DE2649126A1 - METHOD AND DEVICE FOR FUMING A LIQUID - Google Patents

Description

LlHDiH AKTfEHGESELLSCJiAfT

(G 015) G 76 / 03fr

Sln / ri

10/25/76

Method and device for gassing a liquid

The invention relates to a method and an apparatus for gassing a liquid with a gas which is essentially 1 borrowed from air or oxygen-enriched air or oxygen and a pressurized gas supply unit is removed, which does not dissolve in the liquid Gas is recaptured and fed back into the liquid.

The advantages of using oxygen result in a liquid, be it that the liquid is a waste water enriched with organic impurities or a

809818/0262

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Natural waters that are about to tip over are aülr.omein known. As a result, a wide variety of methods and devices are in use which are involved in the oxygen gassing With the problem of the most favorable ratio of the in the liquid dissolved oxygen content to deal with the non-dissolving oxygen content in the liquid.

So a method for oxygenation of a standing natural water is known, in which from the least Oxygen-containing water layer at the bottom of the lake water is conveyed to the surface of the lake by means of an air lift pump and after contact with the atmosphere, it is returned to the original depth. With this procedure, though a natural water that is about to tip over takes into account the risk that the still more oxygen-rich ones will mix The surface layer with the lower oxygen base layer of the water has a complete lack of oxygen within the body of water, but this is proceeding very energy-intensive, requires extensive equipment and has a poor efficiency, since the water at atrnospheric pressure is brought into contact with air, whereby the oxygen solubility of the water is relatively low.

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The invention is based on the object of developing a method for gassing a liquid, which is largely energy-independent entry of gases into a liquid a high degree of efficiency in terms of the ratio of the proportion of gas dissolved in the liquid to that from the liquid, escaping gas portion reached.

According to the invention, this object is achieved in that the gas flows into the liquid at a high flow rate liquid form is supplied.

The invention is based on the knowledge that with Introduction of liquefied gas in a cryogenic state with high flow velocity into a liquid, the formation of microfine droplets of gas is achieved, and that the resulting temperature difference between the liquid to be gassed and the liquefied gas, which is usually a very assumes a high value, to a sudden evaporation of the mlkrofeine Drops lead to blisters. In this way, not least because of the pressure gradient between the liquefied gas and pressureless surrounding liquid, a very fine distribution of the gas in the liquid is possible, with which to ensure can that a relatively large proportion of the gas is dissolved in the liquid.

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Since the liquefied gas is stored in the gas supply unit in compressed form, the inside of the The pressure prevailing in the gas supply unit is particularly advantageous for the transport of the liquid gas in an insulated line to be exploited to the fumigation point in the liquid. The possible lowering depth of the fumigation point in the Select the liquid so that there is always a sufficient pressure gradient between the gas supply unit and the gas supply unit is because of it the inflow velocity of the liquid Gas in the liquid is dependent. However, the deeper the gassing point is in the liquid, the better the fact that one is under pressure can be exploited Liquid has a relatively high gas solubility.

Depending on the size and design of the gassing device, the amount of in the liquid to be gassed is advantageously Introduced, liquefied gas depending on the liquid to be gassed so controllable that an evaporation of the cryogenic gas is constantly guaranteed and a clogging of the gas supply system at the gas supply point due to the change de3 prevents the state of aggregation from the liquid to the solid phase will.

809818/0262

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A further advantageous embodiment of the inventive concept is that the liquid to be gassed from Any depth is pumped into a gas-tight closed pressure vessel and the liquid is pumped into the pressure vessel before it is introduced Gas liquefied via the gas supply system from the pressurized Gas supply unit is admixed. This has special Significant for the fumigation of stagnant water, since a much better mixing and solubility of the liquefied Gas in a liquid stream, in which the evaporating and voiding gas is entrained, can be achieved. In the pressure vessel, the part of the gas that does not dissolve in the liquid collects in the space above the liquid level, from where it is equipped with a pressure valve via a Line returned to the gassing system and under control of the liquefied flowing in from the gas supply unit Gas stream can be reintroduced into the liquid. By adjusting the pressure valve in the 'pressure vessel can always maintain a pressure higher than atmospheric pressure which increases the gas solubility in the liquid. In this way, a particularly high level of gassing efficiency is achieved achieved.

809818/0262

U; iüt: AiCTIÜfiCCSELLOCHAFT

To carry out the method according to the invention can a corresponding device mounted on a float and has thus been used at any point.

