DE1551648A1 - Atomizing burner - Google Patents

Description

Atomizing burner, The invention relates to an atomizing burner as well as its installation in a burner arrangement.

It ISTG for example from U.S. Pat. No. 2,519,619 (Yellot etc.)., Known that an acoustic vibration field. Higher energy can be obtained by directing a high-speed gas jet into a correspondingly tuned cavity and thus causing it to vibrate in resonance. Such a resonator is periodically put into strong pressure fluctuations at the resonance frequency. The high-speed gas jet is converted into a high-intensity sound jet.

The present invention solves the problem of providing a burner with a particularly resistance To create a resonator that is also suitable for the spraying of because of their viscosity and, corrosive Properties is suitable for unfavorable liquid fuels and works effectively de nnocho in particular the Resonator, is easy to manufacture and has little tendency to clog.

The burner according to the invention is characterized by a) a housing with gas and liquid supply channels in a concentric arrangement- * b) a gas outlet opening at the end of the gas channel or the housing i c) a deflection piece with a groove directed towards the gas outlet opening, which deflection piece with the housing in a more rigid manner Connection stands d) an annular groove carved out of the housing and acting as a resonator in a concentric arrangement to the gas outflow opening and d) a liquid outflow opening at the end of the liquid supply channel in a concentric arrangement to the resonator. This design according to the invention results in a more resistant and permanently functioning burner. Furthermore, the manufacture of this burner is simplified in that the gas inlet channel can be simply drilled.

However, it has emerged that it is not possible to use such an atomizing burner optionally with gaseous fuel instead of liquid fuel, IIt) (-; n, which obviously has a bearing on the compressibility of the gas-formlp. ( #n Fuel - which is a regulated one th of the gas from the narrow mouth of the for the f # «l # tssig -..- # Fuel channel * in the area of the vibration field prevented.

On the other hand, it was found that by arranging a further concentric Feed channel for a gaseous fuel, an optional operation of the atomizer nozzle with liquid or. gaseous fuel and even simultaneous operation is possible with both types of fuel. Forms a further subject matter of the invention hence an atomizing burner with three separate outflow channels in having concentric arrangement, of which the outermost channel for the supply of a combustible Gas is used and one of the two inner outflow channels is used to supply one liquid fuel and the other is used for the supply of a pressurized gas, wherein the deflector, the inner pressurized gas flow of the ring groove serving as a resonator, through which the pressurized gas is essentially in the ultrasonic range Schwingungszuttand is displaceable.

In the case of operation with liquid bar fuel, this is used alone Vibration field for atomizing the same and for mixing the fuel lever with the combustion air. In the case of operation with gaseous fuel alone the sound field causes the intimate mixing of the combustible gas mlt-the combustion air. In the case of a mixed operation, both effects occur side by side. at known atomizing burners also has the disadvantage .. that from the Fuel escaping from the atomizer nozzle, e.g. an oil mist, with the supplied combustion air not ignited at the nozzle itself but only at a distance from it. This can have the consequence that the flame moves further and further away from the atomizer nozzle and finally it is extinguished by too great a distance from it.

In order to avoid this, it has become known in the area of the atomizer nozzle Provide baffle plates through which the combustion air fed in parallel to the axis is deflected towards the center. As a result of the vortex formation caused by it the fuel mixes with the air more rapidly and more intensely, creating the flame can be stabilized at the nozzle.

However, these known baffle plates, apart from the fact that they represent another component that must be mounted in the combustion chamber, the disadvantage on that they have a strong tendency to coke as a result of the backwater and as a result of the aggressive Components of the fuel are soon subject to corrosion and therefore very are prone to failure or often have to be replaced by new ones.

Another subject of the invention is a burner arrangement, with which the position of the flame is achieved, even without baffle plates stabilize near the nozzle. To achieve this goal are according to the invention two channels concentric to the burner tube are provided for the air supply, whereby the air velocity in the outer duct is greater than that in the inner duct Air supply duct.

