NL8502833A - COMPOSIBLE WASTE WATER TREATMENT PLANT FROM MULTIPLE UNITS. - Google Patents

Description

. NL 33.077-Kp / dJ / hp

Multi-unit waste water treatment plant.

The present invention relates to a multi-unit and exploitable multifunctional wastewater purification installation with a mechanical purification unit and, in fully assembled condition, at least one downstream biological purification unit, wherein the mechanical purification unit is connected to a wastewater accumulator and wherein the mechanical purification unit comprises a pre-purification installation in the form of a grid or the like, a sand collector with aeration installation and a downstream intermediate settling device with sludge discharge, as well as as a basic unit for composition with the downstream biological purification step in single operation independently and after composition with the downstream biological purification unit in combination operation. can be used together with these.

In the wastewater treatment plant (known in practice), the sand collecting basin has a volume corresponding to a space requirement of a maximum of 4 liters / inhabitant (inhabitant here and in the rest of the application also includes inhabitant equivalent). The aeration does not make the sand collector a defined activated sludge basin. A defined disposal of activated sludge with the aim of setting special biological operating conditions in the aerated sand trap does not take place. The basic unit forms, as it were, the first unit, but remains a mechanical purification unit as a whole. The achievable purification power is low and well below 30%. The use of the mechanical purification unit as a basic unit is more a provisional measure than a commendable waste water technical measure. If a biological purification unit or several of them is connected to a further unit, the full construction costs are required for the combined operation, for example with a space requirement of approximately 179 liters / inhabitant with a purification capacity of approximately 93% in total. In the context of the known measures, the; -2- first biological purification unit, which is switched after the described mechanical purification unit, a unit with low load.

On the other hand, biological wastewater treatment plants of several units are known (compare German patents 26 40 875 and 31 17 805), the first biological unit having a very high sludge load of 2-12 as adsorption stage and the second biological unit as unit with low (the sludge load 10 is shown here and in the rest of the application in kg BSB per kilogram dry substance per day). In the adsorption unit, the sludge is kept in the processing phase. The processing phase is the phase, as it were, upstream of the substrate breath, in which the enzymes required for the degradation of the substrate are formed. The processing phase is therefore the boundary area, in which the substrate respiration just starts, but is not yet fully effective. To keep the sludge from the first activated sludge unit in this state, a short sludge age is required and a correspondingly controlled surplus sludge discharge from the intermediate settling. Together with the indicated space load in the first activated sludge unit, it is achieved that mainly an adsorption resp. flocculation of higher molecular compounds occurs and these compounds are discarded without degradation at the intermediate settling with the surplus sludge. The significant amount of energy otherwise required for the degradation of this compound is saved. In the second activated sludge unit, the low molecular weight and more readily degradable compounds can then be biodegradable particularly easily and quickly, when a sludge load of approximately 0.15 is used there. Thus, very different modes of action are used in the two activated sludge units. A mechanical purification unit remains upstream. The invention is based on the fact that this adsorption technology can make an essential contribution to the further development of wastewater treatment plants that can be assembled and operated in multiple units, both in construction and in functional terms. Known wastewater treatment plants have hitherto not been designed and operated according to the measures of the adsorption technology Ά / * q Ί% V '"3-" 4.

The object of the invention is to further develop such an installation in such a way that a considerable purification capacity of approximately 30% and considerably more can already be achieved with single operation of the basic unit and that after a further expansion in combination operation, with a space requirement of only approximately approximately a total of 100 liters / inhabitant and less, at least an equivalent or even considerably higher purification power is attainable compared to the known measures.

To this end, the present invention is characterized in that the sand collecting basin has a volume corresponding to a space requirement of at least 6 liters / inhabitant, preferably approximately 8 liters / inhabitant and is arranged as adsorption basins. The latter means that it is designed as an active sludge unit, which can be operated under aerobic and / or optional aerobic conditions with a sludge load BDg equal to or greater than 2 (BDg = B ^ / DS, where B ^ stands for the space load in kg BSB per m3 per day and DS for the content of dry substance in kg per m3) and in which the sludge can be kept in the processing phase by means of the intermediate settling and the sludge discharge from intermediate settling. The oxygen content should be kept in the adsorption unit in the range of 0.5-1 mg / liter. The invention makes use of the fact that the sand collecting basin of the known installation can act as an adsorption unit by the measures described. As a result, with an increase in construction costs of only about 2% with respect to the total wastewater treatment plant, a single treatment already achieves a treatment capacity of 30% and more.

