DE2256618C3 - Ventilated biological immersion filter for cleaning waste water containing organic pollutants - Google Patents

Description

The invention relates to a ventilated biological immersion filter for cleaning contaminants Wastewater to which the water to be cleaned is fed after a flocculation treatment and that of Backwashed from time to time.

Such a ventilated biological immersion filter is known for example from DE-OS 20 45 377, wherein There, substances such as sand, gravel and anthracite are specified as materials for the immersion filter. Such However, filter materials of the known type have such physical properties that very quickly and especially when filtering wastewater that is heavily loaded with organic contaminants, anaerobic organisms build up, giving the filtered water a bad odor to lend.

For this reason it is necessary that it be repeated and thorough washes of the filter are performed. However, each of these washes has due to the existing physical properties of the granular filter material that an elimination of all bacteria takes place, including those whose elimination is undesirable is, namely the aerobic bacteria, the presence of which is a matter of course for a biological immersion filter is required. It can be seen that under these conditions, a There is a significant drop in the performance of the immersion filter, which makes the filtering of waste water very strong are loaded with organic impurities, very difficult.

The object of the invention is therefore to provide a ventilated biological immersion filter in which, according to the Backwash the full cleaning performance can be achieved more quickly.

The solution according to the invention consists in designing an immersion filter of the specified type so that the filter material is made of baked clay with built-in dextrins.

The ventilated biological immersion filter according to the invention advantageously has the property that the filter material on the one hand has limited areas on its surface where a Bacterial layer can accumulate and stick, even after intensive and repeated washing is carried out, and on the other hand has smoothly formed areas, so that by washing on Eliminate bacterial cultures from this smooth area of the surface.

You can see that the baked clay with

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built-in dextrins consisting of granules or grains of the filter material are alternately formed on their surface with smooth and porous areas, while the filter material has no microporosity and only has a small specific surface area of the order of 1 m ³ / g. These granulates do not have any adsorptive capacity and thus form a failure carrier for a bacterial culture. After washing such a filter material in air and water, the bacterial layer or the bacterial film on the smooth areas of the granules is torn away, but parts of this bacterial culture remain at the bottom of the cavities, so that the inoculation of the filter material is always guaranteed. A very sharp drop in cleaning performance after a washing process of the filter material, as is the case with the materials sand, gravel and anthracite of the type described in DE-OS 20 45 377, is thus advantageously avoided.

If in further training in the immersion filter according to the invention a certain grain size for the Filter material between 0.5 mm and 10 mm, preferably between 2 mm and 4 mm, is provided, the grain size will depend on the extent of the pollution in order to obtain a sufficiently large bacterial film surface in this way to to be able to achieve cleaning with the desired degree of efficiency. Furthermore, a filter effect is achieved which holds back the substances in suspension as well as the colloids from the flocculation phase have escaped, as well as the remains of the bacterial film that would otherwise be removed from the upper layers the material can separate.

The filter effect itself is of such a quality that it is not necessary to use a secondary edging device to be provided downstream of the filter. The grain size of the filter material is chosen to be sufficiently large, in order to avoid any rapid colmation on the surface, which would impair the biological cleaning effect would limit to a smaller layer thickness.

Such a filter material with a small grain size and slow Kolmatierung offers the advantage that you can work at very high filtration speeds, values between 8 and 13 m ^J / m ² χ h and allows a return of the cleaned wastewater to the filter.

Such recycling makes it possible in the case of very high levels of dissolved impurities polluted wastewater to reduce the consumption of oxygen required for aeration, and by diluting the water to be treated by removing the bacterial flora in the entire mass of the Filtration material is homogenized and the cleaning efficiency is improved.

Another advantage offered by the immersion filter according to the invention is to be seen in the fact that one does not more toxic flocculants commonly used in filters that are made from conventional materials are made to prevent bacteria from growing up on the filter.

The biological filtering includes ventilation by means of air with strong recirculation of the purified water or aeration with air enriched with oxygen or pure oxygen, which is carried out in a manner known per se, but care is taken that a completely aerobic State is ensured, even in the case of very heavily loaded with dissolved impurities

fien wastewater, the O ₃ content can reach 25 to 30 mg / l before filtration.

The ventilated biological immersion filter according to the invention thus has a composition that a Controllable biological cleaning with predictable performance possible without unwanted bacterial growth and enables intensive cleaning with relatively reduced energy and oxygen consumption will.

The invention is explained below with reference to the description of exemplary embodiments and below With reference to the accompanying drawing explained in more detail

F i g. 1 shows a schematic representation of a system for cleaning organic contaminants Wastewater with an immersion filter according to the invention;

F i g. 2 shows a representation of the in the system according to FIG. 1 used ventilated biological immersion filter; and in

F i g. 3 and 4 are perspective views of two types of filter materials for the submersible filter.

In the arrangement according to FIG. 1, after mechanical pretreatment at 10, the wastewater is fed into a flocculation tub 11, where it receives the flocculation reactants from the containers 13 and 14 via the metering pumps 15 and 16. The water flocculated in this way is passed into a decanting device 17, from where it after clarification by means of a pump 18 in there. ^c . biological immersion filter shown in FIG. 2 is introduced, and flows through the cleaning material after it has been aerated with the ventilation device 19.

The ventilated biological immersion filter shown in FIG. 2 itself has a cylindrical tub 20 made of steel or a plastic material or a parallelepiped-shaped concrete jug, which with is provided with a horizontal double floor. The top wall 21 of this raised floor is perforated to to allow the circulation of the fluids, and consists of a perforated sheet or one with small Nozzles or sleeves provided plate.

Above this wall 21, the tub 20 is filled with a biological cleaning compound 22 made of a filter material, as shown in FIGS. 3 and 4 is shown. This filter material forms fixation or fixation points b, b \ for the bacteria and at the same time a smooth surface in areas designated by a and a \ .

