FI64931B - ANALYZING FOER AVLAEGSNANDE AV FOERORENINGAR FRAON VATTEN - Google Patents

Description

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j & Tek (11) UTLÄGGNINGSSKRIFT 64 ^ 01 C (45) l: .2 1924 's— (51) Kv.ik.Va. 3 c 02 P 1/00, B 01 D 21/00 FINLAND —FINLAND (Μ) NwttMiMM-ΝιηηΜβΙαιΙηι 3766/73 (22) Hik «mi * pltvt - AmBknlnpdkg 10.12.73 (23) AlkapUv · —GIW * H« t »d» | 10.12.73 (41) Become JulklMktl - Blhrtt offuntllf .06.75

Patent * and National Board of Registration (44) NUittvikripanon | · kwiLfulluUsm date. -

Patent- och regiiterStyrelsen 'AmbIcm uthjd od * utLskriftun pubNnrad 31.10.83 (32) (33) (31) fyy * · ** / «tootikuui — B« gtrd prlorltut (71) Khozyaistva Imeni KD Pamfilova, Volokolamskoe shosse 87, Moscow, USSR (SU) (72) Daniil Maximovich Mints, Moscow, Anna Mikhailovna Perlina, Moscow,

Vladimir Matveevich Korabelnikov, Moscow, July Israelilich Weisser,

Moscow, USSR (SU) (7 * 0 0y Kolster Ab (5M Apparatus for removing contaminants from water - Anordning för avlägsnande av föroreningar frän vatten

The present invention is primarily directed to apparatus for purifying liquid from entrained and colloidal particles, and more particularly to apparatus for purifying water of contaminants, comprising means for supplying raw water and dispensing chemicals, and a tilted settling tank, finishing filter and wash water tank. The equipment is mainly suitable for producing water for urban settlements and small towns. In addition, this equipment can also be used to treat a variety of urban and industrial wastewater and other dirty liquids.

At present, large-volume, bulky and complex sets of equipment are commonly used for the above-mentioned purposes, which are generally used in large water utilities. This necessitates the use of a large number of closing and adjusting parts, the difficulty of carrying out the adjustment for this operation involving various technical parts, and the high consumption of 64931 of purified water required for washing these parts.

One piece of equipment, manufactured by United Filters and Engineering Limited (England), is prefabricated and includes a vertical precipitation section with a filter, whereby the water used for cleaning purposes and entering the water tower is carried out at a single pump stage. The filter is washed with the water that is pumped back from the water basin, while the residue that collects in the precipitator is removed by periodic cleaning, which is carried out through a separate outlet branch pipe.

One disadvantage of this conventional apparatus is that it is space consuming, consumes a considerable amount of metal in its manufacture, and a fairly large amount of purified water needs to be used to wash the precipitator and filter and is inefficient to remove residues from this precipitator. feeding as well as the low content of solids in the dewatering, which also hampers its use. These disadvantages reduce the possibilities of industrial manufacture of this equipment and make it more difficult to transport it to the place of use, i.e. they limit the range of use of conventional equipment.

Also known are settling tanks for separating suspended material from liquids, which consist of a tank with individual cells or shelves extending longitudinally or transversely therefrom. This is described, for example, in DE patents 407,374 and 969,293. The settling basins of these devices lack a special precipitation chamber at the inlet of the device, but they take care of distributing the flow of the starting liquid and the waste formed in the cells.

The object of the present invention is to eliminate the above-mentioned disadvantages.

This is achieved by the apparatus according to the invention, characterized in that the settling basin comprises a precipitation chamber formed as a conical diffuser with a cone angle in the range of 30 to 60 ° and transformed at its bottom into a cylindrical chamber with bundles of tubes arranged internally in the longitudinal direction. installed at 50 ... 70 ° to the horizontal level of the ground, so that the raw water enters the settling tank at its bottom and then passes through the precipitation chamber and then flows along the above pipes to the top of the settling tank, after which the water passes to the finishing filter and then to the washing water. container.