A favorable embodiment of the waste water purification installation according to the invention is characterized in that in single operation and in combination operation, a sludge-return device is connected to the intermediate settling device or to the sludge discharge for introducing at least 20% of the sludge discharged from the intermediate settling, at preferably about 40-65% of the sludge discharged from the sedimentation, in the waste water accumulator. When such an arrangement is used, single operation ™ ™ Λ Λ λ 7. } U L 3 Ó ^ -4- a purification capacity of approximately 60% can already be obtained at low additional costs. This reduction is also advantageous in combination operation. The return takes place at a sufficient distance for the mechanical purification unit, at least for the sand catchment basin. The surplus sludge can be fed to a fermentation tank in single operation, as usual.

Alternatively, however, it is also possible that in single operation the non-returned sludge can be fed for a further treatment without fermentation tank to a device for adding Ca or Fe salts and to a chamber press filter.

In addition, a further embodiment of the waste water purification installation according to the invention is characterized in that in single operation the discharge from the intermediate settling can be supplied to an installation for irrigation and / or fertilization of agricultural cultures.

If the basic unit according to the invention is assembled, the further expansion can be carried out in various ways 2Ό. One of these possibilities is characterized in that, in combination operation, the downstream biological treatment unit is a second unit as well as an activated sludge basin, equipped for a sludge load BDS in the range of 0.15 - 1, at the outlet of the intermediate settling device. closed and equipped with a sedimentation device with sludge discharge.

Subsequently, in a further extension phase between the intermediate settler and the activated sludge basin of the second unit, a drip body with a space load of 0.2 - 2 or more, depending on the filling, can be arranged.

With a filling with chunks, a space load of 2 is not exceeded. With a plastic filling one can go up to 6.

Another possibility is characterized in that, in combination operation, the downstream biological purification unit is constructed as a second unit and as a drip body with a downstream activated sludge basin designed for a sludge load of 0.05 to 1 and the activated sludge 3502833. —5— * s basin is connected to a sedimentation plant with sludge discharge. It is within the scope of the invention to connect the drip body directly to a settling device. In any case, the waste water in the base unit or adsorption unit not only undergoes the described purification, but also, with regard to the discharge, which is introduced into the downstream units, an active preparation or a preparation for further purification, if "were it in the sense of a squat.

10 The base unit works particularly well at high sludge loads when only bacteria are active.

This is preferably ensured by this (compare German patent 33 17 371), that the adsorption unit is operated with procaryotes as working biomass and that with the incoming raw waste water procaryotes, which at least one wt.% Of the working biomass in a m3 of the adsorption unit, are continuously supplied as additional biomass to the adsorption unit, preferably in an amount of 5-15% by weight per m3. In this context, a strict separation of the biocoenoses between the base unit and the adsorption unit and the downstream one can be effective. However, good results are also achieved when, in combination operation, at least a part of the surplus sludge discharged from the settling unit can be re-introduced into the sand collecting basin acting as adsorption unit via a suitable return device. It has been found that at high sludge loads BDS # as indicated for the adsorption unit, the bacteria only control the field. The sludge production in the adsorption unit is then 7-10 times higher than in the downstream, low-load activated sludge units. The proportion of the eucaryotes, that is to say the bacteria-eater, in the adsorption unit and thus in the basic unit of the treatment plant according to the invention is relatively small. The bacterial population in the downstream activated sludge units is composed approximately as in the adsorption unit, the bacteria in the downstream activated sludge units generally having a markedly lower activity. Despite the return of surplus sludge from the sedimentation plant, these properties, in particular the high 3305333 __ ___3 -6 bacterial sludge production with a 7-10 times higher sludge yield, lead to a dilution of the eucaryote stock and thus to a significant attenuation, respectively. to wash out the eucaryotes from the biocoenosis of the A-unit- The chances of survival in this so striking bacteria-oriented biocoenosis of the adsorption unit are very small for the eucaryotes, so that with the stated supply of procaryotes with the influx of crude The described sludge recirculation can be realized.

