DE2909724A1 - Biological sewage treatment basin - with revolving bridge carrying impeller and aerators at opposite ends - Google Patents

Abstract

Plant for biological sewage treatment in a circular aeration tank includes a revolving bridge. This carries at one end the aeration device with horizontal and radial distributor pipes near the basin bottom with aerating tubes which receive air from a compressor on the bridge. At the other end of the bridge, a paddle impeller near the bottom is driven by a motor on the bridge. Such a system can operate with power savings and a better denitrification effect if the aeration is cut off for certain periods. Basin can also be satisfactorily used as a buffer basin. Maintenance is facilitated.

Description

Plant for biological wastewater treatment

The invention relates generically to a plant for biological Wastewater treatment with an aeration basin that is essentially circular in plan and around the plan center of the moving bridge, which is supported on a central support (e.g. B. on a king column) in the area of the aeration tank center and possibly

is also stored in the area of the pool edge and a ventilation device as well as a circulation device carries. - In the essentially circular also includes polygonal floor plans. The phrase "moved around the center of the plan" includes circumferential rotating and reciprocating pivoting movements that are only one Paint the sector of the floor plan. In general, the aeration tank is, in spite of it its circular ground plan, cross-flow, d. H. The inlet and outlet are located diametrically opposite each other.

The (from practice) known systems of the type described work with a surface aerator in the form of an aerator gyro. This does both the necessary oxygen input as well as the avoidance of sludge deposits required circulating flow. Tests in stabilization systems have shown that by temporarily switching off the ventilation saves energy and at the same time a better cleaning performance can be achieved. This is due to intermittent Causes a lack of oxygen and the resulting denitrification. Limiting for the aeration pauses affects the settling of the activated sludge.

In addition, bothers the fact that in the known generic systems Circulation and aeration device do not automatically switch to different water level positions is adjustable. This is particularly annoying when (according to a state of the art corresponding proposal) the aeration tank as a buffer tank for after the mixing process working systems and designed for the inclusion of an additional rainwater inflow is set up by about ten times the amount of the usual dry weather inflow.

It is well known that the mixing process produces waste water and rainwater of the city drainage system in the same canals and introduced into the system.

The invention is based on the object of a generic system to train for biological wastewater treatment in such a way that, without further ado, z. B. for denitrification purposes, ventilation pauses can be set up without a disruptive settling of the activated sludge would have to be accepted. Simultaneously the aim is to ensure that the system can be operated without difficulty can, if the aeration basin in the sense explained above at the same time as a buffer basin is trained.

To solve this problem, the invention teaches that the ventilation device at least one arranged in the area of the bottom of the pelvis, essentially horizontally and substantially radially extending manifold with connected thereto Has air outlet pipes, which via connecting pipes to an on or next to the bridge arranged compressed air source is connected, and that the circulation device consists of a stirrer whose drive is arranged on the bridge and its stirring atmosphere, with the interposition of a diving wave, in the area of the pool floor work. - In the system according to the invention, the ventilation device can be switched off while the circulation device continues to run, so that a disruptive drop of the activated sludge can no longer occur during the aeration breaks. The drives for the ventilation device on the one hand, on the other hand for the circulation device are expediently controllable or regulatable independently of one another. Work at the same time both the ventilation device and the circulation device are basically independent of possible fluctuations or the water level in the aeration tank. The power consumption of the units ventilation device on the one hand and circulation device on the other is essentially independent of the water depth in the aeration tank in the area from the bottom of the air outlet pipes or the stirring elements arranged are. The electrical output per unit of space in the aeration tank grows with falling water level.

