DE19523707C2 - Reactor for the biological reduction of the concentration of carbon, nitrogen and phosphorus compounds in water - Google Patents

Description

The invention relates to a reactor for biological Rei water based on a combination of egg nem biofilm system and an activated sludge system, the Activated sludge from a clarifier into the bioreak gate is returned.

Traditionally, activated sludge, immersion or Trickling filters reacted with organic substances. After this removal of nitrogen and phosphorus has been requested, these bioreactors have continued to be environmentally friendly most proven facilities. However, the animated ones require Sludge plants, which are essential as open bioreactors Chen operating advantage, large volumes.

Biofilm reactors such as trickling filters or immersion filters are in their resilience is limited to 200 to 400 m² / m³ because otherwise there is a risk of constipation.

Variable area reactors require mechanical separation directions for the growth supports, such as sieves or filter gusts those who also cause operational problems (DE 69 104 629 T2, DE 34 41 664 A1) and elastic Growth carriers cannot reliably prevent their downforce.

Combinations of biofilm and activated sludge systems the disadvantage that the sludge particles an organic loading exert pressure on the biofilm, the separation of the carrier and the mud gives trouble and floats increasing or decreasing carriers the interface contact of Affect substrate, oxygen and microorganisms.

DE 44 09 435 C2 describes a device for simultaneous biological C, P and N elimination in a combination system  described. The disadvantage of this solution is an accumulation of Carrier material in the direction of flow of the water in the tax zone in the formation of a floating bed and the absence a degassing zone, whereby individual carriers are carried into the Can reach the clarifier.

The invention has for its object a reactor combined biofilm and activated sludge system wrap with the growth carrier in the treatment segment elements with partly different milieu conditions are retained without blockage, a build-up of Growth carriers avoided at discrete locations in the reactor and a discharge of growth carriers into the secondary clarification facility tion is safely prevented.

This object is achieved by the features of Claim 1 solved. A bioreactor is placed in a ring ordered treatment segments divided into each the growth carrier for the biofilm is hydraulically retracted during the water / activated sludge mixture the treatment zones circulated and between the nitrics tion zone and the mixing zone at the water inlet a degassing zone with extraction device for the clarifier and pre-cleaner be arranged for internal circulation. In the Mixing zone is the inflow with the return sludge and up 400% nitrified water for internal circulation the nitri / denitrification is mixed intensively and reaches into the denitrification stage under a baffle. This is equipped with circulation devices to prevent sedimentation Prevent solids on the floor. It will float bodies as biofilm growth carriers. The one The quantity to be brought in depends on the C / N ratio of the inflow dependent and is 1 to 5 vol .-% for municipal waste water. The dissolved and bound as nitrate causes be is already degrading organic matter by 30 to 60%. The denitrification increases the buffer capacity.  

Via a distributor device for an ascent speed of 15 to 50 cm / s is measured and z. B. even distribution of waste water / Activated sludge mixture via the floating grain filter of the Ensured phosphate release stage, the waste water arrives into the next treatment segment, while the on Growth carriers remain in the denitrification stage.

The phosphate release step is up to 80 vol .-% Floats filled. These float in the wastewater and thereby form a floating grain filter, in the particulate organic substances and activated sludge flakes and hydrolytically split.

The sewage / revitalized gets under a baffle sludge mixture in the nitrification stage while the on growth carriers remain in their treatment segment.

The nitrification level is with aeration equipment equipped that generate intense turbulence. she is provided with growth carriers, the amount of which depends on the Aus load factor of the plant is designed variably. The maxi The fill quantity of the growth carrier is to be measured in such a way that 2 to 4 liters of water per square meter of biofilm area volume are available to a sufficient limit surface contact between biofilm, oxygen and substrate guarantee.

In the nitrification stage there are one or more zones for to design an intermittent ventilation to an on Fit to seasonal or daily time lines of exposure to enable.

By the grafting forced in the nitrification stage flow becomes a continuous decrease in the concentration tion of organic substances in the direction of flow. This will lead to an overgrowth of the nitrifying bacteria prevents thick biofilm. This effect is achieved by the  Optional installation of additional diving walls in this treatment development zone increased because of the compulsory retention of the Growth carriers abge in the respective by walls separated segments from another selection of the microorganism men in the biofilm.

During the wastewater / activated sludge mixture intensively through is mixed, the microorganisms in the biofilm Flow direction further specialized and remain in their respective treatment segments. This is the nitrifi cation mainly in the biofilm, while the Denitrifika tion and especially the phosphate elimination in the activated sludge.

Before the transition to the clarifier, a Ent Gassing zone arranged to the Nitri retention zone safely. This is how it should be measure that the downward speed of the water is smaller than 30 to 80%, preferably 50%, of the buoyancy rate the float. At a length of this Zone over 40 cm, this is preferably with parallel Inclined slabs at a distance of 20 to 40 cm. At the Soil becomes sludge prevention devices storage provided. The transition to the clarifier tion can be directly through a baffle for degassing zone or with separate arrangement via a pipeline respectively.

The internal circulation for nitrite / denitrification is through a circulation device in the wall to the mixing zone and / or a pump line from the degassing zone into the mixer zone realized.

The build-up of growth carriers in the degassing zone can either by moving against the direction of flow of the Water-moving floating goods clearing device prevents who the.  