In summary, the advantages obtained show that in a waste water purification installation according to the invention a considerable purification capacity of approximately 30% and more can be achieved, even with a single operation of the basic unit as the first unit, albeit with minimal additional construction costs. The purification capacity can be increased to approximately 60% here simply by sludge recirculation. After a further expansion, in combination operation, with a space requirement of a total of only 100 liters / inhabitant and less, an at least equivalent and even increased purification capacity is achieved compared to the known installations (with a space requirement of approximately 179 liters / inhabitant). Further advantages can be summarized as follows: firstly, the costs of a mechanical purification compared to the known measures in the first unit practically double the purification power. A further biological unit can easily be added later, so that the final purification capacity can be adjusted almost as desired in height by this later construction or extension in the context of combination operation. If one only works with the first unit, that is to say with the basic unit developed according to the invention, an addition of Ca resp. Fe salts are carried out or other precipitation agents are used, so that the sludge can be further processed in a chamber press filter and combustible filter cakes can be obtained, so that twice as much energy can be recovered from the sludge than in fermentation tanks via methane gas 85 0 2 9 3 3 -7- extraction is possible. The basic unit already makes it possible to utilize all microbiological reaction mechanisms, which, through mutated bacterial strains, lead to a permanent improvement and thereby also guarantee a noticeably better process stability compared to load shocks. For agricultural soils, especially in areas with a lack of waste water, only the basic unit according to the invention provides such well-prepared and nutrient-rich water that it can be used for both fertilizing and irrigation purposes. In addition, methane gas is extracted and, when a fermenter is used, a nutrient-rich sludge is used in agriculture.

The invention will be explained in more detail below with reference to an exemplary embodiment.

FIG. 1 is a schematic representation of a fully assembled wastewater treatment plant according to the invention.

Fig. 2 is a schematic representation of the base unit of FIG. 1 on an enlarged scale.

FIG. 3 is a schematic representation of an expanded base unit of FIG. 2.

Fig. 4 is a schematic representation similar to FIG. 1 of a known wastewater treatment plant.

FIG. 5 is a schematic representation according to FIG. 1 of another embodiment of a wastewater treatment plant according to the invention.

The wastewater treatment plants shown in Figs. 1, 4 and 5 can be assembled from several units and can be operated and have a multifunctional function. In principle, the assembly comprises a mechanical purification unit and, in fully assembled condition, at least one downstream biological purification unit. The mechanical purification unit is connected to a waste water accumulator, which is indicated by the arrow 1. The mechanical purification unit has a pre-purification device in the form of a grate 2 or the like, a sand collecting basin 3 with aeration device 4 and a downstream intermediate settling device 5 with sludge discharge 6. The term "intermediate operation 3,102 83 3. "is used, because this settler in the fully assembled state functions as intermediate settler 5. The mechanical purification unit can be operated independently as a basic unit in single operation, that is, prior to assembly with the downstream biological purification unit. After composition with the downstream biological purification unit, it can be exploited in combination operation together with the latter. Figures 1 and 5 show installations according to the invention which are completely assembled. Fig. 4, on the other hand, shows the prior art embodiment. A comparative consideration of the sand catchment basin 3 of the installation according to the invention on the one hand and the installation belonging to the prior art on the other hand shows that the sand catchment basin 3 in the installations according to the invention has been enlarged. In this respect, Figures 1 and 5 on the one hand and Figure 4 on the other have been compared. The sand collecting basin 3 in Figs. 1 and 5 has a volume corresponding to a space requirement of at least 6 liters / inhabitant, preferably approximately 20 liters / inhabitant. In fig. 4 this space requirement is 4 liters / inhabitant. The sand collecting basin 3 is designed as an adsorption unit. This means that this sand collecting basin 3 acts as an active sludge unit in the aerobic and / or optional aerobic area and indeed with a sludge load BDg of equal to or greater than 2, whereby in this sand collecting basin 3, which acts as an adsorption unit the sludge can be kept in the processing phase with the aid of the interposer 5 and the sludge discharge 6 taking place there. Thus, a purification power of about 33% is obtained when the base unit 30 is operated singly. This almost corresponds to a doubling of the purification power, which can be achieved with a single operation of the basic unit of an installation belonging to the state of the art (see Fig. 4). However, construction costs have increased by only 2% compared to total costs. It can be seen from Fig. 3 that an improvement in the purification capacity of up to about 60% can be achieved with little additional cost. It is clear that here, in single operation, the intermediate settling unit? 1 .1 o 7 7 3 o υ l 8 o ó, »-9- - ting 5 resp. a sludge return device 7 is connected to the sludge discharge 6 for introducing at least 20% of the sludge discharged from the intermediate settling 5, preferably however 40-65% of the sludge discharged from the intermediate settling 5, into the waste-5 water accumulator 1 which is connected to the sand collecting basin 3. The return can take place at a distance of approximately 800-1000 meters for the sand catchment basin 3.