Preferably, the ratio between the volumes of the precipitation chamber and the tube-containing chamber is in the range 1 / 1.5 ... 1 / 2.5.

It is also preferred that the pressurized pipeline for supplying raw water is provided with a branch pipe mounted thereon before the settling basin and provided with a valve for removing the precipitate from the settling basin as well as the filter.

In contrast to prior art settling tanks, the starting liquid and suspended waste are mixed in the settling tank chamber in the present apparatus. As the starting liquid passes through the bed of suspended waste, the cleaning effect is considerably increased.

Another essential distinguishing feature of the settling basin of the present apparatus is that the settling basin is designed so that the effluent flows over its entire cross-sectional area, both in the pipes and between the pipes, and that there are no cell-dividing partitions between the clearing zone and the waste. These partitions are essential in prior art structures. Therefore, the liquid is cleared in the settling basin of the equipment in its entire area, while in the prior art structures the clearing area is reduced by 30-40% with a corresponding decrease in power.

The following detailed description of an apparatus for purifying water of contaminants according to the present invention will be made with reference to the accompanying drawings, which show a schematic diagram of the apparatus.

This apparatus for purifying water of contaminants includes a water supply system and in particular a pump 1 provided with a suction pipe branch 2 and a pressurized pipe 3 along which the water to be initially fed (i.e. water to be purified) is fed to the settling section 4.

At the bottom of this settling section there is a precipitation chamber 5 made as a conical diffuser, in which the cone angle at the inlet varies between 30 and 60 ° as this diffuser changes into a cylindrical chamber 6 at its base, which fits bundles of tubes 7 made of corrosion-resistant materials. These tubes are arranged parallel to the axis of the chamber 6 and are fixed at their ends by means of nets 8, the meshes of which are smaller than the outer diameter of the tubes 7.

The settling section 4 communicates via a pipeline 9 with a finishing filter 10 made of a vertical cylinder and partially filled with a granular filter medium. The outlet part of this filter 10 communicates via a pipe 11 to the washing vessel 12 in a pressurized water vessel 13.

Connected to this pressurized water vessel 13 is a branch pipe 14 which is used to supply purified water to customers.

To make this equipment easier to wash, the pressurized pipeline 3 is provided with an outlet branch pipe 15 which is screwed onto it and which is suitable for removing waste from the precipitator 4 and the filter 10.

This apparatus is provided with vessels 17 in which chemical reagents are prepared1 and dispensed in batches and from which they are then fed along pipes 18 and 19 to a pressurized pipeline 3 before the precipitation section.

In order to facilitate the maintenance of the equipment and to protect the pump 1 from hydraulic shocks when the equipment is washed, a pressurized pipeline 3 is provided with a non-return valve 20.

The hardware works as follows.

From a water source or tank with dirty water, the water is pumped out by a pump 1 through a suction manifold 2 and introduced along a pressurized line 3 to the precipitator 4. The coagulant and chlorinating agent are dispensed into the dirty water in batches from vessels 17 where these solutions are prepared before along pipelines 18 and 19. Under the pressure provided by the pump 1, the water initially fed enters the precipitator 4 and further into the precipitation chamber 5, where the precipitation forms a solid phase and separates as a result of the reaction between the coagulant and the impurities in this water. Due to the fact that the cone angle of the chamber 5 is 30-60 °, the flow rate of this water slowly decreases, which prevents the size or fracture of the solid phase particles to be formed and their hydraulic dimensions from decreasing.

The precipitating solid phase thus formed and water flow from the precipitation chamber 5 to the cylindrical chamber 6, where under the influence of gravity said solid phase is located on the surfaces of the tubes 7 arranged in the cylindrical chamber 6. The structural residue of the solid phase which consequently forms 7 and in the spaces between them in the chamber 6 of the precipitator 4, slides down the oblique surface of these tubes into the conical part of the precipitator 4 at the bottom. However, due to the difference in water flow rates along the axis of this diffuser, which flow is greatest at the inlet portion, this residual portion of the solid phase does not deposit and remains suspended. As a result, the adsorbent and adhesive properties of the precipitator are increased and new precipitation cores are formed so as to provide efficient orthocoagulation and re-coagulation, and the separation process of the precipitated solid phase is greatly enhanced. All this ensures good conditions in the already conical part 5 in the precipitator 4 for further efficient water purification.

