DE4207084A1 - Reactor for biological waste water purification - Google Patents

Abstract

The mobile communications system uses at least one communications satellite and at least one mobile telephone switching office for communicating with mobile units via the satellite. It comprises at least one cell site having a cell site converter for converting signals from the satellite to signals to the MTSO and vice-versa. The cell site converter has an antenna for communicating with the satellite and a MTSO communication for communicating with the mobile telephone switching office. At least one remote converter site converts signals from the satellite to signals for the mobile units and vice-versa. Each of the remote converters includes an antenna for communicating with the satellite, a transmitter and a receiver for communicating with the mobile units.

Description

The invention relates to a reactor for biological wastewater treatment with an upper sewage inlet and a lower wastewater drain door chamber, in the filter cups filled with filter material Leave one space between each other pelt and of the wastewater to be cleaned one after the other are seepable.

In biological wastewater treatment, after a Pre-treatment of waste water in the anaerobic area in one aerobic stage organic substances in the wastewater Microorganisms degraded, which is a prerequisite for desired biological decomposition of the pollutants is sufficient oxygen supply. To this oxygen To ensure supply, it is already known filters arrange cups on top of each other, with different Filter material as the basis for biological growth are filled. Now the wastewater passes through the filter material the filter cups leaked, arises because the large surfaces and the air spaces between the cups good ventilation and the desired degradation effect occurs actually one. As EP-B1-01 92 631 shows, are so far, however, the filter cups as full disc-shaped Troughs formed from porous seepage concrete, so that these known reactors can not be committed, the bio  logical reduction therefore not to be checked and monitored Chen and maintenance work is a very complex issue the filter cups from the reactor chamber. That In addition, the porosity of the seepage concrete becomes aground sedimentation of mineralized sludge in the biological decomposition of organic substances and through vegetation of the concrete with the so-called organic lawn at progressive degradation impaired and sooner or later the permeability of the troughs disturbed what a prolonged interruption of reactor operation for the required cleaning work.

From DE-OS 35 20 652 there is already a clarifier known as that with a diving body from a Large number of individual bodies as bulk material for the growth of Microorganisms is filled. The immersion body is over Grid held below the waste water level and one own gassing device must supply oxygen to ensure. A central inspection shaft is enough to under the immersion body and takes a circulating device, Measuring probes Like. The result is a very complex one System, the structure of which is not equipped with a filter cup Reactor is comparable and its tightly closed Tubes of the inspection shaft are also not suitable would be the handling of the filter cups or the accessibility to improve the filter material.

The invention is therefore based on the object, these deficiencies to eliminate and a reactor of the aforementioned To create a way that is simply an increase cleaning effect and a significant rationalization allowed its operation.  

The invention solves this problem in that the reactor chamber annular, forming a central maintenance opening Filter cups. With this low-effort measure not only are the filter cups themselves easier to handle have, but there is also the possibility of the Reactor to be inspected so that easy maintenance of the fil cups and a good check of biodegradation are guaranteed. Since also the individual cups through a problem-free lifting of the cups above by means of a suitable hanger to the desired extent can be made accessible without removing the cups from the reactor, for example remove the vegetation, replace the filter material or the like Perform maintenance work, which becomes an essential step the cleaning effect and the reactor performance leads.

If the inner ring wall of the filter cups protrudes standing cams for placing the filter cups on top of each other, is not just a simple mutual support Cups ensured, but also for the necessary Space for ventilation of the filter material is provided.

It is also advantageous if the filter cups are the same have drain holes moderately distributed over the ring shape, which are covered with filter candles or the like, which process holes a targeted drain of the pre-cleaned wastewater to the next cup. The flow Cups' ability is no longer porous Infiltration concrete, the sedimentation and the like dependent so that proper throughput sets. To prevent filter material from impact load or the like is flushed into the drain holes the filter candles are provided for cover. Under filter core Zen are cylindrical pipe sockets with a lattice-like  Understood wall structure, the filter material sieve-like hold back. The drain holes are marked by a corresponding Twisting the individual cups against each other from cup staggered to cup to short switch off when the flow and a uniform Durchsic to reach the core of the filter material with the waste water.

Are the drain holes on the underside of the cup included funnel-shaped, forming a draining rim provided at the mouths, the wastewater is drained over a larger area of the underlying filter beds distributed and a point loading of the filter materials avoided.

To achieve a desired distribution of the wastewater from the outset is to be ensured via the filter bed of the filter cups a wastewater inlet with a star-shaped distributor Subordinate ten distribution pipes, which distribution pipes side drain holes and cleaning at the top have holes. The inflowing wastewater is pressurized therefore the fil evenly from the top filter cup term material, so that even use of the Mikroorga nisms and even degradation is possible. Through the Cleaning holes on the top of the manifolds the distributor can be easily cleaned and un even discharge by clogging one or the other prevent other manifold.

According to a favorable embodiment of the invention Filter cups on a support ring of a reactor base part put on, a connected with the waste water drain forms water collection basin. So not only is a solid one created Support for the filter cups, but it also results at the same time a collecting basin for that through the filter cups  leaked wastewater, from which collection basin the Waste water is withdrawn from the reactor.

