DE1658115A1 - Device for introducing gases, e.g. air, into sewage or similar liquids - Google Patents

Description

Device for introducing gases, e.g. B. von Luit, in wastewater or similar liquids.

The invention relates to a device for introducing gases, e.g. from air, in sewage or similar liquids near the liquid level S. a vertical axis rotating conveying elements that carry the liquid to the outside Hurl over the liquid level.

In the known devices of this type, the conveyor elements as radially arranged blades or the like. trained so that # the Liquid that is shuffled above the liquid level solely by gravity is required. The amount of liquid that rises above the liquid level in this way raised and brewed in contact with the air located there. can be, is relatively low.

With the device according to the invention it is possible to achieve this disadvantage to avoid and with relatively little energy expenditure larger amounts of liquid to convey above the liquid level and to mix with air. The device according to the invention is characterized in that # the conveyor elements at least are partially in the form of a pipe or a channel, the axis of which adjacent ends have inlet openings on the front side in the direction of rotation.

The air was not on this whale solely by centrifugal action promoted, but it is at least supported by the support elements when it is taken up promoted in the manner of a scooping movement. It can also be relatively less Speed of rotation large amounts of liquid above the liquid level lifted and mixed with air. Dabes can the device at can be carried out in a very simple manner and using commercially available Components. wle pipes, plates or the like., Are produced. A particular advantage is that by choosing the length of the diameter, the number and the angular position of the conveying elements as well as of course the cross-sectional design of the pipes or

Gutters a variation of the delivery rate of the oxygen input and the power consumption of the gyro is possible to a large extent.

A particularly large delivery rate 193t is achieved according to the invention thereby achieve that the conveyor elements are arranged approximately tangentially when viewed from above are. In this case, all of them are taken up by the pipe or by the gutter Liquid conveyed further in the direction of rotation. But you can also according to a Another feature of the invention proceed in such a way that the conveyor elements are approximately radial are arranged. The increases in the inflow in the direction of rotation absorbed liquid is then conveyed in the radial direction, with additional Centrifugal forces come into play.

Of course there can also be intermediate positions between the positions mentioned can be selected, and the conveying elements can also be arranged to be adjustable if necessary be, about a change in the delivery rate and the oxygen uptake to enable.

According to another feature, the invention is characterized by because the ends of the conveyor elements are beveled in the direction of rotation. diesel Feature serves the Srhhg of the delivery rate, whereby the respective protruding ends according to can be arranged at the bottom, towards the axis or in any intermediate positions, whereby there is a further possibility of variation.

It is particularly advantageous to have the conveyor elements on a rotating one to attach horizontally arranged, preferably circular plate. this has in particular structural advantages, but worldwide offers the possibility of a favorable oxygen input as a result of a better water-air-temperature mixture to reach. For this purpose, it is particularly advantageous to use the front ones in the direction of rotation To arrange openings of the conveyor elements partly above the plate, whereby according to of the invention is most advantageous, the plate above the liquid level, and although preferably at a distance of 3 to 8 cm, in particular 5 cm, above the To arrange liquid level. There is then a mixing of air and Wasaer already in front of the entrance to the conveyor elements. this According to the invention, noah can thereby be demanded, duss the plate protrudes in the radial direction over the front ends of the conveyor elements and on Their outer edge is immersed in the liquid, preferably cylindrical Ring trIO and the diseur ring bit arranged above b the liquid level Air inlets is provided. According to the invention, in the direction of rotation seen, behind the air inlets, guide surfaces should be provided, which the Direct ring of passing air into the air inlet openings. It will be based on this Way an air chamber is formed into which the air is conveyed and in the a mixing of liquid and air takes place. This water-air mixture becomes then conveyed out by conveying elements above the water level and by the above The air located at this water level is ouded. A further mixing of the air takes place.

This mixing of air can thereby be promoted according to the invention because the outflow direction is behind the rear openings of the conveyor elements Impact surfaces are provided, in particular in the form of flat surfaces or an axis krachtan Plate or a cone shell that is coaxial to the axis of rotation, whereby or of the invention the baffles can be adjusted to swar, in particular veraehwenkbar or in a vertical position Movable direction are. By the impact of the liquid, in particular above the liquid mixed with air on the baffles if the air bubbles or water droplets break up and mix, which leads to a favorable introduction of oxygen.

Oe6KB of the invention one can see an increased mixing with air but also achieve that the rear ends of the tubular conveyor elements are designed in the manner of an ejector nozzle, the annular gaps of this ejector nozzle with the gas bsw. Related to airspace.

In the drawings are embodiments of the device according to Invention shown for example.

P 1 is a section through a first embodiment of the device according to the invention.

Pig. Fig. 2 is a partially cut plan view of the embodiment of Fig. 1.

Big. Fig. 3 is a diagram of a second embodiment of the device according to the invention.

Fig. 4 is a third embodiment of the device according to e Invention.

FIG. 5 is a section according to VbV of FIG. 4.

FIG. 6 is a section through a further embodiment gate according to FIG Invention.

Fig. 7 is a sectional plan view of the device according to te Fig. 6.

Fig. 8 is a section through a further Ausungsfor the device according to the invention.

Figure 9 is a partially sectioned plan view of the device of FIG. 8.

On a shaft 2 driven by a motor 1 is a plate 3 attached, are arranged on the tubular bellows Farderelemente 4, 5.

