DE1189522B - Device for the finest distribution of gases in liquids - Google Patents

Description

Device for the finest distribution of gases in liquids The invention relates to a device for the finest distribution of gases in liquids. In the following, "gas" means any gaseous body, both pure as well as in a mixture with others, e.g. B. Oxygen, carbonic acid, hydrogen, atmospheric To understand air, etc., as well as steam. The "gas" can also be mixed with liquid or solid be interspersed with the finest particles.

Known devices for the distribution of gases in liquids consist of a hollow shaft with a hollow shaft that also serves to supply gas Hub, to which hollow bodies are connected, which by means of the shaft in which the to The vessel containing the fumigating liquid is set in rotation. This rotating Hollow bodies usually have the shape of long tubes or hollow wings attached to their Surface openings for the passage of the gas and for its distribution in the Have liquid.

Here, wing-like hollow bodies with streamlined ones have proven particularly useful Cross-section.

In another embodiment of such a distributor, the rotating Hollow body also used as a pump for sucking in the gas through its hollow shaft, and the outlet openings in the hollow body are arranged so that of these Openings a gas-liquid mixture radially outwards against the baffles of a the gas distributing stator is thrown.

It has also been proposed that the guiding devices in essentially as simple channels that are open at the rear over their entire length to train and to set in rotation at such a high speed that behind elongated vacuoles arise in the liquid in the guide devices, so as to do so to achieve a particularly effective distribution of the gas in the vortex braid of the vacuoles.

It has now been found that such channel-like guide devices for the creation of the vacuoles on the rear side do not have to be open, because the vacuoles, in any case, at a sufficient speed of rotation of the grooves from the outermost surface lines of the channels, form with a streamlined profile. These According to the invention, fact is exploited in a useful manner in order to obtain such Form channel-like guide devices liquid channels that are advantageous can be used for the supply of liquid.

For this purpose, the invention is based on a device for finest distribution of gases in liquids using radial to at least one approximately vertical axis of rotation arranged, ro- animal, channel-like guiding devices, at the back of which the gas is supplied under pressure. The invention consists in that in each channel-like guide device one with a central connection line connected liquid supply channel is provided on the back of the Guide device has openings, which have an outlet via the central connecting line allow supplied liquid, with the guide devices at such a high speed rotate so that a vacuole is created in the liquid along its rear side.

It has been found that with gassing devices with rotating Vacuoles increase the mixing of the gas with the liquid to be gassed can be that the liquid to be fumigated into the interior of the during operation the device generated vacuoles is introduced. This means that the Vortices, which emerge from the surface of the channel creating the vacuoles, to the intimate Mixing of the freshly gassed liquid with the introduced gas can be used made.

The boundary layer lying on the guide surface is already in the treatment vessel located liquid can in the deceleration area following the guide device the flow the pressure increase occurring in the outer, so-called healthy flow for lack of kinetic energy do not participate and dissolve in more or less strong Swirl away from the guide surface. This outgoing fluidized bed forms the edge area the vacuole, absorbs gas parts from the vacuole and is located themselves in turbulent motion. In this zone, which is intimately mixed with gas, the becomes fresh liquid to be gassed introduced from the hollow body producing the vacuole.

To form the liquid feed channel, the channel-like The rear of the guiding device must be closed off with an essentially flat wall, which leaves openings free at its edges for the escape of liquid.

In another embodiment, the channel-like guide device formed by a flexible wing in which a support arm for the wing Serving pipe is arranged, which the openings for the liquid outlet having.

Various embodiments are schematically shown in the drawings of the invention shown, in which still further features of the invention Device to be explained. All not directly related to the invention Details such as drive, supply and discharge of gas and liquid from the gas to be fumigated Vessel, etc., have been omitted.

Fig. 1 and 2 represent a vertical section and one against this Section plane rotated, partially sectioned side view of a distribution device according to the invention; F i g. 3 shows a horizontal section to FIG. 2; Fig. 4 to 6 represent different cross-sections through the guide device according to the lines 4-4, 5-5 and 6-6, respectively, in Figure 3; Fig. 7 shows another embodiment of the guide device in cross section.

In the case of the distribution device according to FIGS. 1 to 3 will be the one to be distributed Gas is supplied via a pipe al to a hollow hub a, either from below by means of an additional shaft or from above by means of the one in this Case at the same time serving as a hollow shaft pipe a1 is set in rotation. With the hollow hub a or with a hollow body-like extension a 'of the same are channel-like guide devices b connected, the concave or open side the direction of rotation is reversed. These guide devices b extend from the axis of rotation from expediently straight up to the vicinity of the vessel wall. The device according to 1 to 3 is equipped with two diametrically opposed guide devices. The number of these guide devices can of course be increased as long as that of A vacuole generated by a guide device is not caused by the following guide device is disturbed.

The channel-like guide device b, which is attached to the hollow body attachment a ' the hub a adjoins is, as in particular the sections according to FIGS. 3 to 6 show, covered on the concave side by a web plate e so that on the both longitudinal edges of this web plate, which face the channel profile b, narrow slit and g remain free. In those formed in this way partially closed channel h opens in the area of the hub a, a supply line i for the liquid to be fumigated; the line i opens z. B. in a pipeline a surrounding inlet funnel k.

