DE887025C - Method and device for atomizing a liquid - Google Patents

Description

Method and device for atomizing a liquid In the The technical application of the atomization of liquids corresponds to that achieved Degree of atomization of the liquid, d. H. their greatest possible division into the smallest Particles, have a special meaning too. So it is B. when taking place in this way Manufacture of dry milk powder, etc. on the one hand possible, the actual drying process 3 to shorten considerably, on the other hand, the later return to the liquid form to simplify significantly, in particular to accelerate, the smaller the diameter of the individual droplets when the liquid is split up and thus also the grain size their dry matter becomes. So far, attempts have therefore been made to determine the droplet size reduce mainly in a purely mechanical way, z. B. by the special arrangement and shaping of nozzles from which the liquids are simultaneously atomized leak through pressure or suction.

It has now been recognized; .that the splitting of the liquid into Very small particles with otherwise the same fluidic properties make individual atomizer parts, such as their nozzles and the like, much more effective leaves, if according to the invention, the liquid during its mechanical splitting and, if necessary, the influence of a stationary electric Field or a preferably high-frequency alternating electric field will. The invention is based on the fact that the surface tension of liquids is significantly reduced by electric fields, an effect which is particularly useful when treating electrically non-conductive liquids in high-frequency alternating fields by the then occurring at the same time dielectric heating of the liquids is particularly promoted, as with As the temperature of the liquid increases, its surface tension is also known decreases. For the last reason it is therefore advisable to increase the desired Success in not only subjecting the liquid to the action of an electric field, but in a further development of the invention they simultaneously, especially when used stationary electric fields, in the already preheated state the atomizer to feed.

The devices according to the invention for implementing the proposed -Processes can be designed in the most varied of ways. Essentially its structure will mostly only depend on whether it is an electrical atomization good or bad conductive liquids. So can especially in the latter Case two completely or partially forming the outlet openings of an atomizer nozzle Metal parts, which are insulated from one another, at different poles of a or AC voltage source and thus in a particularly simple manner as electrodes the corresponding electric fields acting on the atomizing liquid to serve. In the case of liquids with good electrical conductivity, on the other hand, you will do the same Advantageously, outside of the nozzles, an atomizing liquid jet is preferred Provide a completely enclosing electrode to which the nozzle isolated from it or only a part of the counter electrode of the one being used electric field forms.

To further explain the invention, reference is made to the drawing taken. In this one, restricted to the essentials, Fig. I shows one thing in itself designed as a double electrode atomizer nozzle and FIG. 2 one of FIG. 1 externally Similar, but with an additional electrode in front of it. The inventive The nozzle according to Fig. I consists of a nozzle head i, in which, for example, circular Outlet opening: 2 the tip of one for the liquid to be atomized on it Cone 3 protrudes, which in turn inside the nozzle body 4, from the nozzle head i is separated by a sealing ring 5 made of insulating material. Nozzle head i and body 4, both of which are made of a highly electrically conductive material each connected to one pole of a DC or AC voltage source 6, so that between the edges of the outlet opening: 2 and the tip of the cone 3 as electrodes a corresponding electric field forms, the field strength of which is determined by a at the same time the mechanical splitting of the liquid is favored by sharp edges Design of the exit edges can be increased significantly. Same purpose one A needle can also be used to increase the field strength locally is placed and reaches through the opening of the nozzle head. One in the Direction of the arrow through the nozzle, the liquid flowing through the nozzle is therefore simultaneously subjected to the force of an electric field on the nozzle opening, This is also the case with an electrically non-conductive liquid and alternating voltage excitation of the electrodes causes dielectric heating of the liquid.

While the arrangement shown in Fig. I primarily for not Conductive liquids are suitable, one becomes good electrical for liquids Conductivity, such as B. milk, expediently use a device according to Fig. 2, whose mechanical atomizer part i to 4 has the same external structure, only with the difference that nozzle head i and body 4 are no longer from each other are isolated, but can consist of one piece. But there is also one special ring-shaped electrode 7, which, for example, likewise ring-shaped insulating pieces 8 is separated from the nozzle head, placed on this and with the .eine pole one Direct or alternating voltage source 6 connected, all of whose other pole is again the The nozzle head i or the nozzle body 4 is connected as a counter electrode. the The potential difference occurring between these two electrodes is applied to this Way no longer bridged by the liquid jet inside the nozzle, but affects the liquid only while it is being sprayed and also afterwards from it, whereby by the latter circumstance at the same time the duration of action of the electrical Field is increased in an advantageous manner.

