DE2909724C2 - Plant for biological wastewater treatment - Google Patents

Description

produce.

This object is specified according to the invention by the ίο in the characterizing part of the patent claim Features solved.

The aeration tank of the system according to the invention can process technology with its circumferential aeration bridge can also be viewed as a fully mixed impeller (if the circulation device would switch off), so that in the basin there is initially a zone of high turbulence as a result of two opposing directions rotating water rollers with a horizontal axis halfway down the pool and with a high oxygen content

a stirrer (15) is arranged, which runs over an im 20. If the circulation device is switched on, so he does

essentially vertical immersion shaft (18) connected to its drive (16) arranged on the bridge (2) is and its Rührelcmente (17) work in the area of the Beckensohlc (7).

hold another zone of high turbulence in the area of the circulating device. So then two will work such zones. Of these, the zone in the area of the ventilation device has the highest oxygen content on and the zone in the area of the Umwälzeiv.richtung arranged on the protruding bridge part lowest oxygen content in the whole pool. These are conditions that affect the process of nitrification in the aerobic zone and denitrification in the anaerobic zone. So much for the invention System runs around the bridge, then all the water particles come alternately into one or the other Environment condition. The change can be made by changing the speed of rotation, but also by Regulate and optimize the setting of the circulation rate. In principle, the system according to the invention corresponds here the known system with circumferential trenches or oxidation trenches, but with d ^ -m considerable difference, that in trenches the facilities for

The invention relates to a system for biologi- jo corresponding to the preamble of the patent claim see purification of sewage. The formulation "essentially *. / 1 circular" also includes polygonal ones Floor plans with a. The "formulation" about the pelvic center moved «includes umlai /; nd rotating and reciprocating swiveling movements that only cover a sector of the floor plan. In general the aeration tank, despite its circular floor plan, has a transverse flow, i. H. Inlet and outlet are diametrically opposed to each other.

A known system of this type (DE-AS 23 24 511) 40 oxygen and circulation are fixedly arranged with its circumferential ventilation bridge provides procedural and circulates the water mass, while with the inventively a fully mixed Rührkrcisel. the system according to the invention, the ventilation device and In the basin there is only one zone of high turbulence as a result of the circulating device and a circling of the two counter-rotating water rollers with horizontal basin contents, expediently even by Störzontaler Axis halfway down the pelvis and with a high body is prevented. Compared to a circulating gas oxygen content around. ben one achieves essential advantages, which are initially in

the lower friction losses exist. But it is also an advantage. da3 the start-up time after a possible Ventilation pause is practically zero that the ventilation return interval is easier to influence and that no disruptive deposits occur, especially since the zone of high turbulence periodically crosses every point of the activated sludge tank and possibly deposited activated sludge

Other systems known (from practice) for biological wastewater treatment work with one Surface aerator in the form of an aerator top. This causes both the necessary introduction of oxygen as well as the circulating flow required to avoid sludge deposits. Tests in stabilization systems have shown that switching off the ventilation saves energy and at the same time a better cleaning performance can be achieved. This is due to intermittent lack of oxygen and thereby caused denitrification initiated. This has a limiting effect on the ventilation pauses the settling of the activated sludge. Otherwise belt.

There are particular advantages if, in the system according to the invention, the bridge is not circumferential rotates, but executes the aforementioned, reciprocating pivoting movement. Here are the

disturbs the fact that in the known generic systems bo the tilt angle and the assignment of the ventilation *

the circulation and ventilation device not without further ado is adjustable to different water spicgcllagc. That especially bothers. then when the aeration tank designed as a buffer tank for systems that work according to the mixing process and for receiving a; t> < additional rainwater inflow of about ten times the amount of the usual dry weather / inflow is established is. In the case of the mixing process, it is well known that sectors to the basin inlet or basin drain are free selectable. Two modes of operation are possible, the one when two or more are connected in series Aeration basins can also be combined with each other as required sinti. In both! 'All one becomes expedient Cross-flow round basins used, d. H. The inlet and outlet are on two diametrically opposite one another Points on the edge of the pool. The first of the in