The advantages achieved by the invention are that reliable combination systems even in large systems from biofilm and activated sludge processes to simultaneous bio logical P and N reduction in open reactors can be set. The volumes of the bioreactors will be greatly reduced and the energy consumption as well as the heights moderate arrangement of the structures by avoiding pressure height losses significantly reduced.

Due to the elimination of mechanical devices for the return the growth carrier will stop constipation even with more as a 5-fold enlargement of the specific growth area and a discharge of carrier material into the clarifier tion excluded.

The ring-shaped arrangement of the treatment segments with un different milieu conditions and thus the integration the biological P reduction in the internal nitrifica tion / denitrification circuit eliminates the organic Loading of the biofilm in the aerobic zone by the loading live sludge flakes, with the nitrification zone only at 40 up to 70% of the biological in the inflowing water oxygen demand and the buffer capacity is increased in the nitrification stage.

The invention is described in more detail below using an exemplary embodiment in 3 embodiments with reference to FIGS. 1 to 3.

Show it:

Fig. 1 compact basin with rectangular clarifier,

Fig. 2 arrangement with dissolved construction,

Fig. 3 Compact basin with a round clarifier.

The inflowing water is in the mixing zone 6 with the return sludge 9 and the nitrified water, which with the device 7 for internal circulation, for. B. To a circulating pump, is conveyed, mixed and passes to the oxic denitrification stage 1 . This takes up 8 to 12% of the volume of the nitrification stage and can be equipped with growth carriers for denitrifiers. The Umwälzein direction must prevent both the settling of sludge and the baking of growth carriers on the surface. Including the external and internal circulation for the return sludge and the nitrification / denitrification, the rate of ascent in the separation device of the growth carrier for dry weather runoff greater than 15 cm / s is selected.

The phosphate release stage 2 has a volume of 10 to 14% of the nitrification stage and is equipped with circulation devices. It can be filled with growth carriers up to 80% by volume.

The water / activated sludge mixture is distributed through distributor devices (tipping channels) over the floating grain filter, which consists of the growth supports of the anaerobic stage for the phosphate release 2 , and passes under a diving wall into the aerobic nitrification stage 3 , which contains up to 35% with growth supports is filled. This can be divided into individual segments by means of baffles in order to take into account the different C / N ratio in the course of the flow path and to enable a high degree of specialization of the microorganisms of the biofilm.

In a degassing zone 4 , which is preferably equipped with an inclined plate separator, the growth carriers of the nitrification stage are separated. The average sinking rate of the water / activated sludge mixture is measured at 30 to 50% of the rate of buoyancy of the growth bodies. At the bottom of the degassing zone 4 , a trigger device 8 , which is designed as a perforated pipe and is dimensioned hydraulically, to the clarifier 5 and at the connection to the mixing zone 6, a device for internal circulation 7 for nitrification / denitrification is arranged.

The excess sludge 10 is conveyed from the clarifier 5 for sludge treatment and the return sludge is pumped via line 9 into the mixing zone 6 .

The arrangement of compact basin according to Fig. 1 and 3 has the advantage that the clearing device against the direction of flow of the water with a floating sludge device possibly pent up over the degassing zone 4 growth carrier in the Ni trification stage 3 . If the secondary clarification is arranged according to Fig. 1, a belt clearer is guided over both zones and simultaneously clears the activated sludge on the bottom of both basins as well as the floating sludge on the secondary clarification and conveys the used carrier to the nitrification stage with the flow to the degassing zone.

Reference list

1 denitrification level (anoxic)
2 phosphate release step (anaerobic)
3 nitrification level (aerobic)
4 degassing zone
5 clarifier
6 Mixing zone for feed, return sludge and nitrified water
7 Device for internal circulation
8 trigger device for the clarifier
9 return sludge line
10 excess sludge

Claims (4)

1. reactor for the biological reduction of the concentration of carbon, nitrogen and phosphorus compounds in water, based on a combination of biofilm and activated sludge systems,

• - An anaerobic phosphate release stage ( 2 ) with floating grain filter in the internal circuit of a nitrification cation stage ( 3 ) and a denitrification stage ( 1 ) is integrated and devices, for example baffles, are arranged to retain the floating growth carriers in their respective pools,
• - Between the nitrification and denitrification stage, a degassing zone ( 4 ) with hydraulic separation of the swirled growth carrier of the nitrification stage ( 3 ), a trigger device ( 8 ) for a clarifier ( 5 ) and devices ( 7 ) for internal circulation are arranged and
• - The degassing zone ( 4 ) is a mixing zone ( 6 ) for the inflowing water, the return sludge from the post-treatment device ( 5 ) and the nitrified water is connected downstream.

2. Reactor according to claim 1, in which in the degassing zone ( 4 ) is a floating material clearing device. 3. Reactor according to claim 1 and 2, in which between the Ent gasification zone ( 4 ) and the mixing zone ( 6 ) a clarification is arranged, the clearing device acts across both zones. 4. A method for the biological reduction of the concentration of carbon, nitrogen and phosphorus compounds in water, based on a combination of biofilm and activated sludge systems by means of a device according to claim 1,

• - An anaerobic phosphate release stage ( 2 ) with biological floating grain filter is integrated in the internal circuit between denitrification stage ( 1 ) and nitrification stage ( 3 ) and swirlable growth carriers are introduced into the denitrification stage ( 1 ) and / or into the nitrification stage ( 3 ) who cannot leave their respective location.