The conveyor elements 4, 5, of which only two are shown, but nstUrlleh in the illustrated arrangement z. B. six on the plate 3 available can be, are arranged approximately tangentially. They are at the front in the direction of rotation Ends bevelled in such a way that the protruding end 6 downwards shows.

This is the effective inlet opening of the conveyor elements very large, so there is also the delivery rate is increased.

In order to create a mixture of liquid and air before it enters the conveying device produce, the conveyor elements 4, 5 protrude only with a part of their inlet opening into the liquid. In particular, part of the inlet opening also protrudes the plate 3, which, in order to allow unimpeded air entry into the conveyor element to allow, also has a corresponding section.

An arranged on the circumference of the plate 3 serves the same purpose Ring 7, which is immersed in the liquid and guide surfaces, e.g. B. 8, 9, in the direction of rotation has openings behind corresponding air inlets. Through the air inlets as a result, air is conveyed into the space between ring 7 and plate 3, the drained together with the liquid through the conveying elements 4, 5 and an intense Mixes the liquid with the air.

When leaving. from the conveyor element 5, 6 is the liquid-air mixture thrown against a baffle lo, which in its toe and possibly auoh is adjustable in its angle of inclination. In this way, the entry of oxygen stops adjustable according to the respective operating conditions.

Another possibility for increasing the oxygen input shows the embodiment of FIG. 3, in which a conveyor element is attached to a plate 3 11 is attached, which has a ring 12 at its rear end, durah the an annular gap is formed in the manner of an ejector nozzle. So it's going towards the arrows 13 sucked in air and mixed with the liquid and this liquid air mixture is then thrown the Impact M§ahe lo.

Instead of tubular conveying elements, like all the figures 1 to 3 show, one can also correspond to Fig. 5 channel-like conveying elements 14 attach to the plate 3, which have the same effect as those previously described Conveyor elements.

The previously described conveying elements were arranged tangentially. However, as shown in FIGS. 6 to 9, these conveying elements can also be arranged radially. The inlet openings then continue to be directed to the front in the rotational direction the flow of liquid is deflected in the conveying element. Bine appropriate training Fig. 6 shows in which a tube 15 is arranged on the plate 3, pointing radially upward is. The inlet opening this pordereleaentes points in the direction of rotation, Here, too, the entoprechends end of the Porderelementes beveled solder and the protruding part 16 faces the axis of rotation. With such a training the Farderelemente can optionally be dispensed with an impact surface.

In Pig. 8 illustrated embodiment has a radial arranged front element 17 on the side pointing in the rotational direction is here elongated trained inlet opening. This training has the special advantage that the inlet opening is very coarse and can be formed by the diversion in radial Riohtung ensures a good Durohmisohung with the air supplied at the same time. As in the embodiment of FIG. 1, the inlet opening 18 can also be arranged here be that it is only one part below the water level.

The conveyor elements described last can also be trough-shaped be trained.

The device according to the invention is one with simple Means working device created, the one excellent Mixing of liquid and air and thus a very good introduction of oxygen guaranteed.

Claims (1)

P a t e n t a n s p r ü c h e 1. Device for introducing gases, z. B. from @@@ Lutt, in wastewater or similar liquids near the liquid level Porderolementen rotating around a perpendicular axis, which the liquid outwards Fling over the liquid level, thereby g @ k o n ns e i c h n e t, dQß the conveying elements are at least partially designed in the form of a pipe or a channel with the inlet openings adjacent to the Aehee in the direction of rotation on the front side.Y 2. Apparatus according to claim 1, daduroh g ek e n n z e i a h n e t, since # the conveying elements geeehen from above are arranged approximately tangentially. 3. Device according to claims 1 and 2, daduroh g ek e n n z e i c Note that the conveyor elements are arranged approximately radially. 4. Apparatus according to claim 1 to 3, characterized in that g e k e n n z e i c h t that the front ends of the conveyor elements in the direction of rotation are beveled. 5. Device according to one of claims 1 to 4, characterized g e k e nn z e i n e t that # the conveyor elements on a rotating, horizontal, preferential shaft circular plate are attached. 6. Apparatus according to claim characterized g ek e n n z e i c h n e t, that the front openings in the direction of rotation of the conveyor elements are partly above lying on the plate. 7. Apparatus according to claim 5 and 6, characterized in that it is e k e n n z e i c N e t, that the plate is arranged above the liquid level and is preferably about 3 to 8 cm and in particular about 5 cm above this. 8. The device according to claim 7, characterized in that g ek e n n z e i c h n e t, because the plate hangs in the radial direction over the front ends of the conveyor elements immersing, preferably a cylindrical ring carries and that # this ring with above the liquid level arranged air inlet openings is provided. 9. Apparatus according to claim 8, characterized in that it ek e n n z e i c h n e t that, seen in the direction of rotation, guide surfaces are provided behind the air inlet openings which direct the air passing the ring into the air inlet openings. lo. Device according to claim 1 to 9, characterized in that it is not shown In the outflow direction behind the rear openings of the conveyor elements, baffles are provided, in particular in the form of flat plates or an axially perpendicular Plate or a cone shell coaxial to the axis of rotation. 11. The device according to claim lo, characterized in that g ek e n n z e i c h n e t that the baffles are adjustable, in particular pivotable or perpendicular Direction are shiftable. 12. Device according to one of claims 1 to 11, characterized g e k It is noted that the rear ends of the tubular conveyor elements follow Kind of an ejector nozzle are formed, the annular gaps of this ejector nozzle is in connection with the gas or air space. L e r s e i t e