RU2193535C2 - Unit for thorough cleaning of water - Google Patents

Abstract

FIELD: domestic and industrial water supply and water discharge systems; preparation of potable water suitable for reuse. SUBSTANCE: proposed unit includes the following components arranged in succession: mixer, floatation device, multi-layer filter with layers of sand, anthracite and polymer material, contact reservoir, ion exchanger with regenerator and automatic multi-position valve, as well as reagent introducing branch pipe made in form of ejector with narrowing and widening tips provided with curvilinear helical grooves. Mixer has lower conical part and upper cylindrical part; inner surface of conical part is provided with curvilinear helical grooves. Brought to lower part of floatation device from compressor is air line which is connected to flat flexible ring by means of elastic tubes; flexible ring is provided with widening tips with curvilinear helical grooves. Pulsators made from bimetallic bent plates are arranged in cavity of flat flexible ring. Mounted in upper part of floatation device are deaerators-chutes provided with double bottom and discharge pipe for removal of solid particles with air bubbles. Waste water discharge pipe line connected to floatation device is laid at depth of no less than 30 cm above upper level of water. EFFECT: improved quality of cleaning water due to forming dispersed water and air emulsion. 5 dwg

Description

 The invention relates to water supply and sanitation of populated areas and industrial facilities and can be used to produce potable water suitable for reuse.

 A known installation for deep water purification (see AS USSR 808374, MKI C 02 F 9/00, bull. 8, 1981), containing a sequentially located mixer, flotator, a multilayer filter with layers of sand, anthracite, polymer material, contact reservoir, grids, electrocoagulator, ion exchanger with regenerator and automatic multi-position valve.

 The disadvantage of this installation is the insufficient use of the effect of complete mixing of the reagents in the entire volume of treated water, as a result of which the chemical reactions do not proceed in full.

 A known installation for deep water purification (see RF patent 2133230, IPC 7 C 02 F 9/00, bull. 20, 1999), containing a sequentially located mixer, flotator, a multilayer filter with layers of sand, anthracite, polymer material, a contact tank, grids, an electrocoagulator, an ion exchanger with a regenerator and an automatic multi-position valve, as well as a reagent inlet pipe, made in the form of an ejector with tapering and expanding nozzles, on the inner surface of which curvilinear helical grooves are provided, and mixes l comprises a lower and an upper tapered cylindrical portions and the inner surface of the conical portion provided curved helical guide, passing into an annular groove disposed at the beginning of the transition in the conical portion and cylindrical having a solids outlet pipe with an automatic valve gidrogravitatsionnogo action.

 The disadvantage of this installation is the insufficiently efficient flotation process due to the impossibility of creating a dispersed emulsion of water and air and an ineffective device for removing contaminants.

The technical problem to which the invention is directed is to improve the quality of water purification by creating a dispersed emulsion of water and air and using an effective device to remove contaminants from the flotator by supplying an air duct compressor connected to the bottom of the flotator with flexible pipes to a flat flexible ring on which expandable nozzles with curved spiral grooves are installed on their inner surface, on the inner cavity of a flat bkogo ring opposite the expanding nozzles provided pulsators of the bimetallic plates curved, the opposite ends of which form an angle of 90 ^o, and the top of the skimmer mounted deaerators-trough with a false bottom having a longitudinal slit, the vertical partitions which are staggered along the length of the trough and are lateral gaps, alternating in the direction of fluid movement, and a discharge pipe of solid particles with air bubbles with a valve is connected to the gutters, a pipeline is connected to the flotator A treated water outlet positioned at a depth of at least 30 cm from the upper level of water in the skimmer.

The technical result is achieved by the fact that the installation for deep water purification, containing a sequentially located mixer, flotator, a multilayer filter with layers of sand, anthracite, polymer material, a contact reservoir, grids, an electrocoagulator, an ion exchanger with a regenerator and an automatic multi-position valve, as well as a reagent inlet pipe made in the form of an ejector with tapering and expanding nozzles, on the inner surface of which there are curved helical grooves, and a mixer with Then, from the lower conical and upper cylindrical parts and on the inner surface of the conical part, curved helical guides are provided, passing into an annular groove located at the level of the beginning of the transition of the conical part into a cylindrical one and having a branch pipe for removing solid particles with an automatic valve of hydrogravity action, brought to the lower part a flotator from a compressor an air duct connected by elastic pipes to a flat flexible ring on which pulsating nozzles with curved spiral grooves on their inner surface, in the inner cavity of a flat flexible ring opposite the expanding nozzles, are provided with pulsators from bimetallic plates of curved shape, the opposite ends of which form an angle of 90 ^° , and deaerators-gutters with a double bottom are installed in the upper part of the flotator a longitudinal slit, the vertical partitions of which are staggered along the length of the gutters and having lateral gaps alternating along the course of the fluid, m chutes connected to the tapping tube solids with bubbles of air with a valve connected to the skimmer outlet pipe for treated water is situated at a depth of at least 30 cm from the upper level of water in the skimmer.

