DE102009031106A1 - Method for degassing a liquid - Google Patents

Abstract

The present invention relates to a method and a device for degassing a liquid. In this case, pressure fluctuations with gas cavities arising in pressure minima are produced in the liquid by means of a device (2) for generating such pressure fluctuations, in particular a sound generator (2). The gases are separated from the liquid. This happens according to the invention in the course of a spray degassing.

Description

The Invention relates to a method for degassing a liquid, after which in the liquid pressure fluctuations with in pressure minima created resulting gas cavitations and thus generated and / or existing gas bubbles or in general the gases are separated from the liquid.

The degassing of liquids by the generation of pressure fluctuations is basically known and is in the DE 197 36 671 A1 described, which represents the genus in this respect. As a result of the sound waves or ultrasonic waves generated at this point, there is the periodic formation of pressure minima and pressure maxima in the liquid to be degassed. In the area of pressure minima cavities or cavitations form. In these cavities diffuse the dissolved gases in the liquid or related thereto gas bubbles and ensure that the cavitations do not coincide under the influence of external pressure by bubble injection again. For this reason, one speaks here of the soft or gas cavitation, in which gases dissolved in the liquid enter the cavitation and dampen or prevent their collapse.

Of the generic state of the art has basically proven. However, the plant and process engineering Effort immense. Because for the ultimate separation between the liquid and the gas contained therein or the plurality Gas is provided by a reactor which works with centrifugal action. In fact, the substantially cylindrical Reactor via an outer container and a rotatably mounted in the outer container and perforated inner containers on part of its length. The liquid can now be controlled by it degas that they are exposed to heavy physical stress becomes. This can be attributed to the centrifugal action in the Inner container, a shearing action on the perforation holes of the Inner container and finally the impact on the Return the inner wall of the outer container. The However, it is summarized with a large plant engineering Construction accomplished. - This is where the invention starts.

Of the Invention is the technical problem underlying such a To develop a process for degassing a liquid so on that the effort and consequently the costs are reduced. Furthermore intended to be a particularly suitable device be put.

to Solution of this technical problem is a generic Process for degassing a liquid characterized that a spray degassing is performed. - In the The scope of the invention are thus in the treated or to degassing fluid generates pressure fluctuations that First of all for an increased separation gases from a liquid. This gas separation is intensified in the invention by this and further reinforces that the liquid of a spray degassing is subjected.

In such a spray degassing, the liquid to be treated undergoes a fine distribution, so that a high specific liquid surface is formed. That is, the surface of the liquid to be treated is multiplied in an associated spray degassing device. This enhances the effect of degassing. Such degassing is required, for example, to reduce or generally adjust the CO ₂ content of natural mineral waters as needed. In this case, the invention takes advantage of the fact that, first of all, a large amount of evenly distributed gas bubbles is produced by the pressure fluctuations with the gas cavitations arising in pressure minima.

The considerable number and narrow distribution of these gas bubbles makes a huge bubble total surface within the liquid or within the liquid phase out. Migrate any gases dissolved in the liquid large area in the appropriately distributed gas bubbles, which as a result of this rapidly grow in size grow. At the same time the glass bubbles rise to the surface and release their gas components from the liquid. So In any case, the procedure is when the pressure fluctuations produced in a more or less dormant liquid become.

According to the invention finds but now a spray degassing of the liquid instead, being in the liquid before the spray degassing the pressure fluctuations in question are generated. To this end like in the liquid before the spray degassing Sound waves and in particular ultrasonic waves, so sound waves outside the audible range. In any case, the thus treated liquid is characterized by a considerable number and narrow distribution of already formed Gas bubbles out.

Now, if this liquid with the gas bubbles therein is subjected to the described spray degassing, the gas bubbles can be separated directly from the liquid phase. Because the liquid undergoes the surface enlargement already described by the fine distribution in the context of spray degassing. As a result, the effect of the degassing is carried out particularly intensively and quickly, namely in the process renstechnisch extremely low cost.

For the spray degassing only a Sprühentgasungseinrichtung is required, which relies in the simplest case on a conventional spray nozzle or more of such spray nozzles. - Although the spray degassing is basically known, including on the DE 22 22 094 C2 is pointed out. However, there are no models to date to combine the spray degassing with the simultaneous generation of sound waves in the interior of the liquid.

