RU2116977C1 - Plant for water purification with ozone - Google Patents

Abstract

FIELD: water treatment, in particular, water purification with use of processes of sorption and oxidation; may be used in additional purification of water used for drinking and food preparation. SUBSTANCE: plant is essentially a contact reservoir in the form of closed vessel which accommodates additional apparatus and filter containing adsorbent. New connection between design members provides for reduction of content of suspended matter in purified water with simultaneous rendering harmless of unreacted ozone. Filter with sorbent is installed successively with ejector-mixer and contact reservoir. Filter upper part is connected with apparatus middle part and with lower part of contact reservoir whose upper part is connected with the apparatus middle part. EFFECT: higher quality of purified water due to about 6-fold reduction of suspended matter and practically full removal of ozone from treated ozone-air mixture. 1 cl, 1 dga

Description

 The invention relates to the field of water treatment, in particular, to water treatment plants using oxidation and sorption processes, and can be used for additional water treatment used for drinking and cooking in various enterprises, individual farms and small towns.

 A known installation for the purification of drinking water (Keystone Engineering prospectus, PO Box 360, Black Diainoud, Washington, 98010-0491 (206) 886-1396) containing an ozone producing unit in the form of an ozone-air mixture, an injector for supplying this mixture to the treated water contact tank and filter filled with granular adsorbent based on coal. The contact tank is a hollow column with a bubbler of the ozone-air mixture in the lower part.

 Installation works as follows. In the block for producing ozone from atmospheric air, an ozone-air mixture is formed, which, under pressure, enters the injector. Here, under the pressure of the network, tap water is supplied. The two-phase gas-liquid flow of the ozone-air mixture and tap water enters the contact tank through a bubbler, which ensures the crushing of the ozone-air mixture in water to small bubbles. The contact tank also provides the necessary residence time of water sufficient for oxidation of harmful impurities by ozone and disinfection of water. From the contact reservoir, water enters the filter, passing through a layer of adsorbent. At the same time, harmful impurities and suspensions are removed from the water due to adsorption and filtering. After the filter, purified water flows to consumers. The exhaust air with the remainder of the ozone unreacted with water is discharged into the atmosphere from the upper part of the contact tank.

 The known installation provides for the purification of water from suspended solids, which are mainly insoluble oxidation products of impurities of water and microflora (residues of viruses, microorganisms) and which are more toxic than particles of clay and sand.

 However, as follows from the technical nature and design of the installation, the latter does not achieve effective removal of suspended solids. The water flow directed from the contact reservoir to the adsorbent filter contains small air bubbles and unreacted ozone, which makes it difficult to adsorb (adhere) suspended solids to the adsorbent surface and helps to detach already trapped particles from the adsorbent surface. As a result of this, the particles fall into the purified water after the filter.

 In addition, when the spent ozone-air mixture is removed from the contact tank, for example, into the room where the installation is located, toxic gas is removed - ozone from the water, the latter in the amount of 0.5-1% of the supplied to the installation.

The installation is the closest to the invention in terms of the result achieved - the degree of purification from suspended solids. We have tested the effectiveness of the known installation in the purification of tap water of the river. Dnieper containing 1.3 mg / DM ³ suspended solids, with a total microbial contamination of 90 units / cm ³ . Purified water contained 1.1 mg / dm ^{3 of} suspended solids with microbial contamination of 76 u / cm ³ . The degree of purification was only 15.4 and 15.6%, respectively.

 Closest to the invention in technical essence is the installation for water purification with ozone Kulsky L.A. Fundamentals of chemistry and water technology. - Kiev: Naukova Dumka, 1991, p. 269), containing an ejector-mixer and a cylindrical contact reservoir connected in series along the purified water, a part of which is separated by a partition less than the height of the reservoir, and a cylindrical partition used attached to the bottom of the reservoir coaxially with the latter. Inside the partition there are hole (bubble) pipes connected to the ejector. The upper part of the partition is equipped on the outside with a round trough with perforated trays located on the periphery of the contact reservoir. The tank is equipped with a device for the removal of purified water located in its lower part.

