RU2209783C2 - Apparatus for producing potable water - Google Patents

Abstract

FIELD: water treatment, in particular, reactant-free water treatment. SUBSTANCE: apparatus has preliminary purification unit, ozonation columns with ozone generators, coagulation unit, coal filter, fine purification unit and power unit connected to ozone generator, with said parts of apparatus being arranged in succession. Apparatus allows water to be supplied to consumers arranged in regions for temporary staying or to consumers with low water demands, in particular, objects of small-scale city designing and building, it may be also used in extreme conditions, in particular, in case of abrupt cutting-off of consumer from water supply main. EFFECT: reduced cost of water treatment processes by combined effect of microorganisms used as additional cleaning agent and active action of ozone. 9 cl, 1 dwg

Description

 The invention relates to the field of water purification, and in particular to the field of non-reagent water treatment, and can be used when supplying drinking water to consumers located in places of temporary residence or not requiring significant water consumption, in particular, objects of small town planning.

Known, in particular, a block installation for water purification (RU, patent 2096342, C 02 F 1/78, 1997), containing sequentially installed pre-treatment unit, an ozonation column with an ozone generator, a coagulation unit, a floating filter, a fine filter as well as a power unit, to which an ozone generator is connected, and it further comprises an accumulation tank installed between the filter with a floating charge and the fine cleaning unit. The preliminary cleaning unit is configured to at least remove mechanical particles larger than 20 microns in size, the height of the water column in the ozonation column is at least 4 meters. The storage tank is configured to return the air-ozone mixture to any of the previous purification units, moreover, the specified return is carried out both due to the excess pressure created by the cushion, and due to the pump installed on the return line. The fine block is made with the possibility of separating mechanical particles over 5 microns. The installation may further comprise a flocculation chamber located between the coagulation unit and the filter with a floating charge, and the flocculation chamber is designed so that the residence time of water in it is at least 4 minutes. An electrocoagulation unit can be used in the installation, moreover, the area of the electrocoagulator electrodes is 1 m ² for the flow rate of purified water from 0.5 to 1.5 m ³ / h, or a coagulation unit using liquid coagulants. The installation may also further comprise a desalination unit installed between the pre-treatment unit and the ozonation column. Preferably, the desalination unit is made in the form of an electrolyzer and is connected to a power unit. The installation may additionally contain, before and / or after the floating-loading filter, similar ozonation columns, the ozone generators of which are connected to the power unit. Advantageously, the storage tank is configured to tangentially introduce water. In this case, usually, the storage tank is designed so that the residence time of water in the storage tank is at least 20 minutes. Preferably, in addition to the output of the fine block, a UV processing unit is connected to the power block. Typically, the power of the UV processing unit is up to 20 W per 1 m ³ / h. A disadvantage of the known installation should be recognized as its insufficient efficiency, due to the lack of controlled generation of ozone, which leads to the destruction of microorganisms in the filter with a floating load and the fine filter unit with residual amounts of ozone.

 Also known is a block installation for water purification (RU, patent 2096342, C 02 F 1/78, 1997), containing a pre-treatment unit (module), an ozonation unit (module) made in the form of the first and second ozonation columns, a unit (module) electrocoagulation, connected between the columns of ozonation, a block (module) for finishing, containing a fine filtration unit and a UV reactor, and a power block (module), including pumps. When using the installation, the source water is pre-treated using a pre-treatment unit. The pre-treated water is ozonated in two stages, between which the water is treated by electrocoagulation, after the second ozonation stage, salts are removed from the water, followed by final cleaning and UV disinfection. Although the result is water that is suitable for drinking, the process cannot be considered optimal, since water purification by microorganisms is also almost completely excluded. The use of two stages of ozonation without taking into account the composition and amount of pollution leads to an increase in the ozone content in the cleaned medium after the ozonation columns and, accordingly, to the death of microorganisms in the equipment, including a fine filter. Although the description text and the dependent claims indicate the boundaries of the used concentrations of ozone in both ozonation columns, as well as the destruction operation, which did not react ozone after the second ozonation stage, it was found during operation that, with a small amount of contaminants, and the low ozone consumption caused by it, microorganisms in the equipment blocks die almost completely and do not participate in water purification. In addition, there is a significant effect of ozone on the equipment, which reduces the operating time of the equipment and, therefore, the cost of the treated water.