Indeed In this combination, a synergetic effect is created observed that by the introduced sound waves first the total surface of the gas bubbles significantly is enlarged. If now the liquid by the subsequent spray degassing also undergoes a surface enlargement, The individual gas bubbles can be the liquid phase leave quickly and efficiently because practically both surfaces (the gas phase and the liquid phase) increased become.

Around to make the spray degassing as effective as possible The fluid is usually under pressure already addressed spray degassing supplied. As a result, the liquid directly to the Sprühentgasungseinrichtung or the one or more spray nozzles or the Spraying be supplied at this point. By the pressurization of the liquid it comes following the spray nozzle to its desired Fine distribution. In general, one or more forms Spray cone beyond the spraying device. The spray cone in question opens in the direction on the center of an associated housing. at this housing is advantageously a vacuum housing, because the gases separated from the liquid mostly through Negative pressure can be subtracted. This means, the spray degassing is advantageously under reduced pressure instead, within the already mentioned negative pressure housing.

there In addition, it has proven to be beneficial if at least part of the gas completely or partially released from the gas is guided in a circle. This can cause this liquid be again subjected to a spray degassing. To this end is a return line for the already treated Liquid provided. This return line may communicate with another second sprayer.

The that is, the spray degassing device according to the invention is ultimately composed of two sprayers, which are regularly opposite each other. Mostly, these two sprayers are at the respective Front side of the longitudinally extending housing respectively Vacuum housing arranged. One communicates Spraying device with an inlet for the degassing liquid while the other spraying device to the already mentioned return line for the already treated liquid is connected.

In Of course, this approach can be done this way be that the already treated liquid within of the housing or vacuum housing to the effect is checked or measured, which gas content is still present is. Depending on the measurement result is then part of the treated Liquid via the return line and the second spray device again degassed. This Degassing can be intensified even more, that several means for generating pressure fluctuations in the return line are provided.

at these means for generating pressure fluctuations it is advantageous to sound generators, in particular ultrasonic generator. there can in the context of the invention, such a device on the one hand realized in the inlet and on the other hand in the return line become. Of course, there are several facilities conceivable at this point.

In any case can be the liquid to be treated with Help the return line as it were in a circle. This can be done in the sense of a regulation until the questionable one and the liquid to be treated the desired Has gas content. Only then does the appropriately treated liquid over a spout to be discharged. All these processes usually controls a control unit. This can be the output side the associated device for degassing a liquid, as described in claims 8 et seq., the desired Gas content (regulating) can be adjusted.

It is also possible to use the separated gas for subsequent fumigation. This can be used, for example, in a liquid, in particular a beverage, which does not have the required or desired gas content. This fumigation may be a carbonation, so in the broadest sense, the introduction of CO ₂ in a drink.

in the The invention will be described below with reference to a purely exemplary embodiment illustrative drawing explained in more detail. The only Figure shows a device for degassing a liquid.

In the context of the illustration is a device for degassing a liquid, in this case egg Nes beverage or generally a liquid food product, shown. The device described is in its basic structure with a separator 1 equipped, which in the exemplary embodiment is a Sprühgasentgasungseinrichtung 1 is. In addition to this separator or the spray degassing device 1 are several facilities 2 provided for generating pressure fluctuations in the liquid to be treated. At these facilities 2 are sound generators 2 , in particular ultrasonic generators 2 , With the help of facilities or sound generators 2 In the interior of the liquid in the example periodic pressure fluctuations or periodic longitudinal waves (sound waves) are generated. This creates pressure maxima and pressure minima. In the area of pressure minima, gas cavitations set up at periodic intervals into which the dissolved gas migrates - as already described in the introduction. This prevents the cavities or gas cavitations from subsequently imploding or imploding.

The spray degassing device or the separator shown 1 has a vacuum housing 3 , which via a vacuum line 4 with a vacuum generator 5 connected is. The vacuum housing 3 is from the vacuum generator 5 acted upon in such a way that a lower negative pressure than the normal pressure is generated therein. In this way, the separated gas from the liquid via the vacuum line 4 from the housing or vacuum housing 3 deducted and optionally supplied to other or other uses. This may include the initially described carbonization.

It can be seen that the vacuum housing 3 long and is formed according to the embodiment cylindrical with two opposite end faces. At these opposite two end faces is in each case a spraying device 6 , In this spraying device 6 it may be one or more spray nozzles, which the liquid supplied inside the vacuum housing 3 distribute it finely. In fact, the respective spraying device generates 6 towards a center of the vacuum housing 3 opening spray cone. This indicates the only figure in each case. Due to the opposite arrangement of the two sprayers 6 are also the two spray cone opposite each other aligned.

