SE467253B - PURIFICATION DEVICE WITH BIOLOGICAL MEMBRANE AND DOWNLOADED FLOW - Google Patents

Description

467 255 2 10 15 20 25 30 35 the collection chamber 5 to the tank 9. A filter purge pump 11 and a purge fan 12 and a siphon 13 are provided for the tank 9, the collection chamber 5 and the water treatment chamber 3 to clean the filter material 4 from the solids who have stuck to the same.

For treatment, the water is fed to the water treatment chamber 3 at its upper part and subjected to the biological treatment while flowing down through the filter material 4. The water thus treated is led to the collection chamber 3 through the water screen 6. The water collected in the collection chamber 5 is transferred to the tank 9 through the pipe 10 for further use. When the water flows through the filter material 4 in the water treatment chamber 3, it is purified by the microorganisms located on the surface of the filter material 4. The solids (SS) and the biochemical oxygen adhere to the surface of the filter material 4 as a result of the consuming (BS) components present in the water biological treatment, and the solids accumulate on the filter material 4. They block the pores in the filter material and increases the flow resistance of the water. The purification of the filter material 4 by rinsing is performed to remove these solids. A large amount of air is blown into the water treatment chamber 3 by means of the purification fan 2 through the collecting chamber 5 to release the solids from the filter material 4. Then the filter purge pump 11 is run to supply treated water from the tank 9 to the water treatment chamber 3 to raise the solid the substances from the water treatment chamber 3 so that the siphon 13. they can be removed from the reaction vessel 1 by The apparatus described above, however, has a number of shortcomings. In the first place, the device cannot be used to purify wastewater as long as the filter material 4 is purified. The water purification and the purification of the filter material 4 cannot be performed simultaneously. Therefore, the device has low power.

If it is desired to clean the filter material 4 without interrupting the water purification operation, it is necessary to use a plurality of purification units, which makes the whole system 10 15 20 25 30 35 467 255 larger than desirable.

Secondly, no cleaning of the filter material takes place as long as the apparatus is used for water purification. An increasing amount of solid adheres to the filter material 4 and gradually reduces its purification effect by biological treatment after the filter 4 has been purified.

Thirdly, a large amount of air and water is required for purification by rinsing the filter material 4 and for this purpose requires a blowing machine 12, a pump 11 and a large tank 9.

Fourth, the low cleaning effect of the biological treatment makes it necessary to use a large amount of filter material 4, and backwash cleaning of the filter material 4 also requires the collection chamber 5. The need for a large amount of filter material 4 and of the collection chamber 5 makes the reaction vessel 1 larger than desirable.

In order to eliminate the above-mentioned inconveniences, the invention has been given the object of providing a purification device with biological membrane and downward flow which can carry out the biological treatment of the waste water and the purification of the filter material simultaneously without any interruption and therefore has better water purification capacity and only a small reaction vessel. as it does not require a purification fan or pump or a large tank to collect the purified water.

This object is solved according to the invention by a mammoth pump device which comprises a mammoth pump pipe extending vertically through the purification chamber to draw into the pipe at its bottom filter material with solids attached thereto as a result of the biological treatment of wastewater and to lift this filter material with the solid contaminants together, the solid contaminants being separated from the filter material in a separation device mounted at the top of the mammoth pump tube and comprising a hollow rotating body (29A) having a surface which allows the contaminants to pass into the body but prevents the filter material , whereby the filter material is separated from the solid contaminants and returned to the purification chamber. 10 15 20 25 30 467 253 The invention will now be explained in more detail in connection with the accompanying drawings. Fig. 1 shows a longitudinal section of a purification device with biological membrane and downward flow according to a first embodiment of the invention, Fig. 2 a section along the line AA in Fig. 1, Fig. 3 a view for explaining the one shown in Fig. 1. operation of the treatment device, Fig. 4 is a longitudinal section through a treatment device with biological membrane and downward flow in a second embodiment of the invention, Fig. 5 is a partial section showing another way of connecting the water pipe, Fig. 6 shows a vertical Fig. 7 shows a longitudinal section through a modified air supply device, Fig. 8 a partial view in section showing a further modified air supply device, Fig. 9 a section along the line BB in Fig. 8, Fig. 7 shows a longitudinal section through a modified air supply device; A view showing the air supply port of the air supply device according to Fig. 8 and Fig. 11 shows a longitudinal section through a conventional purification device with biological membrane and ne downward flow.