In this connection possible modes of operation, the ventilation field is pivoted in a sector symmetrically arranged to the inlet channel, while the agitator on the protruding part performs pivoting movements in a sector that is symmetrical to the drain Sector with low oxygen content or lack of oxygen, but sufficient turbulence, available before the drain. The return sludge introduced into the aeration tank and the wastewater consequently first enter an aerobic zone in the aerated sector. Here not only the carbon compounds are broken down, but the nitrogen compounds (ammonia nitrogen and organic nitrogen) are also largely oxidized. This nitrification depends on the temperature and the lowest possible sludge load. It is achieved in systems with a sludge load of Bn = 0.15 in summer, and in systems with Brs = 0.05 also in winter. The formed nitrates (NO ₃ - nitrogen) get with the flow (sewage plus return sludge S \ rom) into the non-aerated sector, which represents an anaerobic zone

As a result of the lack of oxygen, parts of the activated sludge are forced to remove the oxygen from the nitrate molecules attack and use it for breathing. The remaining gaseous nitrogen rises in the form of bubbles to the surface and escapes. All of this has to be done before the secondary clarifier, otherwise the Sedimentation is hindered and the formation of a floating sludge layer is promoted. This nitrogen Elimination is usually carried out in separate tanks for nitrification and denitrification, both in the order described and in the reverse order of aerobic and anaerobic reaction spaces. A mode of operation corresponding to the latter is with the one according to the invention Occasion also possible. Here the circulation device in the sector at the inlet and the ventilation device in the sector at the outlet periodically panned. Return sludge and wastewater therefore initially enter an oxygen-free zone. Here is the one Oxygen demand of the microorganisms as a result of the meeting of wastewater and activated sludge in particular large, so that the nitrates are attacked. In the sector assigned to the process. will Formed nitrates. The operating mode described here is suitable so that these can be effectively removed especially when several aeration tanks are connected in series, at the end of the treatment chain again a denitrification sector is arranged. Both modes of operation are aerobic and anaerobic Zones not separated from each other by solid walls. With the flow of sewage and return sludge and as a result of the turbulence generated in both zones, there is a steady transition in the boundary zone from one to the other milieu conditions, which favors the adaptation of the microorganisms.

In the system according to the invention, the ventilation device can also be switched off while the circulation device continues to run, so that a disruptive sinking of the activated sludge in the ventilation pauses can no longer occur. The drives for the ventilation device on the outside, for the circulation device on the other hand, they can be appropriately controlled or regulated independently of one another. Work at the same time both the ventilation device and the circulation device are basically independent of any Fluctuations or the water level in the aeration tank. The power consumption of the aggregates ventilation device on the one hand and the circulation device on the other hand is essentially independent of the water depth in the aeration tank, in the area of its bottom, the air outlet pipes or the agitator elements are arranged are. The electrical power per room unit

ίο of the activated sludge tank grows with decreasing Water level. This effect even has a positive effect on the maintenance of the necessary suspension of the activated sludge, since the water level is falling and the total amount of sludge remains constant in the system the dry matter content in the aeration tank increases. In addition, there is the possibility of the Arrange so that the Urriwälzeinrichtung on the one hand and the ventilation device on the other hand Have drives that can be controlled and / or regulated according to the position of the water level. <· .-. J. Then comes one also to an energy saving, urid admittedly with the Aeration work to be expended in that by the water level to be lowered as far as possible at any time the counter pressure for the ventilation system and thus the power consumption of the fan drives can be reduced. The turbulence entered in the aeration tank does not drop in an impermissible manner, if the drive of the circulation device is set accordingly and the electrical power per volume of the current content is kept constant. Furthermore, the activation tank can be made particularly economical in this way Use as a buffer basin for systems that work according to the mixing process, with the activation basin to absorb an additional inflow of rainwater of around ten times the inflow of dry weather is set up.

In addition, you will usually make the arrangement so that the distributor pipe to the ventilation device Bridge can be swung out of the wastewater. This can be done by swiveling it up with the help of the connecting cables to which the air outlet pipes are attached so that they are horizontal above the bottom of the pool are oriented, but emerge essentially vertically from the water level. But you can too work with parallelogram links that carry the air outlet pipes and above the bottom of the pelvis as well Always keep it horizontal when swiveling out. This pivoting can also be used if the ventilation is to be switched off temporarily for the purpose of denitrification. Generally will Arrange two distribution pipes with connected air outlet tubes on both sides of the bridge. AppropriateLrwtist the impeller can also be swiveled up to the bridge to carry out maintenance and servicing work or pull-up.