This effect even has a beneficial effect on the preservation of the necessary Suspended state of the activated sludge, as the water level falls and remains constant Sum of the sludge mass in the system, the dry matter content in the aeration tank increases. In addition, there is the possibility of making the arrangement so that the circulation device on the one hand and the ventilation device on the other hand have drives that after According to the water level position can be controlled and / or regulated. Then you come too to an energy saving, namely in the ventilation work to be expended by, that by the water level to be lowered as much as possible at any time, the counter pressure for the ventilation system and thus the power consumption of the fan drives is reduced can be. The turbulence entered in the aeration tank does not decrease in an impermissible manner from when the drive of the circulation device is set accordingly and the electrical Performance per volume of the current content is kept constant. Furthermore lets The aeration basin is particularly economical as a buffer basin for after Use systems that work with mixed processes, with the aeration tank for uptake an additional rainwater inflow of about ten times the dry weather inflow is set up.

In particular, there are various possibilities within the scope of the invention further training and design. This is how you generally get the arrangement meet so that the distributor pipe of the ventilation device to the bridge out of the Waste water can be swiveled out. This can be done by swiveling it up with the help of the connecting cables to which the air outlet pipes are attached in such a way that that they are oriented horizontally above the bottom of the pelvis, but essentially vertically emerge from the water level.

However, you can also work with parallelogram links that hold the air outlet pipes and always hold it horizontally above the bottom of the pelvis as well as when swiveling it out. This pivoting out can also be used if for the purpose of denitrification the ventilation is to be switched off temporarily. Generally one becomes bilateral Arrange two distribution pipes with connected air outlet pipes on the bridge. The impeller is also useful for carrying out maintenance and servicing work Can be swiveled up or pulled up towards the bridge. At particularly favorable conditions with regard to ventilation on the one hand and circulation on the other hand, one comes by that the ventilation device in the area between the central support and the edge of the pool is located on the bridge while the bridge is on the other side one over the central support has a protruding cantilever part on which the circulating device is arranged. Although the aeration tank of the system according to the invention with his circumferential ventilation bridge in terms of process technology as a fully mixed impeller can be viewed (if you would turn off the circulation device) is running in the basin a zone of high turbulence due to two counter-rotating water rollers with a horizontal axis at half the basin depth and with a high oxygen content around. If the circulating device is switched on, one also obtains in the area of the circulating device a zone of high turbulence. So then two such zones work. That shows the zone in the area of the ventilation device has the highest oxygen content and the zone in the region of the circulating device arranged on the protruding bridge part the lowest oxygen level in the entire pool. These are conditions that make the The process of nitrification in the aerobic zone and that of denitrification in the Promote anaerobic zone. So much for the invention system goes around the bridge, all the water particles come alternately into one or the other other milieu condition. The change can be made by changing the speed of rotation, but also regulate and optimize by setting the circulation rate. Basically corresponds to the system according to the invention in this last-described embodiment the known system with circulating trenches or oxidation trenches, but with the considerable Difference, that with orbital ditches the facilities for oxygen and circulation Are stationary and circulates the water mass, while in the invention System, the ventilation device and the circulation device revolve - and a circling the basin contents is expediently even prevented by disruptive bodies. Opposite to A circulating ditch one achieves significant advantages, initially in the minor ones There are friction losses. But it is also advantageous that the start-up time after a ventilation break practically zero is that the ventilation return interval is easier to influence is and that no disruptive deposits occur, especially since the zone of high turbulence periodically exceeds every point of the activated sludge tank and, if necessary, whirls up deposited activated sludge again. There are special advantages if in the system according to the invention the bridge does not rotate but rather rotates executes the reciprocating pivoting movement explained at the beginning. Are there the swivel angle and the assignment of the ventilation sector to the basin inlet or pool drain freely selectable. This results in two for one aeration tank Modes of operation when two or more aeration tanks are connected in series can also be combined with one another as required. The following are only from formulation-related Reasons the possible modes of operation for a pool are described. In both cases becomes expedient a round basin with cross-flow is used, d. H. The inlet and outlet are located at two diametrically opposite points on the edge of the pool.

The first of the possible modes of operation in this context the ventilation field is located in a sector symmetrically to the inlet channel panned. In the case of a bridge with a stirrer on the protruding part, this takes place Stirring device in a sector that is symmetrical to the drain, pivoting movements.