It can be seen that two bodies 2 for generating pressure fluctuations or sound generators 2 are provided. There is a device 2 in an enema 7 in the vacuum housing 3 , The liquid is thereby from a pressure generating device 8th under pressure in the enema 7 promoted and happens here the first sound generator 2 , This is the sound generator 2 arranged substantially transversely to the flow direction of the liquid.

The thus treated and already degassed liquid now passes to the first spray 6 and exits from there finely distributed as a spray cone in the vacuum housing 3 one. Any gases released are from the vacuum generator 5 through the vacuum line 4 deducted.

The thus degassed liquid collects at the bottom of the vacuum housing 3 , From there likes a spout 9 remove the appropriately treated liquid. In addition, one recognizes a return line 10 , which withdraws the liquid in the circuit and the vacuum housing 3 feeds again, via another second spraying device 6 Opposite the first spraying device 6 located. Consequently, the already treated liquid again with the help of the other second spray 6 finely divided and subjected to the described degassing. For this purpose is second facility 2 for generating pressure fluctuations or the second sound generator 2 in the return line 10 arranged. Also in this case are those of the sound generator 2 generated sound waves transverse to the flow direction of the liquid from the sound generator 2 sent.

In addition, still likes a control unit 11 be realized, which on the one hand, the return line 10 and on the other hand the spout 9 controls. The control unit intervenes 11 on signals from a sensor 12 back, which is the gas content of the inside of the vacuum housing 3 determined and already treated liquid determined. Depending on the sensor 12 measured values for the gas content provides the control unit 11 Make sure that all or part of the liquid is through the return line 10 in the vacuum housing 3 is returned and again degassed. Alternatively, but also a part or all in the vacuum housing 3 liquid over the outlet 9 discharged and fed to another use.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 19736671 A1 [0002]
• - DE 2222094 C2 [0010]

Claims (14)

A method for degassing a liquid, after which generates pressure fluctuations in the liquid and the gases are separated from the liquid, characterized in that a spray degassing is performed, wherein in the liquid before the spray degassing sound waves, in particular ultrasonic waves, are generated or these sound waves on the Influence liquid. Method according to claim 1, characterized in that that the spray degassing takes place under reduced pressure. Method according to claim 1 or 2, characterized that the separated gases supported by negative pressure subtracted from. Method according to one of claims 1 to 3, characterized in that the liquid under pressure of a Sprühentgasungseinrichtung ( 1 ) is supplied. Method according to one of claims 1 to 4, characterized in that the liberated from the gas liquid at least partly in a circle and again a spray degassing is subjected. Method according to Claim 6, characterized that in the circulated liquid again Sound waves, in particular ultrasonic waves, are generated. Device for degassing a liquid, in particular for carrying out the method according to one of claims 1 to 7, with a separator ( 1 ) and at least one institution ( 2 ) for generating pressure fluctuations in the liquid, characterized in that the separator ( 1 ) as a spray degassing device ( 1 ) is trained. Apparatus according to claim 8, characterized in that the spray degassing device ( 1 ) a vacuum housing ( 3 ), which is supplied by a vacuum generator ( 5 ) is applied. Apparatus according to claim 9, characterized in that the vacuum housing ( 3 ) on at least one end face with a spraying device ( 6 ) is equipped. Apparatus according to claim 9 or 10, characterized in that two opposing spraying devices ( 6 ) at the respective end face of the longitudinally extending vacuum housing ( 3 ) are realized. Apparatus according to claim 11, characterized in that the one spray device ( 6 ) with an enema ( 7 ) communicates for the liquid to be degassed, while the other spraying device ( 6 ) to a return line ( 10 ) is connected for the already treated liquid. Device according to one of claims 10 to 12, characterized in that the spraying device ( 6 ) towards the center of the vacuum housing ( 3 ) opening spray cone generated. Device according to one of claims 8 to 13, characterized in that the device ( 2 ) for generating pressure fluctuations as a sound generator ( 2 ), in particular ultrasonic generators ( 2 ), is trained. Device according to one of claims 8 to 14, characterized in that a plurality of devices ( 2 ) are provided for generating pressure fluctuations, on the one hand in the inlet ( 7 ) and on the other hand in the return line ( 10 ).