SU947081A1 - Apparatus for purifying water - Google Patents

Description

(54) SETTING FOR WATER PURIFICATION

one

The invention relates to the treatment and purification of natural and waste waters, relates to installations and apparatus for the purification and purification of water by biological methods, and can be used in fish farming for the purpose of purifying and purifying water used for the mass cultivation of aquatic organisms, as well as in biological treatment plants for cleaning and tertiary treatment of wastewater discharged into natural reservoirs.

A known water treatment plant comprising a housing with a bottom and rows of rectangular sectional sections installed in the housing is biological filter sections. A filter loading is placed in the biological filter sections, and perforated distribution pipes are located below the filter loading. supply of source fluid and an additional filter placed between the body of the biofilter and the collecting tank 1.

However, this water treatment plant is imperfect in design, is characterized by low productivity of water purification and is not applicable for these purposes in industrial biological sewage treatment plants.

Claims (2)

A water treatment plant is also known, consisting of a body with a conical bottom, made divided by vertically and non-reaching ends to the bottom of the longitudinal partitions on the vertical channel and the Ogseki clarified water, longitudinal partitions in the vertical channel of the biological section. filters made in the form of rectangular filter tanks with perforated tubes. The perforated pipes are made connected to the water supply unit for cleaning, and the clarified water chambers are connected via drainpipes and pipelines with valves to additional filters located cascadio on the sides of the housing 2j. The known installation provides water purification with suspended substances in it, however, it does not provide the removal of water from the 4JCX lightweight compound and hardly oxidizable organic compounds. The purpose of the invention is to achieve a degree of purification by ensuring the purification of water from volatile as well as difficultly acid organic compounds. The following objective is achieved by the fact that the water purification installation, containing a vertical dripping and biological filter section, installed in a junction rectangular in terms of filter-loaded containers and per (), distributor coarse, is equipped with an arrangement filtrating pipes filled with aerators, the base of the vertical channel is equipped with a grille, and the channel itself is provided with vertical partitions located transversely with gaps, which are supported by the bottom of the grid, between the body and additional The filter contains a biologically oxidized film filter equipped with a catchment basin with a sloping bottom and 1 catchment} first run and liter; made communicated with the vertical channel of the hull by means of a gutter tray, and the drainage tank of the biological-oxidant channel communicates with an additional filter, the channel is formed perpendicular p ™ but located to the inclined bottom of the partition and the side wall of the secondary filter, made in the height of the Nile. its second side wall, in addition, the additional filter is equipped with a slit bottom for the cultivation of aquatic vegetation, located on top of its filter loading. FIG. 1 shows a plant for water purification in a rectangular projection, a plan; in fig. 2-body installation, axon ™ metri; in fig. 3 — installation for water purification, side view; in fig. 4 - fragment of the construction of a film biological oxidant, axonometrics; in fig. 5 installation in the cross section and with an explanation of the functional 1.1 scheme. The proposed water purification plant is a rectangular (in plan) shape aggregate (Fig. 1), comprising a housing 1 (Figs 1 and 2), which consists of 2 longitudinal 2 and 3 end walls. From below, the housing 1 is provided with a day 4 formed by inclined walls (Fig. 5). In the longitudinal direction, the body 1 of the hg section is vertically {located with non-coming lower ends up to the bottom 4 by two partitions 5 and 6 in compartments 7 and 8 and a vertical channel 9. In compartments 7 and 8 there are sections of biological filters 10. Each of these filters 1O represents a rectangular tank in terms of capacity, fixed on the end walls 3 with the formation of gaps between themselves and the walls 2 and partitions 5 and 6. On the bottom of the biological filters 10 are perforated distribution pipes 11, connected through piping with valves 12 with the discharge pipe of the pump 13 iodachi water. In addition, tubular aerators 14 are located at the bottom of the tanks of biological filter sections 10 and are connected via pipelines to valves 15 with a blower 16. Filter loading 17 is located inside the containers of filters 10 (Fig. 5), which is common with biofiber filters. A part of the vertical channel 9 is equipped with a grill 18. Inside the channel 9, transverse partitions 19, 1 are installed vertically with gaps, and they are fed at their ends to the grille 18. The vertical channel 9 on the end sides is equipped with overflow windows 20, which are square cuts in the end walls 3 (Fig 2 and 5). Through these windows, the vertical channel 9 communicates with the gutter tray 21. The bottom 4 of the housing 1 is equipped with a perforated pipe 22, which is communicated through the pipeline to the valve 23 with the suction port of the pump 13. The upper ends of the end walls of the gutter tray 21 have the same height as end walls 3. The longitudinal