 The technical problem solved by the present invention is to develop a reagent-free water treatment plant, which allows to improve the quality of the resulting water.

 The technical result obtained as a result of the implementation of the invention is to provide the possibility of purification of significantly contaminated water prior to qualification "drinking" due to the use of colonies of microorganisms.

 To achieve the specified technical result, it is proposed to use a unit containing sequentially installed pre-treatment unit, a primary ozonation column with a first ozone generator, a coagulation unit, a floating filter, a secondary ozonation column with a second ozone generator, a fine-cleaning unit, a storage tank, and a power tank the unit to which the ozone generators and the pumps used are connected, and the installation additionally contains a carbon filter installed after the drive a tank, while the storage tank installed between the filter with a floating charge and the fine cleaning unit, is connected to a source of air supply to the lower part of the tank, and the upper part of the tank is connected to the atmosphere with the possibility of removing the air entering the tank, while both ozonation columns are filled with a nozzle inert with respect to the action of water and ozone. Preferably, the degree of filling of said column packing is 75% by volume relative to the volume of the columns. As a nozzle, ceramics, glass, zeolites, expanded clay, etc. can be used. Before the pre-treatment unit, a source water collection tank can be installed. The fine block is made with the possibility of separating mechanically particles over 5 microns. The installation may further comprise a flocculation chamber located between the coagulation unit and the floating filter. An electrocoagulation unit or a coagulation unit using liquid coagulants can be used in the installation. The installation may also further comprise a desalination unit installed between the pre-treatment unit and the ozonation column. Preferably, the desalination unit is made in the form of an electrolyzer and is connected to a power unit. The installation may further comprise a UV processing unit installed after the carbon filter and connected to the power unit. Advantageously, the storage tank is configured to tangentially introduce water. Advantageously, the pre-treatment unit comprises a hydrocyclone and / or a coarse filter and / or oil separator, and the fine-cleaning unit is made in the form of a wound cartridge filter or in the form of a hollow fiber module. An additional disinfection unit, preferably made in the form of a chlorination or fluorination unit, can be installed at the outlet of the installation.

Installation works as follows. In the process of purification, water enters the pre-treatment stage, at which coarse impurities and suspended particles are separated. Then, during the first ozonation, the destruction of microalgae, partial oxidation of organic contaminants and oxidation of metal ions of variable valence to higher oxidation states occurs. Ozonated water enters the coagulation stage, where coagulation of organic impurities, as well as hydroxides of ions that are poorly soluble in water, occurs. Coagulated organic and inorganic impurities are separated on a filter with a floating charge, and an additional purification of water is carried out by a consortium of microorganisms. The water purified in this way enters the second ozonation column, where the destruction of microorganisms washed with water from the floating load, the oxidation of organic pollution and inorganic ions. After the second ozonation column, water enters the intermediate tank, in which partial separation of unreacted ozone from the water takes place. From the intermediate tank, water enters the fine filter, which removes all impurities that have gone into the insoluble state at the previous stages, and also additionally purifies the water from suspended particles larger than 5 microns in size. From the fine filter, water enters the storage tank. Coming into the lower part of the storage tank, compressed air, preferably with a flow rate of 1.5 m ³ / h, rising up through the water column, captures previously unreacted ozone and carries it through the hole located in the upper part of the storage tank. This allows you to exclude the ozone destructor from the design of the storage tank, which reduces the cost of installation, as well as reduce the concentration of ozone generated in the column. The specified supply can be carried out by means of a compressor or a cylinder of compressed air. The water purified from excess ozone enters the charcoal filter, where water is treated with activated carbon and colonies of microorganisms located on the charcoal filter. Water-borne microorganisms deactivate in the UV processing unit.

 At the pre-treatment stage, it is possible to separate organic hydrophobic contaminants such as oils. With significant salinity of the source water, it is preferable to use a desalination unit after the pre-treatment unit. When using the camera flocculation after the coagulation unit in the specified chamber is almost complete coagulation of metal hydroxides and organic compounds. The intake of water for treatment, as well as the movement of water through the treatment system is preferably carried out by means of pumps.

 The drawing shows a diagram of a preferred embodiment of the installation.