In Fig. 1. it has been settled that, in combination operation, the downstream biological purification unit is connected as a second unit and as active sludge basin 8, arranged for a sludge load in the range of 0.15 - 1, to outlet 9 of the intermediate settling device 5, as well as with a settling device 10 is equipped with sludge discharge 11. It is not resolved that a drip body can be arranged in a further unit between the intermediate settler 5 and the activated sludge basin 8 of the second unit. Fig. 5 shows that, in combination operation, the downstream biological purification unit is designed as a second unit as drip body 12 with a downstream activated sludge basin 8 arranged for the above-mentioned sludge load 20, the activated sludge basin 8 being connected to a settling plant 10 with sludge discharge 11. In the embodiment according to Figs. 1 and 5, a strict separation of the boicoenoses between the base unit acting as adsorption unit and the downstream activated sludge units is realized.

This is not absolutely required. Rather, in combination operation, part of the sludge discharged from the settling unit 10 can be reintroduced into the sand collecting basin 3 acting as an adsorption unit via a suitable return device 13, which is shown in Fig. 5 by a dotted line drawn. In the embodiment according to Fig. 5, the discharge after the settling device 10 can be supplied via a special return line up to five times the inflow quantity to the waste water accumulator 1, albeit for denitrification and / or dilution.

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30 $

Claims (10)

1. Multi-unit multipurpose wastewater treatment plant with a mechanical purification unit and, in fully assembled state, at least one downstream biological purification unit, the mechanical purification unit of which is connected upstream to a wastewater accumulator and wherein the mechanical purification unit has a pre-purification device. in the form of a grate or the like, a sand collecting basin, with a ventilation device and a downstream intermediate settling device with sludge discharge, and as a basic unit prior to composition with the downstream biological purification unit in single operation independently and after composition with the downstream biological purification unit in combination operation together therewith can be used, characterized in that the sand catchment basin (3) has a volume corresponding to a space requirement of at least 6 liters / inhabitant, preferably 8 liters / inhabitant, and as ads orption unit is furnished. 2. Wastewater treatment plant according to claim 1, characterized in that in single operation and in combination operation on the intermediate settling device (5) or on. the sludge discharge (6) a sludge return device (7) is connected for the introduction of at least 20% of the sludge discharged from the intermediate settling, preferably about 40-65% of the sludge discharged from the intermediate sedimentation, into the waste water accumulator (1 ). 3 R Π 3 X 3 -11- version 1 or 2, characterized in that, in combination operation, the downstream biological treatment unit as a second unit as well as activated sludge basin (8), designed for one sludge load BDS in the range of 0.15 - 1 is connected to the discharge (9) of the intermediate settling device (5) and is also equipped with a sedimentation (10) with sludge discharge (11). Wastewater treatment plant according to claim 1 or 2, characterized in that in single operation the non-returned sludge can be fed for further treatment without fermentation tank to a device for adding Ca or Fe salts and to a chamber press filter. 4. Wastewater treatment plant according to claims 1-3, characterized in that in single operation the discharge from the intermediate settling can be supplied to an installation for irrigation and / or fertilization of agricultural cultures. 5. Wastewater treatment plant according to conclusion Wastewater treatment plant according to claim 5, characterized in that in a further expansion stage between the intermediate settling device (5) and the activated sludge basin (8) of the second unit, a dripping body (12) with a space load of 0, 2 - 2 and more, depending on the filling, is applied. Wastewater treatment plant according to claim 1 or 2, characterized in that, in combination operation, the downstream biological treatment unit is arranged as a second unit and as a drip body (12) with a downstream unit, for a room load equal to or greater than 0.15. activated sludge basin (8) is equipped and the active sludge basin (8) is connected to a sedimentation plant (10) with sludge discharge (11). Wastewater treatment plant according to claims 1-7, characterized in that at a combination operation at least a part of the sludge discharged from the settling plant (10) can be re-introduced into the sand collecting basin (3) acting as an adsorption unit via a suitable feeding device (13). 9. Wastewater treatment plant according to claims 1-8, characterized in that the adsorption unit can be exploited with procaryotes as active biomass and with the incoming raw waste water procaryotes, which contain at least one% by weight of the active biomass per m3. 1 m3 of the adsorption unit can be continuously fed as additional biomass to the adsorption unit, preferably in an amount of 5-15% by weight per m3. Wastewater treatment plant according to claims 1-7 and 9, characterized in that a strict separation of the biocoenoses is possible between the adsorption unit and the downstream units. * λ η λ? ** L- V ά »w w