section of the chute 21 is made at a height below the height of the longitudinal walls 2 and also below the upper edge of the overflow windows 20, which is necessary to ensure (Uniform water discharge. Vertical channel 9 of housing 1 The spillway window 20 and the gutter tray 21 are connected to the biological film oxidizer 24 (Fig. 1, 3 and 5), which is shown in Fig. 4. The biological film oxidizer 2 has a side wall 2 in common with the body 1 and consists of other inclined partitions 25 and 26. The end ends of the partitions 25 and 26 are made reinforced in the side wall having ventilation holes 27 The inclined partitions 26 have longitudinal sides 28 and are located between the inclined partitions 25 with the formation of gaps 29 and ventilation slots between longitudinal "1 and sides 28. In addition, the inclined partitions 26. strengthened by means of the sides 28 on the support frame 30 (Fig. four). The side of the first top sloped partition 25 is connected to the side of the bottom of the gutter tray 21. At the bottom, the biological film oxidizer 24 has a catchment box 31, which has a sloping bottom 32 and a second side wall 33. Thus, the biological film oxidizer 24 is a vertical column of inclined partitions, the end of the waste surface of the partition 25 is separated by a gap 29 from the beginning of the waste surface of the partition 26, and the end of the waste surface of the partition 26 is separated by Azora from start Stoch hydrochloric surface underlying septum 25. The catchment rezervua14a recess 31 formed by the inclined bottom 32 and the wall 33 is perforated conduit 34 communicated via a conduit with a valve 35 to a suction pipe 13, a water supply pump. The proposed installation is equipped with an additional water purification filter 36 formed by longitudinal walls 33 and 37, having end walls and a bottom on which a perforated pipeline 38 is located, communicated by means of a valve 39 with a manifold of diverted water. The filter 36 is provided with a coarse filter loading 40, on top of which is a slot bottom 41 for cultivating aquatic vegetation. The side wall 37 is made along the height of the side wall 33. Perpendicularly inclined bottom 32 in the catchment tank 31, a longitudinal break bar 42 is installed, forming together with the side wall 37 a drain slot 43 providing water supply to the filter 36. Pump 13 through a pipeline with a valve 44 communicated with the source of water supply for cleaning. In addition, the pump 13 through a pipeline with a valve 45 is in communication with the collector discharge sediment. The installation works as follows. Water intended for purification from the collector through the open valve 44 by the pump 13 for supplying water is supplied through pipelines with open valves 12 to the perforated distribution pipes 11 of the sections of biological filters 1O. In sections of biological filters 10, water from distribution pipes 11 evenly enters filtering load 17, passes through its slits and pores, fills each of the containers of filters 10 and as it further flows through the upper edges of the containers of filter sections 10 and further through the slits, formed by walls 2 and 3, sections of biological filters 1O and longitudinal partitions 5 and 6, flows by gravity into bottom 4, fills it, and then enters the vertical channel 9 and passes through the grid 18 and through the slots between the transverse partition 19, through the spillway window 20 by gravity into the drainage tray 21. As the treated water enters the drainage tray 21, a blower 16 is put into operation and, through open valves 15, compressed air is supplied to the tubular aerators 14 through the air ducts. through which provide aeration of the treated water. After filling the drainage tray 21 with water that is being cleaned with water, a uniform stream flows over the upper edge of its longitudinal wall and flows down the inclined surface of the upper partition 25, then passes the drain surfaces of the partitions. 26 and 25 and ultimately over the drainage surface of the partition 26 flows into the catchment basin 31. In the catchment basin, lintel 42 provides in-depth water supply and contributes to the sedimentation of the material in the deepening of the inclined bottom 32. From the drainage tank 31, the clarified water through the drain hole 43 formed by lintel 42 and wall 33, enters the additional filter 36 by pouring it over the upper edge of wall 33. In the additional filter plate 36, water under the psdrostatic branch passes a slotted bottom 14, on which A biocoenosis of aquatic vegetation is placed (not shown), filtered through it and then passes a coarse filtering load 40 and through a perforated conduit 38 when the valve 39 is open in purified form, flows into the collector for removal of purified water. As sediment accumulates in the bottom 4 and catchment tank 31 by shutting off valve 44, valves 12 and open valves 23 and 35, as well as valve 45 through perforated pipelines 22 and 34, pump 13 dumps it into the sediment collection manifold. The essence of water purification is as follows. In the process of passing the treated water through the free-running load of 17 sec. Biolopic filters 10 of. bioloptic oxidation of contaminated water and adsorption of contaminations by the biocenosis of living organisms of the biomass of biologic organisms are carried out by means of biological play, spreading on the load, while the volatile compounds are removed by air coming from the blower 16 through the air ducts through the pipes. tubular aerators 14 In addition, water is saturated with oxygen by means of aerated air, while the growth of