 The installation contains a source water tank 1, a preliminary treatment unit 2, a primary ozonation column 3, a coagulation unit 4, a floating filter 5, a secondary ozonation column 6, a fine purification unit 7, a storage tank 8, an air supply means 9, a carbon filter 10, UV cleaning unit 11.

 As the electrocoagulation module and the desalination module, it is preferable to use electrolyzers, mainly with inert electrodes. As a power module, a diesel generator set or a power line can be used. It is preferable to use electrolyzers and a UV reactor configured to change operating modes.

 Installation in a preferred embodiment works as follows.

The purified water from the source (open reservoir, artesian well, water supply line) is supplied to the tank 1 of the source water. From it, a pump of any type is pumped into the pre-treatment unit 2, on which coarse particulate matter and suspended particles are separated (up to 15-16 microns). Then the water enters the column 3 of the first ozonation, filled with 75% ceramic rings. Column 3 receives ozone with a flow rate of 5 mg / dm ^{3 of} purified water. In this case, the destruction of microalgae, the partial oxidation of organic pollutants and the oxidation of metal ions of variable valency (iron, HCO ₃ ^- and so on) to the highest degrees of oxidation. Ozonated water enters the block 4 of coagulation, where coagulation of organic impurities, as well as hydroxides of ions, poorly soluble in water. Coagulated organic and inorganic impurities are separated on a floating-load filter 5, and an additional purification of water is carried out by a consortium of microorganisms. The water purified in this way enters the second ozonation column 6, where microorganisms washed with water from the floating charge are destroyed, and the organic pollutants and inorganic ions are oxidized. After the second ozonation column 6, water enters an intermediate tank (not shown), in which a partial separation of unreacted ozone from the water occurs. From the intermediate tank, water enters the fine filter 7, which removes all impurities that went into the insoluble state in the previous stages, and also additionally purifies the water from suspended particles larger than 5 microns. From the fine filter 7, water enters the storage tank 8. The compressed air entering the lower part of the storage tank 8 with a flow rate of 1.5 m ³ / h, rising up through the water column, captures the previously unreacted ozone and carries it through the hole located in the upper part of the storage tank 8. This allows you to exclude the ozone destructor from the installation design, which reduces its cost, as well as reduce the concentration of ozone generated in the column. The specified supply can be carried out by means of a compressor 9 (or a cylinder of compressed air). The water purified from excess ozone enters the charcoal filter 10, where water is treated with activated charcoal and colonies of microorganisms located on the charcoal filter 10. Microorganisms carried away by water deactivate in the UV processing unit 11. The purified water enters the consumer or in the collection tank (not shown) )

 Using the installation allows you to produce drinking water without high capital costs and low cost due to the use of microorganism colonies as an additional cleaning agent with the simultaneous active exposure to ozone.

Claims (9)

 1. Installation of drinking water, containing sequentially installed pre-treatment unit, a primary ozonation column with a first ozone generator, a coagulation unit, a floating filter, a secondary ozonation column with a second ozone generator, a fine-purification unit, a storage tank, and a power unit, to which ozone generators and used pumps are connected, characterized in that it further comprises a carbon filter installed after the storage tank, the storage tank being installed renewed between the filter with a floating charge and the fine-purification unit, it is connected to a source of air supply to the lower part of the indicated tank, and the upper part of the tank is connected to the atmosphere with the possibility of removing the air entering the tank, while both ozonation columns are filled with water inertness and ozone nozzle.  2. Installation according to claim 1, characterized in that the degree of filling of said column nozzle is 75 vol. % relative to the volume of columns.  3. The installation according to p. 1, characterized in that the nozzle used ceramics, and / or glass, and / or zeolites, and / or expanded clay.  4. The installation according to claim 1, characterized in that a source water collection tank is installed in front of the pre-treatment unit.  5. Installation according to claim 1, characterized in that it further comprises a flocculation chamber located between the coagulation unit and the floating filter.  6. Installation according to claim 1, characterized in that an electrocoagulation unit or a coagulation unit using liquid coagulants is used.  7. Installation according to claim 1, characterized in that it further comprises a desalination unit installed between the pre-treatment unit and the ozonation column.  8. Installation according to claim 7, characterized in that the desalination unit is made in the form of an electrolyzer and is connected to a power unit.  9. Installation according to claim 1, characterized in that it further comprises a UV processing unit installed after the carbon filter and connected to the power unit.