 Installation works as follows. The purified water is mixed in an ejector with an ozone-air mixture, followed by bubbling into a part of the tank, separated by a partition. Sparging is carried out through hole pipes. The spent ozone-air mixture is released into the atmosphere, and the purified water, overflowing the separated part of the tank, pours into a round trough and is sprayed through hole trays around the periphery of the contact tank. When spraying, excess ozone is removed from the purified water and collected in the peripheral part of the contact reservoir with subsequent discharge to the atmosphere.

 The unit is intended for disinfecting water by oxidizing organic impurities in water with ozone and does not provide for the removal of suspended solids from water.

 It should be noted that the implementation of the open contact tank negatively affects the efficiency of use of ozone in the oxidation process, which leads to its increased consumption when the required completeness of oxidation of substances is achieved.

 The installation of a device for removing unreacted ozone (a chute with hole trays) in the installation, with the release of ozone and an aerosol of water into the atmosphere, leads to environmental pollution by toxic gas and, as a result of the release of an aerosol of water, creates inconvenience during operation.

 Thus, from the prior art it follows that the problem of removal of suspended solids is unsatisfactorily solved, and known installations in the process of water purification pollute the environment with toxic gas and complicate operation due to the release of a water aerosol.

 The basis of the invention is the task to improve the installation for water purification with ozone by making the contact tank in the form of a closed vessel, introducing an additional apparatus with an adsorbent and a filter with an adsorbent into the installation, as well as introducing new connections between the structural elements of the installation. This would ensure the achievement of a technical result - reduction of suspended solids in purified water with the simultaneous neutralization of unreacted ozone and trapping of an aerosol of water, hence improving water quality, eliminating environmental pollution and simplifying the operation of the installation.

 To solve this problem, an installation for water purification by ozone is proposed, which includes an ejector-mixer and a contact tank connected in series along the purified water, equipped with a partition less than the height of the tank and dividing the tank into two parts with a bubbler located in one of the parts, which, according to the invention further comprises an apparatus equipped in the upper part with a grill with an adsorbent located on the latter, and a filter with an adsorbent, wherein the contact reservoir is made with a lid, and This filter is placed in series with the eductor-mixer and a contact connected to the reservoir and the upper part with middle part of the machine and the lower part of the contact vessel, the upper part of which is connected to the middle part of the device.

 The essence of the invention lies in the fact that the proposed installation simultaneously implements the processes of separation of water from the spent ozone-air mixture and the restoration of unreacted ozone, which provides more complete purification of water from suspensions and eliminates the release of ozone and aerosol into the environment.

This result is achieved by the design features of the installation, providing for the separation of water and spent ozone-air mixture in the following elements of the installation:
in a closed contact tank when overflowing ozone-treated water through a partition;
in the working space of the apparatus under a layer of sorbent upon receipt of an ozone-air mixture with an aerosol of water from a contact reservoir and a filter in the middle of the apparatus;
in the filter above the sorbent layer upon entering the top of the filter of purified water with a residual amount of air bubbles from the contact reservoir.

 The result of separation processes is that purified water freed from air and ozone bubbles enters the sorbent layer in the filter, which contributes to a more complete retention of suspended impurities, as well as the fact that water ozone and aerosol are separated and collected from all elements in one element - apparatus, passing through a layer of sorbent, such as coal, is subjected to recovery, which prevents it from entering the atmosphere. The specified result is not achieved in known installations.

 T. about. , the set of design features of the proposed installation for water purification with ozone is necessary and sufficient to achieve the technical result provided by the invention - to reduce the content of suspended solids in purified water and, therefore, improve the quality of purified water while eliminating the emission of toxic gas - ozone and water aerosol.

 The drawing shows a diagram of the proposed installation.