biological film organisms is enhanced, and the processes of aerobic oxidation of pollution are intensified eny water is prevented and silting za- c contaminants filter media and enhanced particulate removal dead biologiches Coy film. The dead-particles of a biological film and suspended substances carried by the flow of water from biological biological filters, are carried down by water through the gaps between the sections of biological filters 10 and partitions 5 and 6, and walls 2 and 3, and eventually settle to the bottom 4. Partially the water purified and clarified with the volatile substances removed by gravity through the sieve 18 and the slots of the plastic partitions 19 of the vertical channel 9 rises up and flows down through the overflow windows 20c of the drainage tray 21. The septals 19 of the vertical channel 9 form an additional biological film from heterotrophic microorganisms that carries out biological purification of water. Thus, the housing 1 is the main element of a water purification plant where the removal of volatile substances takes place. substances from the purified water by means of aeration with air, biological purification of water by means of a biological film, and clarification of water by settling it. In addition, the housing 1 also performs the functions of a vertical sump, characterized by optimal hydraulic parameters. Partially purified and clarified water comes from gutter 21, passes through partitions 25 and 26 of biological biological oxidant 24 and is in the form of a thin layer is in contact with the surrounding wind environment and is saturated with oxygen through air exchange, and also subjected to additional biological treatment by means of biological film developing on the surfaces of partitions 25 and 26. With sufficiently illuminated waste surfaces, partitions 25 and 26 in the biocenoses of a biological film can develop from algae, which are absorbers of mineral substances, which contributes to the improvement of the gas exchange regime and the mineral composition of the purified water. The purified water is collected in the catchment tank 31, in the deepening of the bottom of which suspended substances settle, and the water through the slit 43 enters the additional filter 36. In this case, the biological film oxidizer 24 performs the second (biological treatment of water) technology. biological filter and sludge and provides enhanced aeration and biological treatment of water and its clarification due to the delay of suspended solids in the deepening of the bottom 32. When water enters the additional filter 36 cleaned water It is pulled final cleaning and discharged through a pipeline with an open valve 39 to the purified water collector. The additional filter 36 can operate both in the biological filter mode due to biocenoses of higher aquatic plants, and in the mode of the ordinary gravity filter with a coarse-grained load. as a biological filter, they are planted in the Celine bottom 41 in the usual way; 6otv. The role of higher aquatic plants in water purification is well known. The additional filter is the third stage of water purification. It provides a water purification aftertreatment by means of biological adsorption of contaminants by aquatic plants biofuction, as well as a filter of frost water through coarse loading 40. The accumulated sediment from the bottom 4 and the bottom of the bottom 32 of the catchment tank 31 are removed through a perforated pump 13. pipelines 22 and 34 with open valves 23, 35 and 45 and valves 44 and 12 closed. After removing the sediment, valves 23, 35 and 45 are closed and valves 44 and 12 are opened, the pump 13 is put into operation. Water allows you to purify water with a high content of suspended and volatile substances in it due to the enhanced air. of the purified water, as well as maximum contact in the biological film desiccant of the purified water with the air medium and the combination of biological methods of water purification with the process of clarification and filtration. The installation is simple in design, reliable in operation, and provides deep water purification from contaminants and volatile substances. Claim 1. Water purification unit, comprising a body with a conical bottom, divided by vertical longitudinal partitions not reaching the bottom, to a central vertical channel and sections of biological filters made rectangular in terms of filtering containers and perforated distributive ones located below it pipes, as well as additional filters, characterized in that, in order to control the degree of water purification by ensuring its purification from volatile compounds, it is difficult acid compounds, it is equipped with tubular aerators located under the filter loading in the biological filter sections, vertical transverse partitions with a grid attached to their lower ends, and a biological biological oxidizer placed between the housing and the additional filter and communicated with the last and central vertical channel of the hull. 2. Installation under item 1, characterized by the fact that the biological film oxidizer is made of drainage partitions with sides, located with a slope one above the other, a drainage tray mounted at the beginning of the upper drainage partition, as well as a catchment tank located under the drainage partitions the bottom inclined towards the additional filter, and the baffle bar, not reaching the bottom of the tank, perpendicular to it. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2826616 / 29-26, cl. From O2F 3/18, 09.1O.79. 2. USSR author's certificate in application number 2996670 / 29-26, cl. C 02 F 3/32, 23.1O.81.