FI123434B - Method and apparatus for purifying waste water - Google Patents

Description

Method and apparatus for purifying waste water

The invention relates to a process for the treatment of waste water, wherein the process is discharged into a basin for purification. The invention also relates to a device for treating waste water, which device comprises a basin containing waste water to be treated.

As a prior art reference is made to EP 1583719, which also discloses a more specific structure of one embodiment of the electrolytic cell used in the present invention. However, this known method and apparatus does not apply to the treatment of wastewater in the basin, and the wastewater to be treated is pumped into electrolysis or reaction cells.

JP 60175594 A discloses an electroflotation method and apparatus for purifying waste water containing oil 15. In the method, water is led through the bottom of the device and a cell containing electrodes to a separation tower. In the electrolysis reaction, aluminum or iron hydroxide is formed, so the process is likely to use aluminum or iron electrodes. Water impurities adhere to the formed hydroxide block, which, by the hydrogen formed in the reaction, rises to the separation tower where it is removed from the top of the tower, the purified water is removed from below the flock. Also, this known method and apparatus does not apply to the treatment of wastewater in the basin, and the feed of the wastewater to be treated to the electrolysis or reaction cell must be made by a co pump to bring the water into a turbulent space between the w 25 fillers.

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cp 00 o The invention is particularly applicable to the treatment of municipal wastewater.

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£ by utilizing the purification basins of existing wastewater plants.

EP-A-469582 A1 discloses a process for treating wastewater, wherein the wastewater is discharged into a basin, where it is led by a hydrostatic pressure of the water in the basin through an electrolytic cell immersed in the basin.

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The cell uses, for example, steel or aluminum electrodes. The contaminants in the waste water rise to the surface of the basin as a flock, together with the hydroxyls that may be formed in the electrolysis reactions through the gas bubbles formed in the reactions. The flock formed is removed from the pool surface.

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The object of the invention is to substantially improve the operation of existing wastewater plants and in particular to improve the degree of purification.

This object is achieved by the invention by means of the process features set forth in the appended claims 1 to 10. The object is also achieved by the device according to the invention by the features set forth in claim 4. Preferred embodiments of the invention are disclosed in the dependent claims.

In the following, an exemplary embodiment of the invention will be illustrated with reference to the accompanying drawing, which is a diagrammatic vertical sectional view of an apparatus according to the invention in which the method is carried out.

The starting point of the invention is to use conventional wastewater treatment tanks 20 with wastewater to be treated. An electrolysis cell 3 and a portion of the water / pleasure separation tower 7 are submerged in or placed below the surface of the pool waste water in the tank 14 and through the electrolysis cell 3 into the separation tower 7 under the hydrostatic pressure of the waste water. The wastewater is fed to the ° 25 electrolytic cell 3 through a filter 4 immersed in a basin, which removes particles typically larger than 01mm. The electrolysis cell 3 comprises one or more cell elements provided with an iron and / or 00 ° aluminum electrode 2. One or several cell elements are selected according to the quality of the wastewater to be treated.

Using multiple consecutive cell elements provides an electric current distribution of 30 g to the nucleus for a longer water flow distance. For demanding cleaning operations, an iron electrode may be used between the aluminum electrodes. One or more tubular iron or aluminum electrodes 2 surround the central electrode 1.

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The outer electrode 2 is connected to the plus terminal of the DC power supply 11 and the inner electrode 1 to the negative terminal. If multiple electrodes are used, it is preferable to use a plurality of separate and individually adjustable power supplies, respectively, so that the current of each electrode can be individually adjusted. The central electrode may be stainless steel, nickel, chromium, platinum or precious metal alloys having a high electro-negativity difference with aluminum and iron.

In the cell with the iron and / or aluminum electrode 2, iron and / or aluminum hydroxide is formed which acts as a molecular sieve. This Mole-10 strainer and the soluble and particulate impurities adhered to it are raised by the hydrogen released by electrolysis to the water and flock separation tower 7 attached to the upper end of the cell 3 The molecular sieve and the impurities adhered thereto accumulate at the top 13 of the separation tower 7. In the illustrated embodiment, a portion of the riser length has a mesh wall 8 which serves not as a strainer but as a flow controller. The separation tower 7 is surrounded by a purified water collection tube 16, which is provided with a branch branch 9 for adjusting the height of the purified water to drain the purified water. Above the pipe branch 9, the block tower 10 is removed from the separation tower 7, for example, on a conveyor.