In the following the invention is based on one only a drawing illustrating an embodiment is explained in more detail. It shows in a schematic representation

bo F i g. I a plan view of a plant for biological Wastewater treatment,

Fig. 2 is a diametrical vertical section through the object of Fig. 1,

F i g. 3 in opposite . ^% .r of the fig. 1 significantly enlarged

Y) On a scale, a section in the direction AA through the object according to FIG. 2 and

F i g. 4 the distributor pipe of a ventilation device with connected air outlet pipes and connected

closed connection pipeline in perspective.

The system shown in the figures is intended for biological wastewater treatment. To the plant include a Beiebungsbckken 1, which is circular in plan, and a rotating or reciprocating one Bridge 2. The rotating bridge 2 rests on a central support, e.g. B. on a king column 3, in the area of the activation pool center and also stored in the area of the pool edge 4. she carries a ventilation device 5 and a circulation device 6.

The ventilation device S has two essentially horizontally arranged in the area of the basin sole 7 and essentially radially extending distribution pipes 8, 9, on which, as it were, a grate forming Air outlet pipes 10 are connected across. The distribution pipes 8, 9 are via connecting pipe lines 11, 12 to a printed matter arranged on the bridge 2 connected, which has two fans 13,14.

The circulation device 6 is equipped with a stirring circuit 15, the drive 16 of which is arranged on the bridge 2 and its stirring element 17 with the interposition of a diving shaft 18 in the area of the basin sole 7 work.

The design described has, as explained, under The result, among other things, that in the event of 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 required, but rather if necessary, an adjustment by simply changing the drive energy of the units described can be carried out. To this end, the circulating device 6 has on the one hand and the ventilation device 5, on the other hand, separate drives 16, 19, which can be controlled and / or regulated according to the position of the water level are. So you will work especially when that Aeration tank 1 designed as a buffer tank for systems working according to the mixing process and for the inclusion of an additional rainwater inflow is set up, which is about ten times the dry weather inflow is equivalent to.

Maintenance and care of the units described are easy to carry out. Esp. takes from Fig.4 one that the manifolds 8.9 for the purpose of carrying out maintenance and servicing work Bridge 2 can be swiveled up. This enables the manifold 8.9 to be lifted out of the Activated sludge / wastewater mixture before switching off the fan to allow for denitrification breaks. For this purpose, the connecting pipes 11, 12 are also used as a mechanical framework for the distribution pipes 8, 9 and their pivoting movement executed. In addition, two distribution pipes 8.9 are connected on both sides of the bridge 2 Air outlet pipes 10 are arranged, although the system also has only one such distributor pipe 8 would be functional. With the help of parallelogram links, the arrangement can easily be made in this way be that the air outlet pipes IC always remain in a horizontal position when pivoting up and Particularly easily accessible for maintenance and care e> <> are. The stirrer 15 can also be swiveled up or pulled up to the bridge 2 in order to carry out maintenance and servicing work, as shown in FIG. 2 through Arrows was indicated.

In addition, the figures show that the ventilation unit μ direction 5 in the area between the central support on the king column 3 and pool edge 4 on the bridge is arranged, which on the other hand protrudes over the central support 20. This protruding part 21 carries the circulating device 6th

The secondary clarifier is connected via at least one culvert 22, the culvert 22 having a throttle device 23 is provided, in such a way that the secondary clarifier is independent of the water level a predetermined amount of water can be supplied in the activation tank 1. It is within the scope of the invention to arrange one or more of the bridges described in the case of an aeration tank, which are then z. B. cross in a cross or Y-shape.

For this purpose 3 sheets of drawings

Claims (1)

Claim: Plant for biological wastewater treatment with an essentially circular plan Aeration basin and a bridge moving around the center of the basin, which are on a central support stored in the area of the aeration tank center point and, if necessary, also in the area of the edge of the tank is and carries a ventilation device, which is arranged at least one in the area of the basin, essentially horizontally and essentially radially extending distributor pipe with connected thereto Has air outlet pipes, which via connecting pipes to one on the or Compressed air source arranged next to the bridge is connected, characterized in that that the bridge (2) has a protruding protruding part (21) over the central support (20) on which Wastewater and rainwater from the city drainage system are fed into the same canals and into the system introduced The invention is based on the object of a plant of the type mentioned in the activation tank turbulent and spatially separated, partly oxygen-rich and partly oxygen-poor zones