Referring to Fig. 1, there is shown a purification device with biological membrane and downward flow according to a first embodiment of the invention. The purification device 11 comprises a purification chamber 23 filled with filter material 22, an aerator 24 inside the purification chamber 23 for supplying atmospheric oxygen thereto, a water collection chamber 25 for collecting biologically purified water, a water pipe 26 connected to the water collection chamber 25, a mammoth pump 28 and a mammoth pump tube 27 f; 10 15 20 25 30 35 5 extending vertically through the purification chamber to suck into the mammoth pump tube 27 at its bottom 27a filter material 22, on which solid particles have deposited as a result of the wastewater biological purification, and for simultaneous lifting of the filter material 22 and the the solids together, the solids being separated from the filter material 22. A separating device 29 is located in the top 27b of the mammoth pump tube to separate the solids from the filter material 22 and to return the filter material 22 to the purification chamber 23. An emptying line 30 removes the solids from the separator 29.

As filter material 22, for example, anthracite, activated carbon or light filler material having a particle size of approx. 2 to 10 mm. The filter material 22 forms a filter layer 22a in the purification chamber 23. The purification chamber 23 has a conical bottom part 23a in which the filter material 22 is efficiently collected so that all the filter material is continuously drawn into the mammoth tube 27 and surrounds its lower end. The collection chamber 25 is formed by a cup-shaped container with an opening 25a. The water pipe 26 connected to the collecting chamber 25 at its one end extends outwards from the purification chamber 23 through the wall of its bottom part 23a. The collected clean water from the collection chamber 25 is caused to float up to the tank 31 by a difference in the water level between the collection chamber 25 and the tank 31. The aerator 2A is located above the collection chamber 25 so that air oxygen can be evenly distributed to the filter material 22. niches on its surface. The lower end 27a of the mammoth pump tube 27 is located in the bottom portion 23a of the purge chamber 23 and its upper end 27b is located above the purge chamber 23. An air supply device 28a is connected to the mammoth pump tube 27 substantially at right angles to its bottom end 27a to supply air to the mammoth pump tube 27. the arrangement 29 comprises a hollow, trapezoidal rotating body 29a with a sloping wall surface 29c consisting of, for example, a slotted or perforated plate or a wire mesh 6 467me355-B mesh width which does not let through the filter material 10 20 25 30 35 22. It further contains a shield 29b which causes the filter material 22 and the solids to fall onto the conical wall surface 29c of the rotating body 29a.

The shielding member 29b has a hollow cylindrical shape which is easy to inspect for maintenance purposes. The solids separated from the filter material 22 are discharged through the tube 3Û with a small amount of purified water. The amount of solids discharged can be controlled by, for example, adjusting the amount of air supplied via the air supply device 2Ba, varying from the surface of the slotted or perforated plate or net in the separating device 29 or by arranging a valve in the discharge pipe 30.

The operation of the device described above will now be described in the following.

Air is supplied via the aerator 24 to the filter material 22 in the purification chamber 23 and causes the microorganisms to grow on the surface of the particles forming the filter material 22.

