CS272372B1 - Biocontactor - Google Patents

Abstract

The solution relates to the field of sewage treatment plants waters. Solves biocontactor for cleaning sewage, consisting of a tub with partitions and intensifying elements and from the shaft with biodisks. The essence of the solution is that fronts and / or bulkheads are attached to the tub whose height extends above the water level in the biocontactor and the obstacles to the circuit biodiscs fitting a circular cutout that a the perimeter of biodiscussion creates a permanent passage a slot, wherein the partition and / or face is in the case of a hydraulically disadvantageous van carrier the intensifying elements they are bypass ribs, blanking rib, partition and a baffle rib that is arranged alone or in combination, wherein extreme bulkhead with extreme biodisks they can replace bath tubs and dry cleaners the elements may be placed inside the tub or attached to the bathtub.

Description

The invention relates to a biocontactor for wastewater treatment. consisting of a bath with baffles and intensifying elements and a shaft with biodisks.

The biocontactor of existing treatment plants consists of a bath and a shaft with biodisks. The tub is provided with fronts and usually three partitions, which are provided with connecting openings. In this way, the bath is usually divided into four interconnected spaces and also the biodisks are divided on the shaft into the appropriate number of sections. The bottom of the tub has a cylindrical shape or a multi-walled shape. The main disadvantage of the current design of the biocontactor is the small spatial use of the biocontactor. Another disadvantage is that the whole biocontactor cannot be made as a continuous cylinder in the whole length from differently shaped and porous material or biodisks. Another disadvantage is the disordered flow of liquid in individual tubs - sections of the biocontactor. Activated sludge settles in the existing baths of the biocontactor and rotes.

These disadvantages are eliminated by a biocontactor for wastewater treatment, consisting of a bath with baffles and intensifying elements and a shaft with biodisks according to the invention, the essence of which consists in attaching to the bath faces and / or baffles whose height extends above the water level of the biocontactor and the baffles have a circular cutout adjacent to the perimeter of the biodisks, which forms a permanently passable slit with the perimeter of the biodisks. in combination, the end baffles with the end biodisks optionally replacing the fronts of the bath and the cleaning elements such as biofilters are optionally located inside the bath or connected to the bath from the outside.

The advantage of the biocontactor according to the invention is that biodisks or other biomass carriers are assembled on a shaft into one rotating cylinder and thus make maximum use of space. Partitions reduced by circular cutouts have less material demands. The partitions adjoin the perimeter of the biodisks by circular cutouts and thus create sufficiently separate spaces with the biodisks in the biocontactor bath. The bypass, blanking, baffle ribs and baffle preferably keep the activated sludge suspended and direct the flow so that the activated sludge does not settle to the bottom of the biocontactor and further allows flow through biofilters or other treatment elements located inside or outside the biocontactor, all with minimal energy In the case of single-chamber biocontactors, where partitions are not required, they are preferably the carrier of the intensifying elements of the front of the biocontactor bath.

In the accompanying drawings according to the invention, Fig. 1 is a view of the basic arrangement of a biocontactor and the flow of water therein, Fig. 2 shows a biocontactor according to the invention, the right half of the bath having a hydraulically advantageous shape and the left half of the bath Fig. 3 is a view of a biocontactor whose intensifying elements create water circulation outside the biocontactor; Fig. 6 is a biocontactor, where the extreme partitions replace the fronts of the bath,

The biocontactor according to the invention consists of a bath in which a shaft JL of a cylindrical biomass carrier, usually composed of biodisks 2, is mounted. The partitions 4 are attached to the bath 3 so Intensifying elements such as bypass ribs 5, blanking ribs 6, partitions 7 and baffle ribs 8 can be fastened to the partitions 6 and / or the faces 10 so that the cleaning elements j? such as biofilters, filters, settling tanks, reactors, etc., can be located inside or outside the biocontactor space. The end baffles 4 with the end biodisks 2 can replace the faces 10 of the bath 3. The intensification elements have different shapes, sizes, different lengths and numbers and can be connected to each other and to the bath by reinforcements. Bath 3 together with intensifying elements offer a number of construction variants which ensure flow in the whole space and especially at the bottom vaCS 272372 B1 '2 ny £. This system makes it possible to increase the volume of the biocontactor bath according to the specific need.

In FIG.

Bypass ribs £ prevent activated sludge from settling in the corners and bottom of the bath. In FIG. In FIG.

To increase the efficiency of the water flow, the blanking rib £ can be extended below the drain of the biocards £ so that it touches all bypass ribs £ in their upper part, or the blanking rib 6 in other types of biocontactors such as in Fig. 1, the bypass ribs 5 in interconnect their upper parts below the perimeter of the biodisks. Then a further increase of the flow intensity can be achieved by fixing several strips to the perimeter of the biodisks 2.

In Fig. 4, the rotating shaft 1 with the biodisks 2 carries water through the biofilter 9, around the baffle rib 8 and under the partition wall 7 into the space above the baffle rib 8 to the biodisks 6. The baffle ribs 8 and the partition wall 7 prevent sludge from settling on the bottom of the bath 6. In the space of the bath 6, where the water rises to the biodisks 2, the rectifying rib 8 and the partition wall 7 keep the concentrated activated sludge suspended.

In Fig. 5, the inflowing water gradually flows through the bath 6 divided by the partitions 4,

In FIG. The circular cut-out in the partition 4 adjacent to the circumference of the biodisks £ forms a self-cleaning slit which prevents the entry of lump dirt into the space of the tub £. The slit on the opposite side of the biocontactor prevents the lump particles from leaving the biocontactor,

The biocontactor according to the invention will be used in biological treatment plants, especially with biodisks, where the biocontactor has one or more chambers formed by partitions. The biocontactor will also be suitably used in biotechnology, where it will not be desirable for the biomass to settle to the bottom of the biocontactor bath, and also where it is appropriate to keep the biomass in suspension. Furthermore, where it is necessary to create a water circulation through the treatment elements, such as filters, settling tanks, reactors, etc.

The gaps between the biodisks and the baffles can be used as a self-cleaning screen preventing the entry of lump impurities into the biocontactor space, and also where the biocontactor must not leave large pieces of biomass.

According to the invention, it is possible for biocontactors. use tubs with hydraulically unfavorable shapes. According to the invention, it is also possible to create suitable conditions in the biocontactor or in the cleaning elements which are connected to it, for example for nitrification and / or demitrification.

According to the invention, the amount, age, concentration and displacement of the activated sludge can be regulated in the biocontactor itself or in the treatment elements by the arrangement of the intensification elements, the partitions and the shape of the bath, optionally with the use of treatment elements.

Claims (4)

OBJECT OF THE INVENTION 1, Biocontactor, for wastewater treatment, consists of a bath with baffles and intensifying elements and a shaft with biodisks, characterized in that fronts (10) and / or baffles (4) are attached to the bath (3), the height of which extends above the water level in the biocontactor and the baffles (4) have a circular cutout adjacent to the perimeter of the biodisks (2), which forms a permanently passable slit with the perimeter of the biodisks (2), the baffle (4) and / or front (10) being ) carrier of intensifying elements. 2. Biocontactor according to claim 1, characterized in that the intensifying element is a bypass rib (5), a blanking rib (6), a partition wall (7) and a baffle rib (8), which are arranged individually or in combination, 3. Biocontactor according to claim 1, characterized in that the end baffles (4) with the end biodisks (2) optionally replace the faces (10) of the bath (3). 4. Biocontactor according to claim 1, characterized in that the cleaning elements (9) are optionally located inside the bath (3) or connected to the bath (3) from the outside.