 Figure 1 shows the technological scheme of the installation for deep water purification, figure 2 is a diagram of a flotator, figure 3 is a layout of expanding nozzles on a flat flexible ring, figure 4 is a diagram of a pulsator with curved bimetallic plates, and .5 - scan of the inner surface of the expanding nozzles with a curved spiral grooves.

The installation for deep water purification contains an inlet pipe 1, a dispenser 2 of flotation reagents, a compressor 3, a mixer 4 of water and air, a reactor 5, a flotator 6 with a pipe 7 for removing contaminants, a grid 8, an electrocoagulator 9, a multilayer filter 10, in which are placed from top to bottom layers of anthracite 11, polymeric material 12, sand 13, gravel 14. Behind the multilayer filter are a contact reservoir 15, a monitoring system 16 and a water quality sensor, a pipe 17 for dumping partially purified water into the reservoir 18. After the multilayer filter 10 on the discharge agistrali 19 sequentially installed exchanger 20 which, via a selector valve 21 from the control device 22 is connected to the regenerator exchanger 23. Next are a contact tank 24 for ozone, an activated carbon filter 25, a mixer 26 for water and chlorine. Between the contact reservoir 15 and 24, an ozone generator 27 is placed. Parallel to the mixer 26, a chlorine generator 28 is geometrically located. From the mixer 26 of water and chlorine leaves the exhaust pipe 29 of the water distribution system for reuse, which provides a quality control system 30 and a sensor. The mixer 4 includes an inlet pipe 31, consisting of a tapering 32 and expanding 33 nozzles with curved helical grooves 34, shell 35, cylindrical 36, conical 37 parts. On the inner surface of the conical part 37 of the mixer 4, curved helical guides 38 are provided, turning into an annular groove 39 with a pipe 40 for removing solid particles with an automatic valve 41 of hydrogravity action. An air duct 42 is connected to the bottom of the flotator 6 from the compressor 3 and connected via elastic pipes 43 to a flat flexible ring 44 on which expandable nozzles 45 are installed with curved spiral grooves 46 on their inner surface. In the inner cavity of the flat flexible ring 44, opposite the expanding nozzles 45, pulsators 47 are provided from bimetallic plates 48, 49, 50 and 51, freely set on the axis 52, having a curved shape, the opposite ends of which form an angle of 90 ^o , with a minimum number of four. In the upper part of the flotator 6, deaerators-gutters 53 with a double bottom 54 and 55 are installed, having a longitudinal slit 56, vertical partitions 57, which are staggered along the length of the gutters 53 and have lateral gaps 58, alternating along the course of the fluid. A discharge pipe 59 of solid particles with air bubbles with a valve 60 is connected to the grooves 53. A pipe 61 for discharging treated water located at a depth of at least 30 cm from the upper water level in the flotator 6 is connected to the flotator 6.

 Installation for deep water purification works as follows.

 Pipeline 1 separates the flow from the source of the treated effluents. Flotation reagents are introduced into the water and part of the flow enters the mixer 4, where air is supplied from the compressor 3. The inlet pipe 31, consisting of a tapering 32 and expanding 33 nozzles with curved helical grooves 34, a shell 35 serving as a mixing chamber, provides sequential input with the necessary gap in time of reagents for chemical reactions and creates the required technological cycle for conditioning the treated water according to quantitative and qualitative indicators of pollution, and it is curved e helicoidal grooves 34 cause swirling water flow and twist with chemical reagents and reactants are solids scour solution, crushed, moved, mixed with raw water. The shell 35, having a narrowed section due to the hydrodynamic effect, creates an ejection of the reagent solution with the air. Curved helical guides 38, located on the inner surface of the conical part of the mixer 4, create a swirl of the water flow, cause wave-like mixing of the reagents in the entire volume of the treated water. Undissolved solids, having centrifugal forces, from curved helical guides 38 fall into an annular groove 39, in which they coagulate, coarsen and, as they accumulate, are automatically discharged from it through a pipe 40 through a hydrogravity action valve 41.

 The main part of the flow of treated water, passing through the reactor 5, enters the flotator 6, in the lower part of which a flat flexible ring 44 is provided, which, when compressed air enters from the compressor 3 through the air duct 42, expands and begins to vibrate, since it is not rigidly connected to the air duct 42 and through elastic pipes 43. The pulsation of a flat flexible ring 44 along with vibration enhances the swirling and mixing of the reagents with the treated water, which are intensified by the action of the expanding nozzles 45, located data on a flat flexible ring 44, which have curved spiral grooves 46 on their inner surface, causing a swirling of compressed air. The ripple effect of the flat flexible ring 44 is significantly increased due to the action of pulsators 47 from the bimetallic plates 48, 49, 50 and 51, freely set on the axis 52, arising when there is a temperature difference between the warm compressed air coming from the compressor 3 and the relatively cold treated water.