According to a preferred embodiment, the inner air duct has an approximately constant cross section and is provided near the opening into the combustion chamber with swirl plates which are preferably inclined by 30 to 600 relative to the longitudinal axis. In contrast, the cross-section of the outer air duct narrowing upstream of the mouth suitably into the combustion chamber, so as to increase the flow velocity of the air, may be provided in the constriction to the longitudinal axis by 40 0-700 also inclined vanes.

Exemplary embodiments of the invention are explained in more detail below with reference to the drawing. 1 shows an atomizing burner according to the invention in an axial longitudinal section, FIG. 2 this burner with a further channel surrounding it, FIG. 3 a schematic longitudinal section through a burner tube with an atomizing burner according to FIG. 2 and FIG. 4 an atomizing burner according to FIG the rig. 1 or 2 in a burner arrangement, also in axial longitudinal section.

1 , which shows the burner nozzle alone, shows a central tube 11 with a channel 2 for a pressurized gas and an outer tube 12, the distance of which from the tube 11 forms the channel 3 for the liquid fuel. On a centrally attached rod 13 in front of the mouth of the channel 2 there is a mushroom-shaped deflecting body 14, which guides the escaping pressure gas against a resonator designed as an annular groove 15 , whereby an oscillation field lying essentially in the ultrasonic range can be generated according to known physical laws. This oscillation field then causes the finest atomization of the fuel jet emerging directly next to it from the narrowed opening 17 of the channel 3 and also the intimate mixing of the fuel with the combustion air.

In Fig. 2 a burner nozzle is shown, which differs from that of FIG. 1 only in that it is surrounded by a further annular channel 4, which is limited on the one hand by the outer wall of the pipe 12 and on the other hand by a pipe 8. A further medium, for example likewise a compressed gas, can be fed to the nozzle through this channel 4.

From the overall view of the burner tube 1 In Pig. 3 you can see the middle channel '-.2 for the supply of a compressed gas (compressed air or combustible gas) and the outer channel 3 with a concentric ring cross-section for the supply of a pressurized liquid fuel. These components are encased in the front part to form the further concentric annular channel 4, which is intended for supplying a pressurized, gaseous fuel. In this channel 4 vanes 5 are provided with a Steigungewinkel between 20 0 and 450, to achieve einer'schrauben # örmigen flow, and a constriction 6 is provided, which serves to accelerate de s, from the mouth 7 flowing gas. In the area of the mouth, the Kadal .. preferably widens in the manner of a Laval nozzle, with it being delimited on the outside by the cylindrical jacket 8 and on the inside by a cone 9.

By choosing the appropriate pressure and exit speed The position and shape of the gas flame can be determined by the combustible gas and the angle of twist influence as much as possible.

It can be kept narrower or given a bushier shape will.

The compressed gas used to generate the oscillation field can be combustible Gas zein and possibly with the involvement of a pressure reduction device from one and the same supply line or the same pressurized gas container as that of the line 2 supplied gas originate, provided that the pressure for the formation of the oscillation field sufficient. But you can also use compressed air for this purpose, which then part of the represents the required combustion air.

In Fig. 4, the installation of a burner tube with a nozzle according to FIGS. 1 and 2 in a burner arrangement is shown there.

In the center of the burner arrangement is the burner tube 21, which carries the burner nozzle 22 at the front end. The 'burner tube is provided with' two connections 23 and 24 'at its rear end,' in front! one of which is used to supply the fuel and the other for a pressurized gas to achieve the atomizing effect.

Two air supply canciles 26 and 27 are arranged concentrically around the burner tube #. The inner air supply channel 26 has the same ring cross section over its entire length. Near its opening into the combustion chamber 25 , swirl holes 28 are provided which, similar to the swirl holes 5 in FIG. 3, are at an angle of 0 to 60-0 to the burner longitudinal axis. The outer feed channel 27, which on, -Assign a substantially larger Puerschnitt .. tapers at 29 before dcr orifice into the combustion chamber 25 and is also 'stand there with swirl vanes 28 the to the burner longitudinal axis at an angle of 40 0 to 70 0 "provided .