However, the device of this invention is not limited on the embodiments shown in the @ drawing, but can in manifold Way to be modified. So it is B. does not require that the nozzle made of metal consists. Rather, insulating plastics can also be used for them, if z. B. by metallization or by corresponding individual metallic parts care is taken that their causing the mechanical splitting of the liquid Outlet openings similar to the exemplary embodiments in FIGS. 1 and 2 can adequately serve as electrodes. To avoid the risk of an arc discharge between In some cases it is even advisable to reduce the electrodes, but none to use exposed, bare electrodes, but rather these in one way Insulating material with high dielectric strength and preferably a large dielectric constant to embed that a contact of the electrodes with the liquid, if necessary also in their atomized form is excluded.

It is of course also possible to use a circular one instead of a circular one Nozzle opening or any other cone protruding into it to choose initially only the purely mechanical atomization serving nozzle shape and their opening z. B. as a longer gap with one in this instead of a cone to form a wedge reaching into it, which latter then also several can carry needle electrodes protruding from the nozzle.

The additional action of electric fields according to the invention leaves continues with the same advantage with all other known mechanical Atomizing devices with a generally simple analogous adaptation to use their other structural design, z. B. in such devices that after Type of a fuel gasifier work.

Furthermore, it can also be expedient in the case of the arrangement according to FIG be the duration of the electric field by a similar to the part? the Fig. 2 to increase the nozzle head upstream additional electrode, this the same potential as the nozzle head, but possibly also one of this various things can be obtained and then to be arranged again in isolation, provided that one in consideration of a possible arc discharge between the electrodes already embedded in an insulating material.

So is the type of liquid to be atomized for the being of the invention insignificant, so that it is possible, the proposed method and -to use the associated facilities in a wide variety of technical fields. In addition to the already mentioned production of dry milk powder, one can therefore for example with particular advantage when spraying paints or when atomizing of water for the purpose of air humidification in air conditioning systems of the invention.

Claims (7)

PATENT CLAIMS: i. Method - for atomizing a liquid, preferably by means of nozzles, characterized in that the liquid during their mechanical splitting and possibly also the subsequent to it Effect of a stationary electric field or a preferably high frequency one electric alternating field is exposed. 2. The method according to claim i, characterized characterized in that the liquid is heated before it is atomized. 3. Establishment for the method according to claim i or 2, wherein the atomized liquid from a nozzle, characterized in that the parts made of metal the outlet opening (2) of the nozzle head (i) and the tip of one in the atomizer housing arranged atomizer cone (3) with preferably sharp edges from each other are isolated and at different poles of a DC or AC voltage source (6) lie. q .. Device for the method according to claim i or 2, in which the Liquid to be atomized emerges from a nozzle, characterized in that outside the nozzle in front of its outlet opening (2) a jet of liquid to be atomized preferably completely encompassing electrode (7) is arranged, to which the of this insulated nozzle or part of it is the counter electrode of an electric field forms. 5. Device according to claim 3 or q., Characterized in that the Nozzles from a nozzle head (i) which wholly or partially forms a field electrode For example, there are narrow, elongated or small circular openings (2), in that from inside the nozzle head (i) the tip of a wedge vein cone (3) protrudes, this wedge or cone optionally as a counter electrode of the electrical Field is used and then from the nozzle head (i) through an insulating ring (5) or the like. separated is. 6. Device according to claim 5, characterized in that on the tip of the wedge or cone (3) one or more needles are placed through the Reach through the opening (2) of the nozzle head (i). 7. Device according to one of the claims 3 to 5, characterized in that the field electrode in .der manner in an insulating material of high dielectric strength and preferably large dielectric constant is embedded that their contact with the liquid, possibly also in whose atomized form is excluded. Attached publications German patent specification No.714390.