DE6604726U - PROCESS FOR MIXING A LIQUID WITH AT LEAST A SECOND GAS, LIQUID OR POWDER COMPONENT AND DEVICE FOR CARRYING OUT THE PROCESS - Google Patents

Description

PA TB N TA N WA'L TE

PATENT ADVOCATE DIPU-ING. R. MOLLER-BORNER PATENT Attorney DIPL-ING. HANS-H. WEY

B E RlI Ν · DAHlEM 33 · PODDI ELSKIALLEE «8 8 MÖNCHEN 22. Wl D E N M AYE R STR ASS E

TEL. 0311. 7 ', * 307. TElEGR. PROPINDUS TELEX 0184057 TEL. 0811 225585 TELEGR. PROPINDUS TELEX 052.1244

Sch 42 731 / I2e Gbm I9 669

Dr. -Ing. Fritz S c h ο ρ ρ e Ebenhausen / Isartal

Device for mixing one liquid with at least a second gaseous, liquid or powdery

Component ~ ^>

The object of the innovation is to provide a device for mixing a liquid with at least one second gaseous, liquid or powder component, especially for the production of relatively stable emulsions, foams and To create mists, with a stability of the mixture to be achieved, as it was previously only possible with the use of stabilizers could be obtained.

-Z-

According to the innovation, the task is solved by a first Part of a flow body to lower the static pressure of the liquid substantially up to or below its vapor pressure and one in the direction of flow to the first part of the Flow body adjoining second part to increase the static pressure of the liquid with the mixing component fed in via at least one feed line. In the According to the innovation, cavitation forces are released, as they are wholly or partially with static pressure increases evaporated, flowing liquids up to or below their vapor pressure occur in a known manner and by their destructive Effect on feed pumps, ship propellers, etc. are known.

Then you can mix a liquid with at least one second gaseous, liquid or powder component proceed after the innovation in such a way that the static The pressure of the liquid is locally reduced to up to or below its vapor pressure and the component of the liquid to be added is added at the latest when the vapor pressure is reached, whereupon the static pressure is increased.

With the innovation according to the device one Liquid, which is the second gaseous, liquid or powder form Component is to be mixed, bring to such a high speed that the liquid at least partially evaporated. The static pressure of the flow drops completely or partially below the vapor pressure of the liquid

at the associated temperature. The second, the first liquid The component to be admixed is the same as the one according to the innovation Device introduced into those zones of the flow in which the first liquid is wholly or partly in vapor form. The flow in the device according to the invention is then delayed, as a result of which the static pressure in the liquid increases. In this increase, the vapors condense suddenly in irregular sequence, with the vapor volume collapsing and the well-known cavitation occurring. This is with one short-term occurrence of extraordinary large local forces tied together. As a result of this cavitation, the particles become the second component to be admixed with the first liquid extremely hard and finely bruised and dispersed; it results This results in a considerable improvement in terms of size reduction and distributing the second component to be admixed with the first-mentioned liquid.

The device according to the invention is particularly preferred for the production of emulsions, fumigation of liquids for mixing liquids, breaking up coarser particles of powder lumps, colloids, etc.

In the production of emulsions, for example an emulsion of oil in water, that component which has the higher vapor pressure is advantageously used in the innovation according to the invention The device accelerates to such a speed that its static pressure is below the vapor pressure at the associated

G ß A / I ^ * 1 β

Temperature drops. In the present case, this would be the aqueous component. In the emerging local zones the oily component is introduced to the formation of steam, which is also done at high speed and correspondingly at a low rate static pressure can happen. In those zones where the water has partially evaporated, there is also one Certain evaporation of the oily component set in, whereby "water vapor and oil vapor are then in the gaseous phase mix well in the molecular range. The remaining oil particles are initially more or less coarse drops present in the water current. During the subsequent delay in the flow of water, the steam bubbles break due to the increasing static pressure in the form of hard blows together, the oil droplets being crushed and distributed extremely finely. The result is an emulsion that does too remains stable for a long period of time without stabilizers.

When gassing liquids, the amount to be added to the liquid is used gaseous component also introduced into those zones of the device according to the innovation in which the Liquid is partially vaporous. Here, too, there is a molecular and therefore excellent mixture between steam and then gas to be added. By the subsequent collapse of the vapor bubbles with the static pressure rising again, the gas bubbles remaining in the liquid become also extremely finely crushed and dispersed. Here, too, the fumigation effect is much more intense than with mechanical gas supply devices of the usual type.

