DE3918295C2 - Device for activated sludge tanks - Google Patents

Description

The invention relates to a device according to the Preamble of the main claim.

Such a device is from DE-PS 29 04 101 known. The disadvantages are as follows:

• a) The flow direction in the edge areas the pelvis is directed downwards. So it will The hardest, especially in the most difficult areas strength supports, which leads to withdrawal symptoms of the Can lead to mud.
• b) In practice, guide surfaces 6 are necessary so that there is no short circuit in terms of flow. These lie below the liquid level 18 . In addition, they are in a flow-related dead area. Mud is therefore deposited on them.
• c) The rotating water screw 7 causes the entire liquid volume to rotate. The energy required for this is lacking in the energy that is induced in the up and down movement of the volume.
• d) The rotation increases the dwell time of the air do not bubble in the liquid.
• e) There is a risk of a flow short circuit at all. The tube 5 must have eggig-shaped shape and is therefore expensive.
• f) The device can control the dwell time of the air Increase bubbles in the liquid. But if you do the only thing that wants to change is the turning point to be used direction is insufficiently effective.
• g) It is difficult to remove existing mud retrofit basin.

The object of the invention is a simple, easy upgradeable, successful in both operating modes specify cheap device.

According to the invention, this task is characterized by the the characteristic part of the main claim characteristics solved.

If the direction is down, then it is suitable the device for circulation. One down pointing direction also causes volumes to follow are drawn down, which are already in the air with Kon were tact. The baffles prevent the liquid speed turns. They guide the flow to the aeration devices in the best possible way. The dwell time the air bubbles in the liquid grow large. On the No mud can settle on the guide surfaces. The lead surfaces can be easily manufactured and easily attached will. In contrast to a pipe that connects to the Au The outer diameter of the water screw is adjusted, he there is practically no friction here. One uses the device without the ventilation devices and if necessary also without the guiding surfaces, then you have a good one working circulating device. If you apply that Design rule, then the top edge can be relative lie low, which means that the vertical extension of the Guide surfaces can be comparatively low. The rivers liquid is optimally added to the ventilation element groups led and one prevents liquid such Places where there is no ventilation at all tion elements.

Due to the features of claim 3 can be achieved a clear structure, accordingly is structurally easy to master. In part the ventilation element group the liquid flows without Loss of friction on the guide surfaces, and another Part receives the liquid, guided through the guide surfaces.

The features of claim 4 achieve a simple structure of the ventilation element groups and favorable flow properties in combination hang with the guiding surfaces.

The features of claim 5 improve these options yet.

Due to the features of claim 6 one obtains egg NEN simple structure and prevents the ventilation flow elements themselves direct the flow. It succeeds thereby a particularly favorable entry of the funding into the liquid.

By the features of claim 7 you can power induced by the water screw still better to the individual ventilation element groups ren.

Due to the features of claim 8 one obtains favorable flow patterns and prevents mud settles on the corners.

The same applies to the oblong-square pools according to the features of claim 9.

By the features of claim 10, the Ver because of the increase in air bubbles and the flow rate Speed is high there, which is an oxygen uptake me favors.

Due to the features of claim 11, the flow ventilation speed in the ventilation element group pen big. The guiding surfaces can remain low and there is no need to fear that the water screw be sucked in air. Remains above the water screw enough volume left so that the liquid is at rest can flow back. Devices such. B. a guide cones around the shaft are superfluous.

The invention will now be more preferred based on Exemplary embodiments described. In the drawing demonstrate:

Fig. 1 is a schematic plan view of an activated sludge basin of the invention,

Fig. 2 shows a section along the line of FIG. 2 in Fig. 1,

Fig. 3 is a plan view of an oblong-rectangular basin with two devices according to the invention.

A basin 11 has four walls 12 , 13 , 14 , 16 , which form a square in plan view, and a bottom 17 . In the corners 18 , 19 , 21 , 22 there are bevels 23 at the bottom. The basin 11 is filled with waste water 26 up to the mirror 24 . From the wall 16 to the wall 13 in half from the walls 12 , 14 and parallel to it he stretches a bridge 27th From this rich in the sectional diagonals, starting from the corners 18 , 19 , 21 , 22 , extends downwards a shaft 28 which can be driven in rotation by a motor device 29 . The shaft 28 carries a screw 31 at its lower free end. Direction of rotation of the shaft 28 and inclination of the blades 32 of the screw 31 are such that the waste water 26 is pressed down in the area there. To increase the efficiency, a guide ring 33 is provided outside the rotating circle of the blades 32 , which is fixedly and non-rotatably connected to the bridge 27 in a manner not shown. Aligned with the geometrical longitudinal axis 34 of the shaft 28 , a flow deflecting traffic cone 36 is formed on the floor 17 , the tip 37 of which projects up to close to the screw 31 and which is circular conical.

Just above the otherwise flat floor 17 are the four ventilation element groups 37 , 38 , 39 , 41 .

Seen from above, they have a rectangular shape. Since they are longer than they are wide, they have a preferred direction in the longitudinal direction, and this longitudinal direction is directed towards the corners 18 , 19 , 21 , 22 , respectively. The groups 37 , 38 , 39 , 41 have the same structure and are therefore interchangeable. With their upstream flow edge 42 , they begin directly at the foot of the traffic cone 36 . The rear edge 43 is parallel to the front edge 42 and is less than half the distance from the respective corner 18 , 19 , 21 , 22 . The side edges 44 , 46 run parallel to one another and perpendicular to the front edge 42 . The center planes of each group 37 , 38 , 39 , 41 , which are perpendicular to the floor 17 , pass through the corners 18 , 19 , 21 , 22 . Each group consists of a plurality of horizontal filter cartridges 47 which are parallel to one another and which are perpendicular to the center planes mentioned above. Instead of the filter candles 47 , other ventilation elements can also be used. The group 37 is supplied by a horizontal pipe 48 arranged above the group 37 , which lies in such a central plane and is closed at both ends.