If this distribution device in the sense of FIG. 3 drawn Arrow set in rotation in such a way that the concave sides of the guide profiles of the direction of rotation have turned away, these pro file or the routing devices from which they surrounding liquid in the in F i g. 6 flows around the manner shown. The guiding profile b closest liquid threads form a vacuole V, inside of which the Z. B. on the hollow shaft a ,, the hub a and its extension a 'through the Outlet opening c inflowing gas moves outward. The one to be fumigated fresh liquid flows from the line i into the channel h and is from there through the slot-like openings f, g (Fig. 5 and 6) into the turbulent surface layer introduced into the vacuole. Some of the gas is already flowing through the flow around the vacuole Liquid dissolved in small bubbles, but essentially only in the pigtail The vacuole was crushed to the finest bubbles and then introduced into the vacuole or these surrounding liquid mixed.

Should be the amount of gas to be distributed in the liquid at each appropriate power consumption can be varied, so the vertical height (shadow area) the guide device b generating the vacuole according to FIG. 7 made changeable be made by the guide device by a normally flat, elastically deformable Wing d is formed, behind which a at the same time as a support arm for the wing serving and the duct h forming conduit r is located, the openings f, g for has the liquid outlet. If this device is set in rotation, so the elastic wing d deforms according to the difference between the two Side pressures acting on him. The wing d therefore takes in the liquid the concavely deformed or channel-like shape indicated in FIG. 7. The layers of liquid are deflected, starting from the upstream side, and close in some Distance again to some extent. A vacuole thus arises. The The height and length of this vacuole V depend on the amount of the flowing through the vacuole Gas dependent. The wing d can be made of rubber or plastic of appropriate elasticity or consist of a thin sheet of metal.

In the embodiment described with reference to FIGS a circulation of the liquid to be gassed occurs within the the liquid containing vessel when the upper ends of the liquid in the channel h of the guide device b, e leading connection pipes i with a funnel-shaped Inlet body k are provided (Fig. 1), the upper edge of which is below the liquid level lies. If the inlet funnel k is omitted, the circulation speed can be increased of the liquid the inlet end of the tube i with one pointing the direction of rotation Be provided inlet mouthpiece.

The inlet funnel k is arranged above the liquid level on, the fresh liquid to be gassed can pass the vacuole via the slit-like Openings f, g are fed from the channel h from the outside. Instead, you can also by means of a pump liquid in the circuit from the bottom of the vessel, if necessary Be conveyed via a heat exchanger into the inlet funnel k.

Claims (8)

Claims: 1. Device for the finest distribution of gases in liquids by means of radial to an at least approximately vertical Axis of rotation arranged, rotating, channel-like guide devices, at the back of which the gas is supplied under pressure, d u r c h e -k e n n z ei c h n e t that in each channel-like guide device (b) one with a central Connecting line (i) connected liquid feed channel (h) is provided, which has openings (f, g) on the rear side of the guide device, which have an outlet allow the liquid supplied via the central connecting line, wherein the guiding devices rotate at such a high speed that along their rear side a vacuole is created in the liquid. 2. Apparatus according to claim 1, characterized in that the guide device (b) to form the liquid feed channel (h) on the rear with an essentially flat wall (e) is completed, the openings (f, g) at their edges for the Leaves free fluid leakage. 3. Apparatus according to claim 1 or 2, characterized in that in the guide device formed by a flexible wing (d) at the same time as a support arm for this wing serving pipe (r) is arranged that the Has openings (f, g) for the liquid outlet. 4. Device according to one of claims 1 to 3, characterized in that that the connection line (i) opening into the liquid feed channel (h) for the fluid supply with its upper end close to the fluid level reaches so that a circulation of the liquid takes place. 5. Apparatus according to claim 4, characterized in that the upper End of the connecting line (i) for the liquid supply to one in the direction of movement the guide device pointing inlet mouthpiece is designed. 6. Device according to one of claims 1 to 3, characterized in that that the upper end of the connection line (i) for the liquid supply to an inlet funnel (k) is connected, which is optionally coaxial with the drive shaft (al) for the guide devices (b) is arranged. 7. Apparatus according to claim 6, characterized in that the upper edge of the inlet funnel (k) above the highest liquid level in the vessel is and the liquid to be gassed the inlet funnel from the outside or from is fed to the bottom of the vessel by means of a pump. 8. Device according to one of claims 1 to 7, characterized in that that a rotating hub (a) is followed by at least one hollow body (a ') which through an essentially vertical wall (s) into two radially extending channels is divided, of which one (h) is used for the fluid supply and in the hollow hub (A) is connected to a connecting line (i), while the other is the gas supply serves and in the hollow hub to a separate pipeline, preferably to the as Gas supply line used hollow shaft (al) of the hub, is connected. Documents considered: German Patent No. 961 795.