The valves 23a and 24a open into the space between the two walls of the double floor Supply lines 23 and 24 for air and washing water.

The treated water exits through a line 25 which is provided with a valve 25a. The line 25 is provided in the form of an elbow to the water level above the filter material on a to keep the minimum level.

In the body of water between the fixed level 26 of the filter material and the upper level of the Water, which can vary between the levels 27 and 28, is held, is an aeration device 19 with attached to a porous body, which is supplied with air via a line 29 with a valve 29a. Of the The upper level 28 of the water level is determined by an overflow 30.

The water to be biologically cleaned is fed to the aerated biological immersion filter by a pump 31 via a line 32. It flows from top to bottom through the filter material forming the mass 22 and the wall 'Λ through to the exit. The purified water is circulated with a pump 34 through the line 33 located upstream of the biological immersion filter.

The immersion filter is washed using a countercurrent washing device with normal water circulation for the filter material. The washing takes place

ίο with air that is blown in via the supply line 23 is, as well as by introducing water via the supply line 24. The purpose of the air injection is intensive agitation of the grains of the filter material, their friction as well as a tearing away of the bacterial mass, which has developed on the smooth parts of the material. The points of fixation are opposite the smooth areas in cavities and are equipped with a bacterial film.

The introduction of water then makes it possible to remove the previously torn or loosened fragments of the Bacterial culture and all materials in suspension that the Ti search filter has been using since previous washing process has been able to hold back from being carried away.

During a washing process, the supply of the oxidizing air is interrupted via the valve 29a and the outlet of the purified water via the valve 25a. The valve 23a for the supply line 23 for air is opened and then the valve 24a for the supply line 24 for water. The level of the ¹ · water rises to level 28. The washing water is fed to the flocculation point via the overflow 30.

In an advantageous embodiment of the system, one can consider for reasons of design

j5 pull to subdivide the considerable heights by one uses two or more biological immersion filters in series. In this case, the washing cycles may be different for the first submerged filters in the series, which get dirty quite quickly compared to the last immersion filters in the series that are less contaminated.

According to the level of contamination of the biological immersion filter, that of the filtered throughput between two washing processes and depends on the impurity dissolved in the water to be treated, the wash water can vary between 1 and 5% of the treated throughput. With this wash water it can be purified water stored in a tank 35 provided for this purpose, which is introduced into the immersion filter via the supply line 24, in this supply line a Pump 36 is arranged.

The circulation of the washing water through the overflow 30, the line 30a and the container 35a

35 upstream of the flocculation trough 11 and the decanting device enables permanent re-inoculation of the water and thus a maintenance a highly variable, active biological mass that not only contains bacteria but also precursor protozoa (protozoaires predateurs), which here by itself limit the bacterial growth and it make it possible to avoid the addition of toxic reactants, so that only Saizt of iron or Alumina that are not offensive for that

hi flocculation can be used.

Pre-aeration of the water by means of the aeration device 19, a dome-shaped arrangement or a porous tube with a high degree of diffusion, the

in the middle of the above the filter material * or Filter bed held water mass is arranged. is essential to the water to an increased oxygen concentration that is as close as possible to saturation before passing it through the filter material flows so that certain aerobic strains and facultative aerobic strains develop at the same time will. This oxidation of the previously flocculated and decatated water takes place very quickly and enables increased cleaning with low oxygen consumption of 7 to 8 mg / l through use a strict or precise aerobic flora and an optional aerobic flora in one and the same device, the state of aerobiosis such is held that a destruction of the nitrogen compounds by the double phenomenon of nitrification and denitrification becomes possible.

For example, a pilot plant as shown schematically in Figure I provides the following Results on average over 15 days of continuous operation in the treatment of municipal wastewater with a large share of industrial outflows:

Raw water. mg / 1 Dry- I ' N (NII ₄ ) HS » COD Dimensions nitrogen

Water after dislocation decantic run. mg / 1

HSH CSU dry I ¹ N (NII ₄ )

mass nitrogen

446

182

7.75

25.8

166

39

1.7

14th

Filtered water without recycling the purified
Water / around filter

COD

103

Dry matter

N (NII ₄ )
nitrogen

18.2

1.35

0.9

In this example, the biological immersion filter is exposed to 4 ni 'per m' surface and hour and enables 2 kg of biological oxygen demand in five days (BOD ^) per cubic meter of the volume of the Remove filter material.

The system described above can, if necessary, be completed by removing dyes, tannins, etc. by adsorption, for example on active charcoal, whereby the previous biological cleaning in the manner described makes it possible to obtain a greatly increased degree of efficiency and greater efficiency, with the risk of Kolmatierung the activated carbon by too strong bacteria-Filtered water with back agitation of the cleaned
Water on the filter

(SB

54

Dry matter

6.4

0.95

N (NIl ₄ )
nitrogen

0.8

overgrowth is avoided.

There is an accumulation of the substances in suspension and the corresponding contamination or pollution, the system described can be through a separate sand filter to complete. A design with a biological two-layer filter can also be carried out, with the upper layer through the fixation material for the Purification bacterial flora is formed and the lower layer is made of a material of low granulometry and different density exists, which then takes on the role of the separation filter.

For this purpose 3 sheets of drawings

Claims (1)

Patent claims: 1. Ventilated biological immersion filter for cleaning organic contaminants Wastewater, to which the water to be cleaned is fed after a flocculation treatment and that backwashed from time to time, thereby characterized in that the filter material consists of baked clay with built-in dextrins Z filter according to claim 1, characterized in that the filter material has a grain size between 04 mm and 10 mm, preferably 2 mm and 4 mm