CS253450B1 - Waste water treatment plant - Google Patents

Abstract

The solution concerns a device for wastewater treatment, its essence lies in the fact that a device for sludge stabilization is placed in the stabilization area, then) there is an activation area with a pumping wheel and an overflow culvert, which opens into the biological treatment area. This area is equipped with at least two partitions and on a horizontal shaft, which is common to the pumping wheel, biological discs in the form of smooth straight and/or wavy plates are placed there. Next comes the settling tank, its lower part is connected to the return pipe with the stabilization area.

Description

The present invention relates to a wastewater treatment plant. At present, great attention is paid to the problem of small sewage treatment plants. j. the facility to dispose of pollution from sources of up to 5 000 population equivalent. Attention is focused on the selection of the cleaners, the evaluation of their cleaning effect, the energy performance and the operational reliability. Most of the built small sewage plants contain basic functionally spaces, namely the aeration space, the space where the biological treatment and the settling tank take place. These cleaners are low-performance, energy-intensive and require relatively high investment and operating costs.

These disadvantages are overcome by a wastewater treatment plant consisting of a stabilization area, an activation area, a biological treatment area and a settling tank according to the invention, which is characterized in that a sludge stabilization device is arranged in the stabilization area with a feed bed. The stabilization space is separated by a partition wall with slots from the activation space provided with a pumping wheel with an overflow trough, which flows through the species partition wall into the biological treatment area. The biological treatment area is provided with at least two partitions with slots and biological discs, which are located on a common shaft together with the transfer wheel. The biological treatment area is further separated by a direct dividing wall of a settling tank with a discharge pipe with which it is connected by a pipe leading from the bottom of the biological treatment area to an overflow trough with an overflow pipe. The lower part of the settling tank is connected to the door frame with a stabilization space or activation space.

The sludge stabilization device may consist of a helical and / or aeration wheel mounted on a common shaft.

In the space of the transfer wheel there is a drainage trough.

The biological discs are formed as smooth straight and / or undulating circular thatch.

The advantages of the device according to the invention are that the entire device is energy-efficient, since the entire drive provides a single low-power drive motor and a built-in space. The fact that there are no pumps in the system eliminates the risk of malfunctions and the entire cleaning unit being taken out of operation. When the inflow of polluted water is stopped, the whole plant works with recycled sludge and the biological system remains. Compared with the built-in small purifiers, the device of the invention of the same size has a substantially higher performance, with triple biological purification taking place, in each stage providing sufficient oxidation required for the aerobic-biological process. Furthermore, the possibility of modular system and quick assembly is an advantage.

An exemplary embodiment of the device according to the invention is shown in the attached figure.

The raw water comes from the settling tank under the removal of coarse impurities through the supply line 1 to the stabilization space 2. The stabilization space 2 is connected by a return line 22 to the settling tank 18. The return sludge 22 returns activated sludge to the stabilization space 2 where the first stage of aerobic purification takes place. The oxygenation is provided by the sludge stabilization device 3, which may be a helix, an aeration wheel, or both. The advantage of this measure is that it can be used for denitrification. The second stage of purification takes place in the activation space 5, where the sludge from the first stage reaches through slits 12 formed in the partition 4. The oxygenation and pumping wheel 6 located in the activation space 5 provides both an aerobic cleaning process and the overall hydraulics of the whole device. . j. possibility to regulate the level difference. The overflow trough 7 passing through the second partition 9 is conveyed purified water to the next stage of aerobic treatment, i. j. into the biological treatment area 10. By adjusting the position of the overflow trough 7 it is possible to regulate the amount of purified water. The coarse mechanical impurities are discharged through the overflow trough 7. The biological cleaning space 10 is divided by baffles 13 into at least three parts from which the biological disks 11 are immersed in substantially purified water, as opposed to the level used up to now in the biological cleaning areas. In the device according to the invention, the level is 50% or more, thereby substantially increasing the active area for biological treatment. The surface of the biological disks 11 by their undulating profile increases the area by an average of 15% or more. The surface is smooth, which allows low energy consumption when cleaning. The biomass is retained only during the exidation period (it does not stick in the large layer to the biological disks 11). The number of divisions of the biological cleaning space 10 is dependent on the anticipated load, upon which the separate composition of the biological disks 11, which may be straight, or undulating, or in combination with one another, depends on it. From the bottom of the biological treatment chamber 10, the purified water is discharged via a line 19 through a direct dividing wall 17 and an overflow trough 20 to the settling tank 18. From the settling tank 18 a short conduit 22 leading to the stabilization space 2 purified water is discharged, safety overflow and the sludge drainage pipe is at the bottom.

The entire waste water treatment plant is driven by a single drive unit, which rotates the shaft 16, on which all the technological elements providing all the functions of the treatment plant are stored. The levels of the levels in the individual parts of the plant are adjusted so that the sludge actively returns to the stabilization space 2 or to the activation space 5 without the need for energy. This is achieved by having the lowest level in the stabilization space 2 and the activation space 5.

Claims (4)

6 253450 overflow and at the bottom there is a pipe for sludge removal. The entire sewage treatment plant is driven by one drive unit, which rotates the rotary heater 16, on which all the technological elements are stored, ensuring all functions of the purifier. The height of the levels in the individual parts of the purifier is set so as to actively return the sludge to the stabilizing space 2, or to the actuating space 5 without energy demand. This is achieved by the lowest level being in the stabilization space 2 and the activation space 5. 1. A wastewater treatment plant comprising a stabilizing space, an activation space, a biological treatment space and a settling tank, characterized in that a device is disposed in the stabilizing space (2) with the inlet pipe (1). 3) for the stabilization of the sludge, the stabilizing space (2) is separated by a separating wall (4) with slots (12) from the activation space (5) provided with an overflow pumping wheel (6) with overflow trough (7) ), which opens through the species partition wall (9) into the biological cleaning space (10) provided with at least two baffles (13) with slots (14, 15) and biological blades (11) in the bio-purification area (10) which, together with the transfer co-forest (6), are disposed on a jointly driven horizontal shaft (16), wherein the biological cleaning space (10) is separated from the landing tank (18) by a treble wall (17) and is discharged a conduit (23) with which it is connected by a conduit (19) leading from the bottom of the biological purification chamber (10) to an overflow conduit (20) with an overflow conduit (23) and with a stabilizing space (2) or an activation space (5). 2. Apparatus according to claim 1, characterized in that the stabilizing device (3) comprises a helix and / or a pre-aeration wheel mounted on the joint shaft (16). 3. Apparatus according to claim 1, characterized in that a waste trough (8) is arranged in the space of the pumping chamber (6). 4. Apparatus according to claim 1, characterized in that the biological discs (11) are formed as smooth, straight and / or corrugated round dowels. 1 sheet of drawings