formed, in the jacket and / or in whose the outlet facing the combustion chamber openings preferably in the form of bores, elongated holes or the like are incorporated.

In order to ensure a long service life, that should Exhaust gas supply pipe made of a ceramic material consist.

It is also appropriate to use the exhaust gas supply pipe at the end protruding into the combustion chamber with a extending in the direction of the atomizing nozzles, for example cross-sectionally rectangular or spherical formed approach to provide in the outlet openings are incorporated.

According to a different design, the exhaust gas can guide member but also as a center to the atomizer nozzles arranged gas nozzle can be formed.

It is also appropriate to use the cross section of the Exhaust gas through which the exhaust gas can flow leader z. B. using a slider to ver place in the boiler room with the flue gas supply link connecting a preferably controllable Insert fan and an on in the burner tube Direction for burning gaseous fuels to provide. This means that not only the one to be fed in each case Exhaust gas volume to the respective operating conditions fit, but it's also a versatile use availability of the burner.  

A burner according to the invention is formed by several in the burner tube with a lateral spacing other eccentric atomizer nozzles installed are injected into the combustion chamber Fuel mixed homogeneously with the combustion air, and it forms in front of each atomizer nozzle a blue burning flame with a low core temperature so that the proportion of nitrogen oxides in the exhaust gases is extremely low. Because the performance of a burner is generated by several flames and the given arranged openings in the baffle plate and thus the The combustion air is easily fed to the ver the atomizer nozzles used are short Burnout times at a low temperature, through which the oxidation process is also reduced. And through the targeted centric supply of exhaust gases the individual can from the boiler room into the combustion chamber Burner flames cooled, reducing the proportion of stick oxides in the exhaust gases can be further reduced.

In the drawing, an embodiment of the according to the Invention trained burner shown that after is explained in detail below. Here shows:

Fig. 1 equipped with a three atomizing oil burner in an axially perpendicular section and partly in schematic representation;

Fig. 2 shows the burner according to Fig. 1 in front view,

Fig. 3 shows the burner according to Fig. 1 with a centrally arranged feed member for introducing exhaust gases into the combustion chamber in an axially perpendicular section,

Fig. 4 shows the burner of FIG. 3 in front view and

Fig. 5 shows the burner of Fig. 3 with differently shaped feed members.

The burner shown in Figs. 1, 3 and 5 and respectively 'designated by 1 and 1 is used for the combustion of liquid media, consisting essentially of a burner tube 11, the supply conduit through a baffle plate 12 in an air 13, and a combustor 14 is divided, as well as three atomizers used in the burner tube 11 , 15 , 16 and 17 , which via a filter 24 provided with a common fuel line 23 , which branches into the lines 23 ', 23 ''and 23 ''', by means of a in this pump 22 used the fuel is supplied from a reservoir 21 . The atomizing nozzles 15 , 16 and 17 , each of which is assigned an ignition electrode 26 , are held in a rear wall 27 of the burner tube 11 . The air supply line 13 , in which the combustion air supplied by a ventilator 25 is supplied, is in this case inserted into a wall 4 of a boiler 2 and fastened to it by means of a holder 5 , so that the burner tube 11 with the part forming the combustion chamber 14 in the Boiler chamber 3 of boiler 2 protrudes.

The atomizing nozzles 15 , 16 and 17 are arranged off-center on a diameter which corresponds to approximately half the diameter of the burner tube 11 . In addition, each cerium is stäuberdüse 15, 16 and 17 inserted in the baffle plate 12 working aperture 18, 19 and 20 associated with the supply of the combustion air to the atomizing nozzles 15, 16 and 17 thus takes place selectively without high excess air, so that in the combustion chamber 14 each form three flames, which have a low core temperature and thus an almost stoichiometric combustion is guaranteed at a low temperature level. The proportion of nitrogen oxides in the exhaust gases is reduced to a considerable extent in this way compared to oil burners of comparable design.

