DE1702535U - VENTILATION DEVICE FOR LIQUIDS, IN PARTICULAR WASTE WATER. - Google Patents

Description

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Ia the time are. Aupfüh-raagei ^ ispiel © for a -g according ventilation fluid represents and darsm the mode of action of the invention. TerftxJaren explains * The figures 1 «ad 2 seigea one leg immersed in the liquid aerating area © with two legs. Schiita nozzles, while Figures 3 3 £ & d 4 are shown as long-drawn nozzle streaks with individual 33 compressed air supply lines when viewed horizontally.

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are thought. Fig. 3 shows a two-part ventilation system. nozzle «, Fig. 4 shows a ventilation nozzle with adjustment of the gap width. The Fig * 3 shows a schematic representation of a cross section through an aeration basin ^ In the embodiment according to Fig. 1 . a ventilation pipe a is pressed wide at its obliquely cut end b, so that a narrow-gap outlet opening c results , which rolls up on the sloping tube a.

In Fig. 2, an air bubble d is also shown as it emerges from the nozzle slot c. There is a above the nozzle obliquely welded roll-off plate f, that of the detached air bubbles e gives an angular momentum which should be so great that it is still effective over the largest possible circulation path.

In the design according to Fig »3, the ventilation nozzle consists of two parts g and h which can be produced by casting technology and which pass through Admixing strips i held at such a distance from one another be that a narrow gap 3 forms at the outlet of the ventilation nozzle. Parts g and h are screwed together or riveted and can, cuchted in the direction of view, a proportionate have great length, the compressed air supply k however, it will only be located at one or a few points along the length of the nozzle «

In the design of the ventilation nozzle 1 according to Fig. 4 it is indicated that one can change the gap width η by means of an adjustable wedge m »For this purpose the wedge m does one Threaded spindle ο with pestle nut mix »through the upwards increasing thickness of the nozzle strip will cause the above-mentioned unwinding and rotating emerging air bubbles along both flanks reached the nozzle.

In AbD. 5 are the aeration nozzles a with AusittsspB.lt c on the one side of an aeration basin ρ arranged »In the area of the liquid level a baffle plate q is arranged, the is so curved that the rising air bubbles r shatter due to their size and also receive an angular momentum, which long after it was redirected to sighting the ¥ water

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is effective. The circulation movement is indicated by arrows ε indicated.

The device according to the invention has over the known Ventilation facilities, including those that are affected by the acidity that can be achieved through the circulation and surface ventilation make use of enrichment off. The advantage of a significantly increased acidity enrichment of the liquid. By Experiments have found that this increase is about $ 30 amounts to. There were nozzles with a gap length of 6.3 mm and 0.5 mm Gap width used. The depth of immersion in the tests was 100 and 200 mm, the amount of air 1.6 mm liters per minute. It is obvious that the slit-shaped nozzle has the advantage a large contact area between the exiting air and the water with the advantages of large-bubble aeration the circulation speed combined.

If one assumes a certain amount of liquid absorbed by the amount of fluid The invention has the advantage Lower performance and operating costs because of the efficiency of the ventilation due to the elongated shape of air bubbles and their size 'and by the strongly accelerated exchange in the boundary layer between air and liquid much better, so the amount of compressed air required is smaller. The invention also results in a saving in the Plant costs achieved because one b ^ i the elongated ventilation nozzles requires fewer supply pipes for the compressed air than with most known ventilation methods dener. a very large number immersed in the liquid side by side Nozzle pipes was necessary.

Claims (7)

ο Ventilation device for liquids, in particular Wastewater, with compressed air nozzles immersed in the liquid, characterized in that these nozzles (a) are provided with slot-shaped outlet openings (c) at their outlet end (b), the gap width being preferred 1-3 mm, the gap length is a multiple of the width e. 2 * device according to claim 1, characterized in that that the outlet gap (c) is arranged obliquely in the aeration basin, with both the longitudinal axis itself, as the exit surface can also be inclined about the longitudinal axis. 3c device according to claims 1 and 2, characterized in that that over the exit gap (c) inclined rolling surfaces (f) for the air bubbles (e) detached from the exit gap are arranged. 4 * device according to claims 1-3, characterized in that that the width of the exit gap (s) of the Ventilation nozzle is adjustable. 5 »Device according to claim 4, characterized in that the width of the exit gap (s) of the ventilation nozzle is variably adjustable by means of an adjustable wedge body (m). 6. Device according to claims 1-5, characterized in that over the ventilation nozzles, preferably just below the liquid level, baffles (q.) are arranged. 7. Device according to claim 6, characterized in that the baffles (q.) For generating a circulating flow are designed.