Tilt angle6 = 50 - 70 ° between the shaft of the settling basin 4 and the pipes 7 therein provides the best possible operating conditions for the settling basin 4. As the tilt angle increases, the height and deposition time increase (approximately inversely proportional to cos oO), i.e. the efficiency decreases, becomes smaller, the sliding of the residues in the separated solid phase is prevented and disturbed and the residue accumulates in the pipes 7 and in the spaces between the pipes in the cylindrical part 6 of the settling basin 4, making this frequent washing of the settling basin 4 necessary.

The ratio between the volumes of the conical part 5 and the cylindrical part 6 in the precipitator of 1 / 1.5 to 1 / 2.5 makes it possible to obtain an approximately uniform settling time near the precipitator and the filter, which is essential because these parts are washed together. Moreover, in case the ratio between the volumes of these conical and cylindrical parts in the settling basin 4 is higher than indicated above, the apparatus requires an increased number of washing operations for normal operation, and as a result the consumption of purified water increases, while if this ratio is smaller, the hardware becomes more space consuming.

Fairly well-purified water is fed from the settling tank 4 along line 9 to the upper part of the finishing filter 10, where the remaining impurities are removed. The residual pressure from the pump 1 then forces the water to flow through the pipeline 11 and after the vessel 12 has been washed into the water pressure vessel 13, from where it is then fed along the pipeline 14 to consumers.

During all the above-described operations, the valve 16 located in front of the settling basin is closed. In order to remove the contaminants that have accumulated in the settling tank 4 and the filter 10, the valve 16 must be opened. In the latter case, the purified water coming from the washing vessel 12, which in turn passes through the pipeline 11, transports impurities from the granular filter cartridge 10 currently suspended in the pseudocondensed state and then through the pipeline 9 to the settling tank 4, from where they are then collected together. out of the apparatus via a branch pipe 15. The accepted cone angle, which is in the range of 30-60 °, allows complete removal of impurities during this washing operation, thus preventing the accumulation of all impurities which could then later start to rot.

A non-return valve 20 mounted on the branch pipe 3 allows the equipment to be washed without interrupting the operation of the pump 1. When it is desired to interrupt the washing, the valve 16 must be closed, after which the equipment is used again to remove contaminants from the water.

The settling basin according to the present invention makes it possible to provide a compact structure with a high specific output.

When the branch pipe 15 adapted to remove the washing water is provided with a valve 16 mounted on the pressurized branch pipe 3 before the settling basin 4, it is possible

II

Claims (3)

7,64931 easily maintains the equipment and reduces the amount of water used to wash the equipment and increase the concentration of the solid phase in the wash liquid. An apparatus for purifying water of contaminants, comprising means for supplying raw water and dispensing chemicals and in addition a tilted settling tank (4), a finishing filter (10) and a wash water tank (12), characterized in that the settling tank (4) comprises a precipitation chamber (5). ), which is formed as a conical diffuser with a conical angle in the range of 30 to 60 ° and which at the bottom transforms into a cylindrical chamber (6) with bundles of tubes (7) arranged internally in the longitudinal direction, this settling basin (4) being mounted at 50 to 70 ° at an angle to the horizontal so that the raw water enters the settling basin at its bottom and then passes through the precipitation chamber (5) and then flows along the above pipes (7) to the top of the settling basin (4), then passes the finishing filter (10) and wash water container (12). Apparatus according to Claim 1, characterized in that the ratio between the volumes of the precipitation chamber (5) and the chamber (6) containing the tubes (7) is in the range from 1 / 1.5 to 1 / 2.5. Apparatus according to claim 1 or 2, characterized in that the pressurized pipeline (3) for supplying raw water is provided with a branch pipe (15) mounted thereon before the settling basin and provided with a valve (16) for removing sediment from the settling basin (4) and a filter. (10).