In an alternative embodiment of the invention, the vertical pipe connected to the purged water outlet pipe branch 9 may be connected directly to the separation tower 7 below the flock forming zone, whereby the mesh wall 8 and the water collecting pipe 16 do not exist.

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° 25 The height adjustment of the outlet 9

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The dry content of the van flock 13 is determined by the height level of the pipe branch 9

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0 is the level of the water surface in the conduit 16 which forms an integral vessel with the separation tower 7. The lower the pipe branch 9 is lowered, the drier the floccula 13 becomes.

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g out of 30 tubes 10 through self-lubrication and no separate scraping required. Of course, the flock can be removed from the free upper end of the separation tower 7 by a scraper or the outlet 10 may be provided with a conveyor.

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The electrolysis cell 3 and the separation tower 7 are preferably housed in a container 15 which is submerged and anchored to the basin 14. The container 15 has a waste water free space which serves as a service space while isolating the waste water from the basin 14 and the separation tower 7. can be arranged for adjustment. The installation height of the device must be selected such that the steep interface between the flock 13 formed and the purified water in the separation tower 7 sits below the wastewater surface of the pool 14, whereby the hydrostatic pressure of the pool water and hydrogen lift

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The container 15 may also be replaced by a small protective tube in which the device is located, whereby the protective tube and its devices may be completely lifted out of the pool for service.

The purification devices 15 formed by the cell 3 and the separation tower 7 shown in the figure can be constructed in parallel, whereby the valve 12 associated with the inlet 6 can be used to select the number of purification devices in operation depending on the amount of waste water entering. The incoming wastewater is led, for example, by an overflow or pump from the previous basin to the next basin, where the method and apparatus according to the invention are used for the final purification of the wastewater. By using the method and apparatus of the invention, the purification of waste water is accelerated and the purification rate is improved.

A particular advantage of the invention is that no pumps are required for passing the waste water through the device according to the invention, but the hydrostatic pressure and the hydrogen produced as the reaction gas provide the flow.

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The invention is applicable to e.g. for the treatment of municipal waste water by: to improve and enhance the structures currently in use. Of course, the invention £ can be applied to the treatment of all kinds of wastewater.

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The device according to the invention can be installed in an old water treatment plant without interrupting its operation. Aeration and precipitation tanks can be decommissioned, reducing the surface area.

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Claims (9)

A process for treating wastewater, wherein the wastewater is discharged to a basin (14) for purification, characterized in that, under the hydrostatic pressure of the wastewater in the basin (14) 5, the wastewater is conducted through an electrolytic cell immersed in the basin. and / or aluminum hydroxide, which acts as a molecular sieve, lifts said molecular sieve and impurities adhered to it to the water-flock separation tower (7) by electrolysis, whereupon they ascend to form a flock (13) at the upper end of the separation tower; below the flock (13) and above the water level of the basin (14). Method according to Claim 1, characterized in that the waste water 15 is fed to the electrolytic cell (3) via a filter (4) embedded in the basin. Method according to Claim 1 or 2, characterized in that the height of the level of the purified water outlet is adjusted to control the moisture content of the flock formed. Device for treating waste water, comprising a pool (14) having waste water to be treated, characterized in that the pool (14) is submerged in co or an electrolytic cell (2) and a part are disposed below the surface of the pool waste water. from the water and flock separation tower (7), wherein the C 1 J 9 wastewater is arranged to pass through the electrolysis cell to the separation tower under hydrostatic pressure of the waste water, the separation tower (7) joining the upper end of the electrolysis cell (3) and the separation tower (7) a drainage path (8,16), which joins a separation tower (7) below the sink surface n CO g 30 of the basin (14) and a purified water outlet pipe (9) above the basin sewage surface o °, and 10) for removing the formed flock (13) from the separation tower (7). Device according to Claim 4, characterized in that the height of the purified water outlet (9) is adjustable. Device according to Claim 4 or 5, characterized in that the electrolysis cell (3) and the separation tower (7) are placed in a vessel (15) which is submerged and anchored to the basin (14) and which contains a waste water free space. Device according to claim 6, characterized in that the positioning height of the device in the vessel (15) or the positioning height of the vessel (15) can be increased and lowered. Device according to one of Claims 4 to 7, characterized in that the electrolysis cell (3) comprises one or more cellular elements with an iron and / or aluminum electrode (2). 15 Device according to one of Claims 4 to 8, characterized in that part of the length of the separation tower (7) has a mesh wall (8), which is surrounded by a purified water collection pipe (16). CO δ CM C \ l o CO o X cc CL 1 ^ 1 ^ CO m O) o o CM