In the basin there is also a sector with a high oxygen content near the inlet and a sector with low oxygen content or lack of oxygen but there is sufficient turbulence before the drain. The one in the aeration tank Introduced return sludge and the wastewater consequently enter a aerobic zone in the ventilated sector. Not just the carbon compounds degraded, but also the nitrogen compounds (ammonia nitrogen and organic Nitrogen) largely oxidized. This nitrification depends on the temperature and It is dependent on the lowest possible sludge load in systems with a Sludge load BTS = 0.15 in summer, in systems BTS = 0.05 also reached in winter. The formed nitrates (N03 -nitrogen) get with the flow (sewage plus Return sludge flow) into the non-aerated sector, which is an anaerobic zone. As a result of the lack of oxygen, parts of the activated sludge are forced to use the oxygen attack the nitrate molecules and use them for breathing. The remaining gaseous Nitrogen rises to the surface in bubbles and escapes. All of this has to be done take place in front of the secondary clarifier, otherwise the sedimentation is hindered and the education a floating sludge blanket is favored. - As part of of the known measures this nitrogen elimination is in separate basins for the nitrification and denitrification carried out, both in the described Sequence as well as reverse sequence of aerobic and anaerobic reaction spaces.

Such an operating mode is also possible with the system according to the invention possible. Here, the circulation device in the sector at the inlet and the ventilation device periodically pivoted in the sector on the drain. Return sludge and sewage occur so first enter an oxygen-free zone. Here's the oxygen demand Microorganisms in particular as a result of the meeting of wastewater and activated sludge large, so that the nitrates are attacked. In the sector assigned to the sequence nitrates are formed. So that these are effectively removed, is suitable the last-described mode of operation, especially when several are connected in series Aeration tank, with a denitrification sector again at the end of the treatment chain is arranged. - Both modes of operation are the aerobic and anaerobic zones not separated by solid walls. With the flow of sewage and Return sludge and as a result of the turbulence generated in both zones takes place in In the border zone there is a constant transition from one to the other milieu conditions what favors the adaptation of the microorganisms.

In the following the invention is based on only one embodiment Illustrative drawing explained in more detail.

It show in a schematic representation Fig. 1 a Top view of a system according to the invention, FIG. 2 shows a diametrical vertical section by the object according to FIG. 1, FIG. 3 in a substantially enlarged compared to FIG. 1 Scale shows a section in direction A-A through the object according to Fig. 2 and Fig. 4 the distributor pipe of a ventilation device with connected air outlet pipes and connected connecting pipeline in perspective.

The system shown in the figures is for biological wastewater treatment certainly. The system includes an aeration basin 1 and circular in plan a rotating or swinging bridge 2. The rotating bridge 2 is on a central support, e.g. B. on a king column 3, in the area of the aeration tank center and also stored in the area of the pool edge 4. She wears a ventilation device 5 and a circulation device 6.

The arrangement is made so that the ventilation device 5 in the Embodiment two arranged in the area of the basin sole 7, essentially horizontally and essentially radially extending distribution pipes 8, 9, to which, as it were, a grate-forming air outlet pipes 10 connected transversely are. The manifolds 8, 9 are connected via connecting pipes 11, 12 to an im Embodiment connected to the compressed air source arranged on the bridge 2, the has two fans 13, 14 in the exemplary embodiment.

In addition, a circulation device 6 is provided with a stirrer 15 is equipped, the drive 16 is arranged on the bridge 2 and its Stirring elements 17 with the interposition of a diving shaft 18 in the area of the basin floor 7 work. - As explained, the design described has, among other things, for Result that with fluctuations in the water level in the activated sludge tank 1 mechanical Adjustments on the ventilation device 5 or on the circulation device 6 are not What is required is that, if necessary, by simply changing the drive energy an adjustment can be made to the units described. To do this, own the circulation device 6 on the one hand and the ventilation device 5 on the other hand separate drives 16, 19, which can be controlled and / or in accordance with the water level position are adjustable. Sd will work especially if the aeration tank 1 as Buffer basins designed for systems that work according to the mixing process and for the inclusion of an additional rainwater inflow is set up, which is about corresponds to ten times the dry weather influx.