 The installation contains a block 1 for producing ozone in the form of an ozone-air mixture, an ejector 2 for supplying this mixture to the sample being processed, a contact tank 3 with a baffle 4 in the working space with a height less than the height of the contact tank, dividing its working space into two parts communicating from above. In one part of the working space, limited by the partition 4, there is a bubbler 5 of the ozone-air mixture, and in another part from the bottom there is a pipe 6 for draining the ozonized water. A pipe 7 for discharging unreacted ozone and exhaust air with an aerosol (small drops) of water is located on the cover of the contact tank 3. The apparatus is provided with an apparatus 8 with a pipe 9 in its middle part, a pipe 10 in the lower part, and a granular adsorbent 11 located on the grate 12, and a pipe 13 in the upper part. The installation also contains a filter 14 filled with granular adsorbent 15, for example, coal. The filter 14 has a drainage device 16, a pipe 17 for discharging purified water and a pipe 18 for diverting ozone to the middle of the apparatus 8.

 Installation works as follows.

 In block 1 for producing ozone from atmospheric air, an ozone-air mixture is formed, which, under pressure, enters the ejector 2. Here, tap water is supplied under the pressure of the network. The two-phase gas-liquid flow of the ozone-air mixture and tap water enters the contact tank 3 in part of its working space, limited by the baffle 4 through the bubbler 5, which ensures the distribution of the ozone-air mixture in water in the form of small bubbles. Due to the ingress of water and an ozone-air mixture into the contact tank 3, the ozone-treated water is transferred through the baffle 4 to another part of the working space of the contact tank 3 and then discharged through the nozzle 6. When overflowing with bubbles of the ozone-air mixture through the baffle 4, separation occurs ( separation) of exhaust air and unreacted ozone from water. In the contact tank 3 provides the necessary residence time of water, sufficient for the oxidation of harmful impurities with ozone and disinfection of water. Unreacted ozone, as well as exhaust air with small drops of water, enters the apparatus 8 through the nozzle 9 located in its middle part from the upper part of the contact reservoir 3 through the nozzle 7. In the apparatus 8, condensation of small drops of water occurs. Condensed water from the apparatus 8 through the lower pipe 10 is discharged into the sewer or returned to the ejector 2. The exhaust air with unreacted ozone passes upward in the device 8 through a layer of granular adsorbent 11 that absorbs ozone with its subsequent recovery, and is discharged through the upper pipe 13 into the atmosphere. Ozonated water discharged from the pipe 6 enters the filter 14, passes through a layer of granular adsorbent 15, and then through the drainage device 16 and the pipe 17 is sent to consumers. In the filter 14, due to adsorption and filtering, harmful impurities and suspensions are removed from the water and the water is purified, and the separated unreacted ozone from the filter through the pipe 18 is sent to the apparatus 8.

The effectiveness of water purification by the proposed installation was tested on tap water of the river. Dnieper with outgoing indicators: suspended solids - 1.3 mg / dm ³ , residual microbial contamination - 90 u / cm ³ . The purified water contained 0.2 mg / DM ³ suspended solids with a residual microbial contamination of 4.0 units / cm ³ . The degree of purification was 84.6 and 95.0%, respectively.

 A comparative analysis of the results of water treatment proposed and 1 known installations shows that the inventive installation provides deep water purification from suspended solids at the level of 95.0%. Compared with the known installation, the use of the proposed installation allows to increase the degree of purification from suspended solids from 15.4 to 84.6%, i.e. about 6 times, and from microorganisms - from 15.6 to 95.0%, i.e. 6 times. The known installation does not provide for cleaning from suspended solids.

 It should be noted that the proposed installation is environmentally friendly, as it ensures the complete elimination of ozone and water aerosol emissions during water treatment, which is not achieved by known installations, and also simplifies operation. This will allow the installation to be placed in the catering facilities of hospital schools, kindergartens and other institutions.

Claims (1)

 Installation for water purification by ozone, including an ejector-mixer and a contact tank connected in series along the purified water, equipped with a partition less than the height of the tank and dividing the tank into two parts with a bubbler located in one of the parts, characterized in that the installation further comprises an apparatus equipped in the upper part there is a grate with an adsorbent placed on the last, and a filter with an adsorbent, the contact reservoir is made with a lid, and the filter is installed in series with the ejector - a mixer and a contact tank and is connected by the upper part to the middle part of the apparatus and the lower part of the contact tank, and the upper part of the tank is connected to the middle part of the apparatus.