 The effect of pulsation and vibration of the flat flexible ring 44, pulsators 47, enhancing the intermittent wave motion of the water-air mixture rising upwards of the flotator 6, contributes to the formation of a deeply dispersed emulsion and to improve the quality of water treatment. The clarified water through the pipeline 61, located at a depth of at least 30 cm below the upper water level in the flotator 6, is discharged to the grids 8 and a multilayer filter 10. A 30 cm layer of water provides additional suction of water from the flotator, reduces energy consumption for water movement. The treated water before entering the multilayer filters 10 is additionally coagulated by a solution of aluminum or iron hydroxides formed in the electrocoagulator 9, where part of the water is supplied for this purpose. After a multilayer filter 10, in which pollution is retained in the load, consisting of a layer of anthracite 11, polymer material 12, sand 13 and a supporting layer of gravel 14, the filtered water enters the contact tank 15, where ozone is supplied from the ozone generator 27 for oxidation of organic pollution, and water quality is monitored by a control system 16 and a water quality sensor. After that, part of the water through the pipeline 17 is discharged into the reservoir 18, and the other part of the water, for example, in a ratio of 1: 3 flows through the highway 19 for further processing.

 Part of the water coming from the multilayer filter 10 into the ion exchanger 21 is subjected to a deeper purification. In the ion exchanger 21, an ion exchange purification takes place, the loading of which is periodically regenerated with an acid or alkali solution supplied from the regenerator 23, the regeneration and ion exchange processes are regulated by a multi-position valve 23 and a control device 22. From the ion exchanger 20, water enters a contact reservoir 24, in which water is secondarily oxidized by ozone supplied from the ozone generator 27. After disinfection with ozone, water is supplied to the activated charcoal filter 25. The exhaust pipe 29 of the water distribution system for reuse departs from it, on which a mixer 26 (a device for introducing chlorine water and mixing it with the treated water) is installed, to which chlorine is supplied from the chlorine generator 20. The chlorine dose is monitored by a control system 30 and a water quality sensor.

 The polymeric material 12 of the multilayer filter 10 has an intermediate bulk mass between the upper and lower layers, which helps it to be between them.

 In flotator 6, the liquid passes through a longitudinal slit 56 of the deaerators-gutters 53 with a double bottom 54 and 55, the side gaps 58 and hits the surface of the vertical partitions 57, staggered along the length of the deaerators-gutters 53, is freed from solid particles due to their deposition to the bottom 54, and gaseous particles go through the pipeline 7 to remove contaminants, and solid particles of contaminants are removed through the pipe 59 with the valve 60.

 Mixing reagents in the entire volume of treated water, creating conditions for the complete passage of chemical reactions in it by sequential input with the necessary time gap of reagents and creating hydrodynamic and vibrational and pulsating processes increases the quality of the treated water and ensures the rational use of chemical reagents, and the creation of deeply dispersed emulsions in a flotator under the influence of flow swirling using curved spiral grooves and pulsation when it leaves the expanding nozzles and the use of effective devices for removing contaminants from it significantly improves the quality of water treatment and reduces the amount of water discharged into the reservoir.

 The originality of the proposed technical solution consists in using the effect of swirling flow and pulsation to form a deeply dispersed emulsion, which helps to improve the quality of water purification.

Claims (1)

Installation for deep water purification, containing a sequentially located mixer, flotator, a multilayer filter with layers of sand, anthracite, polymeric material, a contact reservoir, grids, an electrocoagulator, an ion exchanger with a regenerator and an automatic multi-position valve, as well as a reagent inlet pipe made in the form of an ejector with tapering and expanding nozzles, on the inner surface of which there are curved helical grooves, and the mixer consists of a lower conical and upper cylinder of the other parts and on the inner surface of the conical part, curved helical guides are provided, passing into an annular groove located at the level of the beginning of the transition of the conical part into a cylindrical one and having a pipe for removing solid particles with an automatic valve of hydrogravity action, characterized in that the bottom of the flotator is connected to the compressor air duct connected by elastic pipes to a flat flexible ring on which expanding nozzles are installed with curvilinear with spiral grooves on their inner surface, in the inner cavity of a flat flexible ring opposite the expanding nozzles, there are pulsators made of bimetallic plates of curved shape, the opposite ends of which form an angle of 90 ^o , and deaerators-gutters with a double bottom having a longitudinal slot are installed in the upper part of the flotator the vertical partitions of which are staggered along the length of the gutters and having lateral gaps alternating in the direction of movement of the liquid, and connected to the gutters a solid particles tube with air bubbles with a valve, a piping for discharging treated water is attached to the flotator, located at a depth of at least 30 cm from the upper water level in the flotator.

Images