The ring-shaped collecting basin passes through a passage opening into a pump sump provided within the support ring for a recirculation pump, which in turn by an overflow weir is separated from the sewage discharge it to the easy way, the pre-treated wastewater in the cycle and a new cleaning to subjugate. Excess wastewater flows over the upper reaches weir to a sewage basin from which the drain, be it through a simple drain pipe or through a waste water lifting pump, which supplies wastewater to the receiving water.

In the drawing, the subject of the invention is purely schematic table illustrated using an exemplary embodiment, and show it

Fig. 1 shows a reactor according to the invention in vertical section and Fig. 2 this reactor in horizontal section along the line II-II of FIG. 1.

A reactor 1 for biological wastewater treatment consists of a reactor chamber 2 , the stacked Fil tassen 3 receives 3 and can be acted upon via a supply air channel 4 with fresh air. The filter cups 3 are ring-shaped and form a central maintenance opening 5 , so that the reactor can be used for maintenance and monitoring purposes. The annular filter cups 3 are filled with filter material 6 as a carrier material for microorganisms for the biological degradation of organic substances in the waste water, with holes 7 distributed over the ring shape allowing the flow of waste water through the individual filter cups 3 . The drain holes 7 have funnels on the bottom of the cup widening Mün 8 with a drip edge 8 a, so that the seeping wastewater is not punctiform, but drips down onto the filter bed underneath. In order to prevent the filter material 6 from being rinsed out, the drain holes 7 are covered with filter candles 9 .

The filter cups 3 support each other via the distance of the cam 10 from Innenringwandung 11, so that there remains a space between the individual cups 3 for loading ventilation of the filter material used and the monitoring and observation of biological processes facilitated. The bottom side, the filter cups sitting on a support ring 12 of a reactor bottom part 13, the bottom part 13 sersammelbecken a Abwas forms fourteenth

The wastewater to be cleaned is fed in the upper region of the reactor 1 via a wastewater inlet 15 and distributed via a distributor 16 over the filter bed of the top filter cup. This distributor 16 has star-shaped from a central distributor container 17 on distributor pipes 18 , which are provided with lateral outlet bores 19 and upper cleaning bores 20 , so that a really large and uniform wastewater treatment of the filter cups takes place and rapid cleaning of the distributor pipes is also possible.

The waste water seeps through the filter cups 3 in succession, microorganisms building up in the filter material of the filter cups which are kept moist and viable. The swelling loading of the cups due to the natural accumulation of wastewater or an intermittent recirculation causes the water level in the filter cups to change constantly and as a result the atmospheric oxygen is also constantly sucked into the filter material. In this way, the microorganisms are supplied with the vital atmospheric oxygen, which means good living conditions for these small creatures and leads to an optimal breakdown of the organic substances.

By the corresponding mutual offset of distri lerrohren 18 on the one hand and outlet holes 7 of the trays 3 on the other hand results in a uniform leakage of filter cups 3 and well pre-purified water drips closing Lich bottom side in the sump 14 of the bottom part. 13 Here, this wastewater is fed through a passage opening 21 to a pump sump 22 , from which a recirculation pump 23 allows a recirculation of the wastewater. An overflow weir 24 ensures the discharge of excess water, which gets into a downstream waste water drain 25 . This wastewater drain consists of a pump sump 26 for a wastewater lifting pump 27 , which brings the wastewater to the receiving water or, as indicated by dash-dotted lines, from a simple drain pipe 28 .

Claims (7)

1. Reactor for biological wastewater purification, with a reactor chamber having an upper wastewater inlet and a lower wastewater discharge, in which filter-filled filter cups are stacked one on top of the other, leaving one air space between them, and can be seeped through one after the other by the wastewater to be cleaned, since characterized in that the reactor chamber ( 2 ) annular filter cups ( 3 ) which form a central maintenance opening ( 5 ). 2. Reactor according to claim 1, characterized in that the inner ring wall ( 11 ) of the filter cups ( 3 ) has towering cams ( 10 ) for stacking the filter cups ( 3 ). 3. Reactor according to claim 1 or 2, characterized in that the filter cups ( 3 ) evenly distributed over the ring shape have drain holes ( 7 ) or covered with filter candles ( 9 ) or the like. 4. Reactor according to claim 3, characterized in that the drain holes ( 7 ) at the bottom of the cup with funnel-shaped widening, a drip edge ( 8 a) form the mouths ( 8 ) are provided. 5. Reactor according to one of claims 1 to 4, characterized in that the wastewater inlet ( 15 ) is arranged a distributor ( 16 ) with star-shaped distributor pipes ( 18 ), which distributor pipes ( 18 ) lateral outflow bores ( 19 ) and at the Have cleaning holes ( 20 ) on the top. 6. Reactor according to one of claims 1 to 5, characterized in that the filter cups ( 3 ) on a support ring ( 12 ) of a reactor base part ( 13 ) are placed, which forms a with the waste water discharge ( 25 ) connected waste water collection basin ( 14 ) . 7. Reactor according to claim 6, characterized in that the annular collecting basin ( 14 ) via a Durchlaßöff opening ( 21 ) in a provided within the support ring sump ( 22 ) for a recirculation pump ( 23 ), which in turn by an overflow weir ( 24 ) is separated from the waste water discharge ( 25 ).