Ill S

Furthermore, in the device according to the innovation of The advantage is that with a suitable choice of the initial pressure of the liquid in the zone of cavitation a strong negative pressure prevails, which is able to automatically suck in the second gaseous component.

In the device according to the innovation, for lowering the static pressure below the vapor pressure of the liquid achieve high flow velocities.

A first embodiment according to the innovation consists in that the first injector-like part of the flow body consists of a tube or housing or the like. With a subsequent Nozzle and the adjoining second part from a diffuser consists. The embodiment can be developed in such a way that that coaxially into the injector-like part a tube for supplying at least one component to be viewed protrudes, The mouth of the pipe is in the area of the largest negative pressure zone of the injector-like η part.

A second embodiment of the device according to the innovation is designed in such a way that the injector-like part has at least one opening in the area of the largest negative pressure zone has, to which a pipe for supplying at least one component to be admixed is connected.

A third embodiment of the device according to the invention consists in that the first part consists of an entry chamber which has an entry spiral for supplying the liquid with swirl and the second part consists of a chamber which is coaxially connected to the first part and widens conically in the direction of flow, The chamber with the inlet spiral is designed and arranged for an optimal liquid throughput in such a way that in 7.ar> f "r v; rr» ° ifh a negative pressure is set which is essentially equal to or less than the vapor pressure of the liquid and that on At the smaller or larger end of the chamber, a pipe extends in the axial direction of the chamber for feeding the components to be fed into the chamber. The static pressure can also be increased again by means of guide vanes, friction or other means.

A fourth embodiment of the device according to the invention consists in that the first part consists of a first section od, like. Flow path consists, which has a resistance body at its outlet end, which in the area The narrowest cross-section contains tear-off edges or the like, in the vicinity of which outlet openings for components to be mixed are arranged are, and that the second part consists of a second pipe section coaxially adjoining the first pipe section with the same or expanding diameter. As is known, a stall occurs in that at sufficient With a small radius of curvature of the edge the flow would have to have a very high speed in order to match the small

Radius of curvature to follow. Here, too, with a suitable arrangement and design, the vapor pressure is locally the Liquid has fallen below and vapor formation has been achieved.

In all the cases mentioned, for example, it does not matter which means behind the steam formation zone the static Pressure is increased again. This is a measure which can be easily achieved with the known means of fluid mechanics can be.

If the component to be added to the first liquid is powdery, this is often the first contact with the liquid due to the surface forces between the individual more or less moistened powder particles to larger particles, lumps or the like. -to bake. This makes mixing or fine distribution of the powder in the liquid more difficult. By the cavitation forces such agglomerations are also broken up and the individual solid particles are neatly evenly distributed distributed in the liquid or mixed with it.

Of course, the component to be added to the liquid can also be added before the static pressure is reduced mix in the innovation according to the device, initially a more or less good premix is created in order to then treat the mixture in the manner according to the innovation, thereby effecting the final fine blending.

Il · ·

In Figures 1 to 4 of the drawing, some are particularly important Preferred embodiments according to the innovation devices shown schematically, which below in detail are described in more detail. Show it:

Fig. 1 shows an embodiment of the innovation ge mass mixing device in the form of an injector;

2 shows a second embodiment in injector form;

Fig. 3 shows a mixing device according to the? Twist principle and

4 shows a mixing device according to the flow separation principle.

In the individual figures, the main flow component is always ^{labeled "A ft} ; it is accelerated to such an extent that its pressure drops below the vapor pressure and cavitation occurs.

The second component to be viewed is labeled ¹¹ B "; it is introduced into the cavitation zone.

The device according to the invention shown in FIG. 1 has in the essentially the shape of an injector, consisting of a Tube or housing 11 or the like. One adjoining this Nozzle 12 and the downstream diffuser 13. The main flow component A is accelerated in the nozzle 12 in such a way that that the desired negative pressure is achieved. the

4 ta «· ··

. ι t t *

-9-

The second component B is parallel to the main flow component A through the feed pipe 14 into the negative pressure zone 15 guided in, in which the mouth 16 is located.