At the rear ends of the air supply ducts 26 and 27 , adjusting slides 30 and 31 are provided, which can be moved via tappets 7, 4 and 35 sliding through the sleeves 32 and 33 and can be fixed in their position by means of screws 36 and 37. Furthermore, the air supply ducts are connected to a common supply duct 40 in which a flap 39 is provided. The mode of operation of the arrangement is as follows: When the flame is ignited at the nozzle 22, the necessary combustion air is supplied via the channels 26 and 27. By appropriately setting the adjusting slides 30 and 31, it is ensured that the air flowing out from the air supply channel 27 has a higher speed than the air flowing out from the inner air supply channel 26. It should be noted that the air currents in both channels 27 and 28 have a strong swirl. As a result, and as a result of the different outflow velocities, strong air vortices form in the area of the burner nozzle 22, which lead to an intensive mixing of the combustion air with the fuel emerging in atomized form at the burner nozzle 22. In this way the flame at the burner nozzle 22 can be stabilized.

The particular advantage of this device is thus to be seen in the fact that the baffle plates in the combustion air supply that were customary up to now can be dispensed with. Furthermore, due to the intensive mixing of the fuels with the combustion air, the space 25 in front of the burner nozzle 22 can open into the main combustion chamber at a right angle without the usual bevel, without the risk of unburned gases escaping. In addition, the shape of the flame can be greatly influenced.

The flame can be influenced by the possibility of varying the quantities of combustion air supplied through the two channels 26 and 27 within wide limits.

Claims (1)

P atentans p r ü che 1. Zerstftubungsbrenner, characterized by a) a housing having mutually separated gas and Flüssigkeitszufuhrkanälen'in concentric Anordnungb) a gas exhaust port at the end of Gaskanals-, e) a deflection with directed against the gas outflow groove, which deflection piece with the housing is in a rigid connection * d) an out of the housing works.? .. acting as a resonator annular groove in a concentric arrangement to the gas discharge opening and e) a liquid discharge opening at the end of the liquid supply channel in concentric assignment to the resonator. U, 2. Burner according to claim 1, characterized in that it has three separate outflow channels in a concentric arrangement, of which the outermost channel (4) for a combustible gas and of the two inner outflow channels one (3) for a liquid fuel and the other (2) is for a pressure gas, and wherein a Unlenkstück (14) is provided, the jerk-gas flow the inner D a force acting as a resonator annular groove (15) feeds, durgh which the pressurized gas can be set in a substantially lying in the ultrasonic range vibrational state, the serves to atomize the liquid fuel and / or smear through the gaseous fuel of the pre-combustion air. 3.- Burner according to claim 2, characterized in that the outermost channel (4) has a gradual cross-sectional constriction up to a small cross-section (6) and then a mouth piece which widens, for example in the manner of a Laval nozzle, which is cylindrically limited on the outside. 4. Burner according to one of claims 2 or 3, characterized gekenfizeichnet that swirl plates (5) are installed in the outermost channel (4-) in front of the mouth to generate a helical outflow. 54 Arrangement with a burner according to one of Claims 1 to 4, characterized in that two channels (2625 271) concentric to the burner tube are provided for the air supply, the flow rate of the air in the outer channel (27) being greater than that that the inner air channel has in the inner channel. 6. Brenperanordnung (26) according to claim 5, -cladurch in (26) is approximately constant cross-section and close to the mouth in the combustion chamber with the longitudinal axis to preferably 30 0 to 6o 0. inclined vanes is provided (28). 7. the burner assembly of one of claims 5 or 6, characterized in that the cross section of the outer air passage (27) in front of. the orifice narrows in the combustion chamber, so as to increase the Str8mungsgeschwindigkeit the air. 8,. burner arrangement according to one of claims 5 to 7, characterized in that the amount of air flowing in the two channels (263 27) through air throttle valve (30, 31) is adjustable. 9. the burner assembly of One of claims 5 to 8, characterized in that fire plates (281) are provided in the outer air duct (27 ) which are inclined to the longitudinal axis, preferably by 40 to 70 °.