Waste or waste water is supplied to the treatment chamber 23 at its upper end through a pipe (not shown) and flows through the filter layer 22a. The SS and BS components present in the wastewater are degraded by oxidation as a result of the aerobic biological treatment by the microorganisms, and the resulting solids adhere to the surfaces of the filter material 22. The solids in the wastewater and the solids formed by this biological purification collect on the surfaces of the filter material 22 or are trapped by its particles. They move downwards through the filter layer 22a and are transported to the separation device 29 through the mammoth pump tube 27. The water purified by the apparatus according to the invention is therefore substantially free of all such substances and eliminates the need for a sedimentation basin which is usually required by methods which is based on catalytic oxidation, uses activated sludge or uses water sprinkles. The waste water is purified as it passes the filter layer 22a and is caused to flow downwards through the purification chamber 23 under the influence of gravity and by a force which causes the mammoth pump 28 to draw the same into the mammary pump 28. the bottom 27a of the mute pipe 27. The purified water flows down and into the bottom part 23a of the purification chamber 23 and is diverted for the most part to the collecting chamber 25 while it is partly drawn into the lower part 27a of the mammoth pump tube 27.

The collection chamber 25 has a reasonably long side wall 25b, and the end 26a of the water pipe 26 is placed at a suitable height in the collection chamber 25 so that no filter material 22 ends up in the water pipe 22. The purified water collected in the collection chamber 25 is transported to the tank 31 through the pipe 26. the water level.

The filter material 22 carries the solids and is drawn into the lower part 27a of the mammoth pump tube 27, after which it is lifted up by the air blown into the mammoth pump tube 27 by the air supply device 28a. the filter material 22, a part of the purified water and the pump air through the mammoth pump tube 27 and the solid particulate material adhering to the filter material 22 are agitated and separated from the filter material 22. The separated solids, the filter material 22 and the water rise upwards through the mammoth pump tube 27 and discharged at its top 27b to the separator 29. The solids, filter material 22 and water (commonly referred to as backwash water) are braked by the shield 29b in the separator 29 and drip onto the conical wall surface 29c of the hollow body 29a. The filter material 22 purified in the mammoth pump tube 27 does not pass through the wall surface 29c formed by a strainer but falls back to the purification container 23. The solids and rinsing water pass through the hollow body 29a and form a purge sludge which in turn is discharged through the discharge pipe 30.

Fig. 3 illustrates the treatment of the re-cleaning sludge discharged from the purification device 21. The sludge is transported to a sludge sedimentation basin 33 in which the sludge is allowed to sink to the bottom. The concentrated sludge is then discharged through the outlet 33a from the basin 33 and separated from the red water in the basin 33. The red water is transported to the waste water tank 34 and recycled therefrom to the treatment device 21 together with the waste water supplied to the tank 34.

The purification device Z1 which is constructed as described above has a number of advantages which will be discussed in more detail below.

In the first place, the device enables simultaneous purification of waste and waste water and purification of the filter material 22 in the mammoth pump tube without any interruption. For this reason, the purification device Z1 has improved efficiency. The continuous purification of wastewater can be achieved by using only a single purification device Z1 which does not have to be particularly large.

Second, the purified filter material 22 is substantially free of all solid contaminants and therefore ensures improved purification effect through biological purification insofar as its purification is performed simultaneously with the wastewater treatment.

The table below shows in an exemplary manner the result of the water purification which can be obtained with the apparatus designed according to the above description and is intended for handling BS load according to the information in the list.

Wastewater Domestic Wastewater from Wastewater Waste food industry from the paper industry BS load 4 - 5 5 - 6 3 - 4 (kg / m / day) Wastewater - 100 - 2000 - 2500 90 - 120 quality (BS; 120 mg / liter ) Removed BS 93 - 96% 87 - 90% 9A - 9% Reduced chemical 85 - 87% 83 - 85% 65 - 7% oxygen consumption Thirdly, the filter material 22 in the mammoth pump tube 27 is cleaned and separated from the solid particles by the separator 29 The cleaned filter material 22 is returned to the cleaning chamber 23. Therefore, no backwash fan or pump, no large water tank, and no associated automatic valve are needed anymore to clean the filter material 22.

Fourth, only a small amount of filter material 22 is required due to its high efficiency for water treatment by biological treatment, and no water collection chamber of the same type as in the conventional devices is required. The purification container in the apparatus according to the invention is therefore small.