The device according to the invention according to FIG. 2 corresponds in its basic structure to that according to FIG. 1; ^{with it, however, the second component B is introduced into the negative pressure zone 15 1} through bores 17 in the wall of the nozzle 12 'of the injector 11'. The component B is supplied via the pipe 18 and the annular chamber 19-

In the device according to the invention according to FIG. 3, the negative pressure is generated by rotating the liquid. In the conically widening chamber 20, the main flow component A is tangential with Diall over the pipe 21 into the Entry chamber 22 introduced. As a result of their rotation, there is a strong negative pressure in the center of the inlet cross-section a, which occurs a corresponding return flow from the chamber outlet 23 along the chamber axis 24 to the chamber 22 results. The second component B is fed into this return flow through a coaxial tube 25 with a nozzle mouthpiece 26 introduced and cross-section from the return flow to the area of the lowest pressure in the center of the inlet transported.

In Fig. 4 a device according to the innovation is shown at which the cavitation is generated by the fact that in a flow cross-section of any shape, for example in a tube 27, a "resistance body 28" is arranged.

Between the conically widening in the flow direction Resistance body 28 and the inner wall of the tube 27 is the liquid accelerates greatly. At the tear-off edge 29 at the rear end of the resistance body 28 arises under known Conditions also cavitation. The second component B is near the tear-off edge 29 over the hollow central

XW / -L £ SVA l_T * Sj WU.I? ^ WWl ^ v ** £ ^ w ... * fs «« _V j * V * «^ r« · «« - g - · - w »-» -. ^ * —- · .— «- - w «yw

the vacuum zone of component A initiated. Over the pipe 31, the supply takes place in the hollow resistor body 28.

Claims (9)

Protection claims 1. Device for mixing a liquid with at least a second gaseous, liquid or powdery Component or for fine mixing of mixtures of such components, characterized by a first Part (11, 12) of a flow body to reduce the static Pressure of the liquid essentially up to or below its vapor pressure and one in the direction of flow the first part of the flow body to the chi ".essenden second part (13) for increasing the static pressure of the liquid with the at least one feed line (14,25, 31> draft-guided mixed component. 2. Device according to claim 1, characterized in that the first injector-like part (11, 12; II ¹ , 12 ') of the flow body consists of a tube or housing (11, 11) or the like with an adjoining nozzle ( 12, 12 ') and the adjoining second part (13) consists of a diffuser. 3. Apparatus according to claim 2, characterized in that coaxially in the injector-like part (11, 12) a tube (14) for Supplying at least one component to be admixed protrudes, the mouth (16) of the tube (14) being in the The area of the largest negative pressure zone of the injector-like part is located. 4. The device according to claim 2 or 3, characterized in that the injektorartige part (II ^1, 12 ') in the area of ^gr: having Sssten underpressure zone at least one opening (17) to which a tube (18) for supplying admixed at least one Component connects. 5. Apparatus according to claim 1, characterized in that the first part consists of an entry chamber (22), the entry spiral suf feed of the liquid with swirl and the second part consists of a coaxially adjoining the first part and conical in the direction of flow expanding chamber (20), the chamber (22) with the inlet spiral for an optimal liquid throughput being designed and arranged in such a way that in the Center a negative pressure is established which is essentially equal to or less than the vapor pressure of the liquid and that at the smaller or larger end of the chamber (20) -sich in the axial direction of the chamber (20) a tube (25) for Feeding the component to be admixed into the can (20) extends. 6. The device according to claim 1, characterized in that the first * = »part from a first pipe section or the like. Flow path consists, which has a resistance body (28) at its outlet end, which in the fjereich of the narrowest Cross-section of tear-off edges (29) od. The like. Contains, in the vicinity of which exit openings for zuzumi seeing; Components are arranged, and that the second part consists of one on the first pipe section coaxially adjoining second pipe section with the same or widening diameter consists. 7. Apparatus according to claim 6, characterized in that it is gelce-n ^ geiRhnet. because it. the resistance body (28) is designed as a hollow body, which widens conically in the direction of flow and near the tear-off edges (29) there are peripheral openings (30) to the outlet the mixed component supplied via a line (31). 8. Device according to one or more of the preceding claims 1 to 7, characterized in that the line (14; 17, 18; 30, 31) for supplying the mixed component in the area the local steam generation zones of the mixing container exit. 9. Apparatus according to claim 8, characterized in that the outlet of the line is designed like a nozzle.