The manifold 48 in turn is supplied with air by a United supply tube 49 , which is led up to the bridge 27 . Group 37 thus hangs on supply pipe 49 and can be pulled up on bridge 27 in a manner not shown. The same applies to groups 38 , 39 , 41 , which are therefore not described separately.

The group 41 has a guide surface 51 parallel to the side edge 46 and at a short distance from it, which extends along the entire length of the side edge 46 and is perpendicular. It is rigidly connected to group 41 in a manner not shown. The lower edge 52 of the guide surface 51 is slightly higher than the group 41 , so that no flow shadow forms over the bottom 17 , which could give rise to the accumulation of mud. The upper edge 53 of the guide surface 51 ends just above the screw 31 , approximately at the level of the upper edge of the guide ring 33 . The rear edge 54 ends approximately with the rear edge 43 of the group 41 . The guide surface 51 has a bend 56 toward the traffic cone 36 , which runs approximately at the level of the front edge 42 and is directed away from the group 41 .

The other guide surfaces 57 , 58 , 59 are constructed analogously and are therefore not described separately.

By means of the device according to the invention, the air bubble flags 61 blow out to the corners 18 , 19 , 21 , 22 . The rate of climb of air bubbles is approximately 20 cm / sec. Creates screw 31 over groups 37 . 38 , 39 , 41 a speed of likewise 20 cm / sec, the air bubble lugs 61 rise in this area at approximately 45 °. They blow flatter at higher speeds and steeper at lower speeds. The dwell time is therefore considerably longer. Of course, this information can only be seen statistically. Very small air bubbles rise more slowly and can be partially sucked in again by the leaves 32 , since these are relatively deep and the liquid can return again above the upper edges 53 .

With the invention you can both overturn well zen as well as the dwell time of the air bubbles in the Increase wastewater.

If one has a basin 62 according to FIG. 3 and one does not want to increase the flow rate too much, then two devices 63 , 64 are used . Basin 62 can be thought of as being divided into two virtual basins 66 , 67 along dashed line 68, so that each device 63 , 64 is responsible for one basin 66 , 67 .

For round pools, the invention is also applicable. If necessary, five or six jet constructions should then be provided for such cases instead of the four devices per pool, which represent a four-jet con struction. The bridges and other details are not shown for the pool 62 .

The invention is capable of numerous variations.

For example, you could use a submersible motor that is hinged to the bridge with an L-shaped bracket and that can be pulled up or lowered with a swiveling motion. Such devices are known in the art as submersible mixers. The motor itself will then be located a short distance from the screw and the shaft will be reduced in length to a stub shaft. The leaves 32 are in this embodiment at the previously described level.

Claims (11)

1. Device for treating waste water in activated sludge basin,
with a pelvic floor,
with ventilation devices located just above the pool floor,
with air supply lines to the aerators,
with a bridge over the mud pool,
with a rotating device attached to the bridge,
with a shaft which runs vertically downwards from the rotating device and extends below the liquid level of the sludge basin and is arranged in a geometrically selected position relative to the ventilation device,
with a water screw at the end of the shaft, the leaves of which have a slope in which the liquid is circulated from the leaves in a certain direction, characterized by the following features:

• a) The direction is down.
• b) Run radially substantially to the geometric longitudinal axis of the shaft, which are substantially vertical, are arranged over we significant distances of the radial length of the ventilation devices, the lower edge of which runs little above the ventilation devices and whose upper edge is at least so high that a substantial rotation of the liquid around the shaft is prevented.

2. Device according to claim 1, characterized records that the ventilation device several densely crowded ventilation element groups indicates that each vent element group has a ra The preferred direction has that each ventilation element mentgruppe a guide surface is provided and that the guide surfaces of the radial preferred direction of the Ventilation element groups follow. 3. Device according to claim 2, characterized records that the guide surfaces opposite the radia len preferred direction of the ventilation element group pen essentially parallel to these as far as ver sets that they are in the direction of rotation of the water  screw seen essentially after the aeration tion element groups. 4. The device according to claim 2, characterized records that the layout of the ventilation element groups is a square. 5. The device according to claim 4, characterized records that the plan shape is rectangular Is square. 6. Device according to one or more of the An Proverbs 2-5, characterized in that the one individual ventilation elements of each ventilation element ment group essentially perpendicular to one radius drawn through the shaft. 7. The device according to claim 3, characterized records that the guide surfaces on the shaft directed end area have a bend, which scoops to the next ventilation element group has turned. 8. The device according to claim 2, characterized records that in a square mud pool the radial preferred direction approximately to the corners of the pelvis is directed, if only one Ge device is provided in the sludge pool. 9. The device according to claim 2, characterized records that with elongated square mud pools several devices are provided, the Preferred directions to the corners of the for sen pelvic part directed device are. 10. The device according to claim 1, characterized records that the ventilation element groups too at least close to the geometrical longitudinal axis of the Start wave. 11. The device according to claim 1, characterized records that the water screw at most arranged half way up the liquid level is.