Fifth, the solid particles drip into the hollow container 29a together with backwash water and do not end up in the purification chamber 23 when separated from the filter material 22 by sieving along the sloping wall surface 29c of the separating device 29. The separating device 29 prevents such solid substance drops into the purified water in the purification chamber 23.

Sixth, the mammoth pump tube 27 at its upper end 27b leaving the filter material returns to the purification container 27, the particles being rubbed against each other along the cone-shaped wall 29c of the separating device 29. This also favors the separation of the solid particles from the filter material 22 in the separation device 29.

Seventh, it is possible to provide the separator 29 with a vibrator to accelerate the separation of the solids from the filter material 22 as they are physically separated from each other by the conical wall surface 29c forming a screen.

Eighth, the filter material 22 remains on the screen formed by the cone-shaped wall surface 29c of the separating device 29 and effectively returns to the purification chamber 23 without falling into the hollow body 29a together with solid particles.

Ninth, the apparatus of the invention does not require a sedimentation basin of the same type commonly required for processes based on catalytic oxidation, using activated sludge or using sprinkler water.

Fig. 6 shows a purification device with biological membrane and downward flow according to a second embodiment of the present invention. The cleaning device 21A according to 467 253 10 15 10 Fig. 4 comprises a cleaning chamber 23A which is filled with filter material 22A. An aeration device 24A is provided in the purge chamber 2šA to supply atmospheric oxygen thereto. There are a plurality of water collection chambers 25A for collecting biologically purified water, one water line 26A being connected to each water collection chamber 25A. Five mammoth pump devices 28A, each with a mammoth pump tube 27A, extend vertically through the purification chamber 23A to suck into the mammoth pump tube 27A at its bottom 27b the filter material 22A with solids attached thereto as a result of the biological treatment of the wastewater. The filter material 22A and the solids are urged together with the solids being separated from the filter material 22A and a plurality of separating devices 29A being provided at the top 27c of each of the mammoth pump tubes 27A to separate the filter material 22A from the solids. The filter material is returned to the purification chamber 23A and a discharge pipe 30A for discharging the solids from all separating devices 29A.

The device according to the second embodiment according to the invention has the advantage of enabling cleaning of large quantities of waste water at the same time, whereby the advantages of the device according to the first embodiment are obtained.

Although the water pipe 26 in the apparatus according to the first embodiment has its water inlet 26a in the water collection chamber 25, it is alternatively possible to connect the water pipe 26 to the side wall 25a of the water collection chamber 25, as shown in Fig. 5. This arrangement is applied in the apparatus according to the second embodiment. Although the water collection chamber 25 or 25A and the mammoth pump tube 27 or 27A have the same construction as according to the first or second embodiment of the invention, it is alternatively possible to design a water collection chamber 258 with a substantially bull-shaped cavity and that in the middle 35 of the bull-shaped cavity provides a mammoth pump tube 27 which is separate from the water collection chamber 258, as shown in Fig. 6. The water collection chamber 255 has a side wall formed by a part of the purification chamber 23 side wall, and the water pipe 26 is connected to this part of the side wall.

When the wastewater to be treated contains a larger amount of liquid material which forms foam, it is convenient to place a foam spray nozzle 32 in the top of the purification container 23 to remove the foam at regular intervals. The removed foam can be mixed with the backwash sludge and transferred to the backwash sludge settling pool 33. Although the mammoth pump tube 27 has been shown and described as extending into the purge container 23, it is alternatively possible to use an L-shaped mammoth pump tube having an inlet end inside the purge chamber 23 while it extends from the purge chamber 23. In such a case, the separation device may also 29 is located outside the purification chamber 23. Although the air supply device 28a in the apparatus according to the first or second embodiment is connected to the mammoth pump tube 27 or 27A at right angles thereto at its lower end 27A, it is alternatively possible to use a vertically extending air supply device 35 forming an integral part of the mammoth pump tube 27 or 27A as shown in Fig. 7. According to this alternative arrangement, air is supplied to the mammoth pump tube 27 or 27A at its upper end 35A.

