DE2706078A1 - Increasing circulation speed in aeration tank - by shielding ends of baffle wall from effect of agitators - Google Patents

Abstract

A device for increasing the speed of flow, is used in the circulating pit of an effluent clarification plant, in which a partition divides the pit to promote flow around it and the liquid is gasified or aerated by agitators. Teh deflection zone immediately adjacent to the end of the partition is shielded from the field of nfluence of hte agitator by a semi-rotationally symmetrical hollow object. Pref. where surface agitators are used, the hollow object is conical. In an activated sludge tank, the amt. of agitation required for biologicla purposes is frequently less than the amt. required to promote sufficient speed of circulation to prevent settling of the sludge. The reason for this is the recirculating effect in the immediate vicinity of each agitator. By protecting the ends of the partition walls, this recirculating effect is suppressed and an improved circulation throughout the tank is achieved for a given degree of power supplied to the agitators.

Description

Device for increasing the flow velocity

in circulating ditches of sewage treatment plants The present invention relates a device for increasing the flow velocity in circulating ditches of sewage treatment plants with a partition wall arranged in the circulating ditch, which is ventilated by a gassing stirrer will.

For aeration of municipal and industrial wastewater are often used Stirrers are used because their structure is extremely robust and reliable. With surface stirrers, the wastewater is intensively mixed with air and washing out the oxygen essentially by letting the water through the rotary motion of the stirrer torn from the surface and in the form of more or less large drops are thrown through the air. When using with submerged aeration stirrers, on the other hand, the air is as far below the Surface initiated, which is then broken up by the stirrer and in the form of swarms of bubbles pearls through the dirty water.

In both cases, the necessary stirring power cannot always be achieved the required oxygen transfer rate can be measured. In addition to ventilation the stirrers used also have to mix the biological suspension thoroughly, so that no sludge deposits occur. Larger sewage treatment plants are therefore common Divided into channels in a meandering shape, in which a targeted flow guidance is possible is. The stirrers are expediently at the end of the partitions in the Zone of flow deflection arranged. At shallow water depths this Way a sufficient flow velocity to Avoidance achieved by sludge deposits. At greater water depths, especially at very large aeration tanks are appropriate, especially when using surface agitators Operating conditions occur that lead to sludge deposits. In partial load operation E.g. it is common to reduce the oxygen input rate by switching off some stirrers adapt to the needs.

As a result, the flow speed is lower, so that often sludge deposits occur which decompose anaerobically and produce odorous substances. That In unfavorable cases, the extent of the deposits can affect the active pelvic volume reduce that an impairment of the biological cleaning process the consequence is. In addition, the odor emission from a sewage treatment plant operated in this way leads to it in the vicinity to a strong environmental nuisance. This is why forced to operate more aeration stirrers than for biodegradation would be necessary, which is associated with additional operating costs. on the other hand only a shallow water depth can be achieved when building new plants, what turn to a large space requirement and construction costs for the biological aeration tank leads.

It was therefore the object of the present invention to provide a device to increase the flow velocity in circulating ditches of biological sewage treatment plants which are ventilated by aeration stirrer.

This object is achieved according to the invention in that the deflection zone immediately at the end of the partition from the area of influence of the stirrer by a half rotationally symmetrical hollow body is shielded.

With the help of the device according to the invention, especially the after the flow deflection on the inner wall occurring Rackc flow areas that always are associated with considerable flow losses, avoided. These backflow areas usually occur always on when a sharp deflection the flow takes place.

In the present case, the hacking flow is generated by the stirrer Rotational flow is even more pronounced. The device according to the invention is the deflection zone immediately at the end of the partition from the area of influence of the stirrer shielded so that these rotational currents are largely suppressed.

In the case of surface stirrers, the shielding between the partition and The stirrer is advantageously taken through a wall in the form of a half hollow cone, which has a corresponding stability and can be manufactured relatively easily can. However, other designs, such as a hollow quarter sphere, are also conceivable, provided the necessary total shielding of the deflection zone immediately at the end of the Partition wall is retained.

In the following, the embodiment is based on the drawings device according to the invention explained in more detail.

In FIG. 1 is a circulating trench, which is provided with two surface runners 1 is equipped, shown in plan view. Between the surface teachers 1 there are two flow channels 3 separated by a wall 2, in which through a correspondingly high flow velocity segregates the biological Suspension must be prevented. This flow rate depends essentially on the dimensions of the channel cross-section and on the torque of the stirrer.

FIG. 2 shows schematically the steering area of the divided by the wall 2 Orbital ditch. The Ualenkzone immediately at the end of the partition 2 is through a half hollow cone 4 shielded from the area of influence of the surface guide 1. Without additional power expenditure can thus result in a considerably greater flow rate can be reached in the orbital ditch.

The invention is further elaborated below by means of examples.

Example 1 In a trench according to Figure 1 with a length 3.12 m, a width of 0.8 m and a water depth of 0.17 m were tests with Simcar gyroscopes, which had a diameter of 0.162 m, carried out in drinking water. The Rünrer axis was 0.36 m from the front wall of the pool. The length of the The partition wall was 2.2 m. With an immersion depth of the stirrer of 0.01 m (that is the Distance between the top edge of the stirrer and the water level) and a speed of 290 / min, the power consumption of the stirrers was 12 W. Under these conditions there is an average flow velocity of 0.132 m / s in the ditch a.

Example 2 To demonstrate the effectiveness of the device according to the invention the test arrangement from example 1 was adopted and additionally under the Stirrer mounted a deflection aid according to Figure 2, which was designed conical. The diameter of the deflection aid was 0.32 m and the height of the cone was 0.14 l. In the test operation, the power consumption of the stirrer at 12 W remained within the range Maintain measurement accuracy. A flow velocity of 0.17 m / s was measured. This corresponds to an increase of 30% compared to the value reported in Example 1.

Claims (2)

Claims 1. Device for increasing the flow rate in circulating ditches of sewage treatment plants with a partition wall arranged in the circulating ditch, which are ventilated by gassing stirrers, characterized in that the deflection zone directly at the end of the partition (2) from the area of influence of the stirrer (1) through a half a rotationally symmetrical hollow body (4) is shielded. 2. Apparatus according to claim 1, characterized in that the half rotationally symmetrical hollow body (4) conical when using surface stirrers is trained. Sign.