In order to additionally cool the flames in the combustion chamber 14 and thereby further lower the temperature level, a feed member 31 is inserted in the burner 1 'according to FIG. 3 centrally between the atomizing nozzles 15 , 16 and 17 , which is connected via a pipe 35 to the boiler chamber 3 of the boiler 2 is connected so that 14 exhaust gas can be introduced into the combustion chamber. The supply member 31 is designed as a front-end exhaust gas supply pipe 32 , which in the combustion chamber 14 projecting area, both in the jacket and in the end wall with holes, slots or slots formed openings 33 for the exit of the flue gas is provided. In addition, the Abgaszu guide tube 32 in to the baffle plate 12 and the rear wall of the burner tube 11 provided bearing points stored 27 34 in the axial direction A of the burner tube 11 slidably, and in the conduit 35, a controllable fan 36 is inserted, by means of which to be introduced into the combustion chamber 14 The amount of flue gas to be regulated. This can also be accomplished with the aid of a slide 39 , through which the flowable cross-sectional area of the openings 33 of the exhaust gas supply pipe 32 can be more or less closed. An optimal setting and adaptation of the burner 1 'to different operating conditions is therefore easily accomplished.

The exhaust gas supply member 31 can, as shown in Fig. 5, be provided at the end projecting into the combustion chamber 14 with a cross-sectional approach 37 or a spherical approach 37 ', in which outlet openings 38 and 38 ' are incorporated. The flue gas removed from the boiler room 3 can thus be fed directly to the flames forming in front of the atomizing nozzles 15 , 16 and 17 in order to further reduce the nitrogen oxide content.

Claims (11)

1. Burner for the combustion of liquid fuels with a combustion chamber formed by a burner tube with a preferably circular cross-section, characterized in that in the burner tube ( 11 ) two or more, common to a fuel supply line ( 23 ), connected atomizer nozzles ( 15 , 16 , 17 ) are arranged off-center and independently of one another. 2. Burner according to claim 1, characterized in that the atomizing nozzles ( 15 , 16 , 17 ) are each inserted with an approximately 1/4 of the diameter of the burner tube ( 11 ) corresponding to its longitudinal axis (A) in this. 3. Burner according to claim 1 or 2, characterized in that each atomizer nozzle ( 15 , 16 , 17 ) is associated with an aperture ( 18 , 19 , 20 ) incorporated in a baffle plate ( 12 ) inserted into the burner tube ( 11 ). 4. Burner according to one or more of claims 1 to 3, characterized in that for supplying exhaust gas into the combustion chamber ( 14 ) in the burner tube ( 11 ) preferably concentrically to this one to a burner ( 1 ) assigned to the boiler space ( 3 ) Connected supply member ( 31 ) is used, which has one or more outlet openings ( 33 ) in the region of the combustion chamber ( 14 ). 5. Burner according to claim 4, characterized in that the exhaust gas supply member ( 31 ) as in the axial direction (A) of the burner tube ( 11 ) is arranged arranged at the front closed tube ( 32 ), in the outer surface and / or the combustion chamber ( 14 ) facing end face, the outlet openings ( 33 ) are preferably incorporated in the form of bores. 6. Burner according to claim 5, characterized in that the exhaust gas supply pipe ( 32 ) consists of a ceramic material. 7. Burner according to claim 5 or 6, characterized in that the exhaust gas supply pipe ( 32 ) at the in the combustion chamber ( 14 ) projecting end with one in the direction of the atomizer nozzles ( 15 , 16 , 17 ) extending, for example rectangular in cross section or spherical projection ( 37 , 38 ) is provided, in the outlet openings ( 37 ', 38 ') are incorporated. 8. Burner according to claim 4, characterized in that the exhaust gas supply member ( 31 ) is designed as a centrally to the atomizing nozzles ( 15 , 16 , 17 ) arranged gas nozzle. 9. Burner according to one or more of claims 5 to 7, characterized in that the cross section of the exhaust gas through which the outlet openings ( 33 ; 37 , 38 ') of the exhaust gas supply member ( 31 ) z. B. is adjustable with the aid of a slide ( 39 ). 10. Burner according to one or more of claims 4 to 9, characterized in that in the boiler chamber ( 3 ) with the exhaust gas supply member ( 31 ) connecting line ( 35 ) a preferably controllable fan ( 36 ) is used. 11. Burner according to one or more of claims 1 to 10, characterized in that a device for burning gaseous media is provided in the burner tube ( 11 ).