Another integrated, combined air supply device and mammoth pump are shown in exemplary form in Figs. 8 and 9.

It includes an air supply device 35A which coaxially surrounds a mammoth pump tube 27, 27A. The air supply device 35A may be provided with an air supply port 37 at a point 36 located between its upper and lower ends, as shown in 10.

From the above description it is clear that pre- (1) enables the biological purification of wastewater and purification fig. The present invention brings a number of advantages, e.g. of the filter material at the same time without any interruption. (2) It enables better efficiency in water purification through biological treatment. (3) It does not require a fan or pump For cleaning the filter material by re-rinsing or any larger tank to receive purified water. (4) It further enables a reduction in the size of the treatment chamber. (5) Solid contaminants are prevented from mixing in the purified water. (6) It comprises a separation device which enables further separation of solid impurities from the filter material. (7) It allows the use of a separator equipped with a vibrator. (8) Purified filter material can be recycled to the purification chamber without appreciable losses and (9) eliminates the need for a deposition basin of the type commonly required in catalytic oxidation processes, for example.

Claims (12)

10 15 20 25 30 467 255 13 Patent claims A biological membrane and downward flow purification device, comprising a purification chamber (23) filled with filter material (22), an aeration device (24) arranged in the purification chamber (23) for supplying atmospheric oxygen thereto, an biologically purified water collection chamber (25), a water line connected to the water collection chamber (25) for discharging the purified water (26), characterized by a mammoth pump device (28) comprising a vertically extending through the purification chamber mammoth pump tube (27) for drawing into the tube (27) at its bottom (27A) filter material (22) with solids attached thereto as a result of the biological treatment of waste water and for lifting this filter material with the solid contaminants together, the solid contaminants being separated from the filter material in a separation device (29) mounted in the top (27B) of the mammoth pump tube (27) and comprising a hollow tube body (29A) with a surface which allows the contaminants to pass into the body but prevents the filter material, the filter material (22) being separated from the solid contaminants and returned to the purification chamber (23). Purification device according to claim 1, characterized in that the mammoth pump tube (27) is arranged inside the purification chamber (23). Purification device according to claim 2, characterized in that the mammoth pump tube (27) and the water collection chamber (25) form a structural unit. 4. A purification device according to claim 2, characterized in that the mammoth pump tube (27) and the water collection chamber (25) are separated from each other. Purification device according to claim 1, characterized in that the mammoth pump tube (27) is straight and that its inlet end (27A) is located in the purification chamber (23). 6. A purification device according to claim 1, characterized in that the mammoth pump (27) is L-shaped and has its inlet end (27A) in the purification chamber. lÛ 15 20 25 467 253 14 A cleaning device according to claim 1, wherein it further comprises an air supply device (35) which is separate from the mammoth pump tube (27) and connected to the mammoth pump tube (27) adjacent to its bottom. A cleaning device according to claim 1, characterized in that it also comprises an air / supply device (35) as an integral part of the mammoth pump tube (27). 9. A purification device according to claim 7, characterized in that the air supply device (35) coaxially surrounds the mammoth pump tube (27). 10. l0. Purification device according to claim 1, characterized in that the water collection chamber (25) comprises a container with a cup-shaped or polygonal cross-section and a downward-facing opening and that the inlet end of the water pipe (26) is located in the latter container. 11. ll. A cleaning device according to claim 1, characterized in that a separating device (29) is provided with a conical wall (29AQ which is provided with mesh openings of such a size that they do not allow the filter material (22) to pass through these. A cleaning device according to claim 1, characterized in that a hollow part has a conical wall (29A) as such, that the separating device (29) is provided with punched openings or slits of such size that they do not allow the filter material ( 22) to pass through these. fl