In FIGS. 1 and 2, examples of a device for carrying out the method according to the invention are shown schematically, the same reference numerals being used for the same parts in both figures.
Figure 1 shows a device for performing the method,

in the case of one mounted on a float Gas supply unit liquefied gas directly in.die - the liquid to be gassed is introduced; FIG. 2 shows an apparatus for carrying out the method in which the liquid to be gassed into a pressure vessel pumped and in front of the pressure vessel with liquefied

Gas is enriched. _i

In Figure 1 i3t on a floating body 1 'one under pressure standing gas supply unit 2 mounted, which has a with a Valve 8 lockable insulated line 7 fit a gas supply system j5 communicates in the liquid. Depending on what is available Pressure in the gas supply unit 2 can be the gassing system 3

80981870262

urine: Aktiengesellschaft - * " 2649126

the be lowered to be fumigated liquid and held by the floating body 1 made in this depth in a corresponding depth, is thus a pressure differential between the interior of Gasvorsorgungseinhelt 2 and the fumigation site 2 ⁱⁿ the to be gassed liquid, the liquified gas by itself flows via the insulated line 7 and the gassing system j) into the liquid at high speed, mixes with it, evaporates due to the temperature difference and relaxes to form microfine bubbles.

The gas that does not dissolve in the liquid can be caught again with a gas collecting device 4, which floats in the liquid above the ascent area of the gas bubbles, consists of a bell-shaped housing and is held in position by the floating body 1 via steel cable, via a on the gas collecting device 4 attached pressure valve 5 and the pressure valve 5 with the insulated line 7 connecting gas return line 6, which opens in the direction of the flow of the liquefied gas in the line J , the gas collected in the gas collecting device 4 with simultaneous regulation of the liquid gas flow from the Gas supply unit 2 can be reintroduced into the liquid via valve 8. In addition, with the valve 8, the amount

809818/0262

LIMDH AKTIEMGESEtLSCHAFT

of the inflowing liquefied gas into the liquid to be gassed

eit are regulated in such a way that evaporation of the cryogenic gas is always guaranteed and the gassing system J> is prevented from icing up.

In FIG. 2, a pressurized gas supply unit 2 is also mounted on a float 1. Further

st on the floating body 1, a gas-tight sealed pressure vessel 9 and a pump 10 to which a suction line 11 and a pressure line 32 connected to the pressure vessel 9 are connected is arranged. With the suction line 11, the pump 10 conveys the liquid from any depth.

The gas supply system 3 is flanged into the pressure line 12 and is connected to the pressurized gas supply unit via the insulated line (with valve 8) be introduced, which is particularly well distributed in the flowing liquid to form microfine droplets with its own high flow velocity and then evaporates into bubbles due to the temperature and pressure difference between gas and liquid the gas, which does not dissolve in the liquid, enters the room

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Above the liquid level and there forms a gas volume. From there it can be reintroduced into the liquid via pressure valves 5 arranged in the docking area of the pressure vessel 9 and a gas return line 6 connected to the Bogasunn system 3. These pressure valves 5 and a control valve 14 arranged in a return line 1J5 for draining the gassed liquid from the pressure vessel 9 are designed so that a pressure above atmospheric pressure is always established inside the pressure vessel 9, so that the pressure that builds up dissolves the gas solubility in the fluid supports. Via the return line 1J5 with the control valve 14, the liquid enriched in this way with gas can be returned to a desired depth at a sufficient distance from the suction point.

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Claims (6)

LJiSDi; Λ! 'Τ! Π T-J G HS E LLC C! SAPT (G 013;) - \ xr - σ 76/084 Sln / fl 2649128 25.io.76 Patented IJ method for gassing a liquid with a gas, which consists essentially of air or oxygen-enriched air or oxygen and one under pressure Gas supply unit is removed, the gas that does not dissolve in the liquid being collected again and the liquid is supplied again, characterized in that the gas is at a high flow rate of the liquid is supplied in liquid form. 2. The method according to claim 1, characterized in that the liquefied gas through the gas to be fumigated between the interior of the gas supply unit and the fumigation point Liquid existing pressure drop is transported. 3. The method according to claim 1 or 2, characterized in that the ratio between the amount de3 liquefied Gas and the liquid combined with it is regulated. 809818/0262 LI H DΞ AKTtENGESELLSCHAFT 4. The method according to any one of claims 1 to 3, characterized in that that the liquid to be gassed is introduced into a gas-tight sealed pressure vessel, the liquid before the introduction of gas from the gas supply unit via the gas supply system mixed in, the gas from the pressure vessel, which does not dissolve in the liquid, is returned to the gas system and the liquid is drained from the pressure vessel to a desired depth. 5. Device for performing the method according to one of claims 1 to 3, characterized in that the gas supply unit (2) and the gas supply system (>) and the gas collecting device ( ¹ I-) are arranged on a floating body (l) floating on the liquid and the gas collecting device (4) is connected to the gas supply system (3) via a pressure valve (5) and a gas return line (6) with a line (7) from the gas supply unit (2). 809818/0262 I Ui.n "Γ ft ti" f I r M O C O F "I I CpMA PT 6. Apparatus for performing the method according to any one of claims 1 to 4, characterized in that on one the liquid floating body (l) the gas supply unit (2) and the pressure vessel (9) are arranged, the pressure vessel (9) via a suction (H) and a pressure line (12) a pump (10) and via a return line (13) is in communication with the liquid, in the pressure line (12) the pump (10), the gas supply system (3) is arranged and the gas supply unit (2) via a line (7) and the pressure vessel (9) via a gas return line (6) in its upper end plate with the gas supply system (j5) are connected. 809818/0262