In a system according to the invention, maintenance and care is as described Aggregates required and easy to implement. Esp.

from Fig. 4 it can be seen that the manifolds 8, 9 for the purpose be swiveled up to bridge 2 to carry out maintenance and servicing work can. This enables the distribution pipes 8, 9 to be lifted out of the activated sludge / wastewater mixture before switching off the fan to take denitrification breaks.

- In this embodiment, the connection pipes are otherwise 11 12 at the same time as a mechanical framework for the distribution pipes 8, 9 and their pivoting movement executed. Otherwise, as mentioned, the arrangement is like this in the exemplary embodiment taken that on both sides of the bridge 2 two manifolds 8, 9 connected with Air outlet pipes 10 are arranged, although the system according to the invention also with such a manifold 8 is functional. With the help of parallelogram links the arrangement can easily be made so that the air outlet pipes 10 always stay in a horizontal position when swiveling up and during maintenance and care are particularly easily accessible. The impeller 15 is also to be carried out from maintenance and care work to the bridge 2 can be swiveled up or pulled up, like was indicated in Fig. 2 by arrows.

Otherwise, the figures show the ones that are preferred for functional reasons Embodiment of the invention in which the ventilation device 5 in the area between central support 20 on the king column 3 and pool edge 4 on the view 2 is, which on the other hand protrudes over the central support 20. This protruding part 21 carries the circulation device 6. - The secondary clarifier is over at least one Culvert 22 connected, the culvert 22 being provided with a throttle device 23 is, in such a way that the secondary clarifier is independent of the water level in the Activation basin 1 can be supplied with a predetermined amount of water. Within the scope of the invention it is, in the case of an aeration tank, one or more of the bridges described to be arranged, which then z.

B. cross in a cross shape or Y-shape.

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Claims (6)

Claims system for biological wastewater treatment with in the plan essential circular aeration basin and the bridge moved around the center of the ground plan, those on a central support in the area of the center of the aeration tank and possibly also stored in the area of the pool edge and a ventilation device as well as a circulation device, d u r c h e -k e n n n z e i c h n e t, that the ventilation device (5) has at least one in the area of the basin sole (7), distributor pipe running essentially horizontally and essentially radially (8, 9> with air outlet pipes (20) connected to it, which via Connecting pipes (11, 12) to one arranged on the next to the bridge (2) Compressed air source (13, 14) is connected, and that the circulation device (6) is off a stirrer (15), the drive (16) of which is arranged on the bridge (2) is and its stirring elements (17) work in the area of the basin floor (7). 2. Plant according to claim 1, characterized in that the distributor pipe (8, 9) with the air outlet pipes (20) to the bridge (2) can be swiveled out of the wastewater is. 3. Plant according to one of claims 1 or 2, characterized in that that on both sides of the bridge (2) two distribution pipes (8, 9) with connected air outlet pipes (10) are arranged. 4. Plant according to one of claims 1 to 3, characterized in that that also the impeller (15) to carry out maintenance and care work Bridge (2) can be swiveled up and pulled up. 5. Plant according to one of claims 1 to 4, characterized in that that the ventilation device (5) in the area between the central support (20) and Pool edge (4) at the bridge #) is arranged, the other hand one over the central Has support (20) protruding protruding part (21), and that on the protruding part (21) the circulation device (6) is arranged. 6. Plant according to one of claims 1 to 5, in particular for aeration tanks, designed as a buffer tank for systems that work according to the mixing process and for the reception of an additional inflow of rainwater from about the Zuwache of the dry weather inflow are set up, characterized in that the circulation device (6) on the one hand and the ventilation device (5) on the other hand drives (16, 19) have which can be controlled and / or regulated according to the water level position.