SU981251A1 - Hydrocyclone stabilizer and biological filter - Google Patents

Description

The invention relates to combined means of biological treatment of household and close to them in the composition of industrial wastewater, consisting of biofilters and devices for mineralization of sludge. ⁵

A device for biochemical wastewater treatment is known, which is a drip biofilter mounted above a tank for aeration and sedimentation of sediment. Waste water after preliminary mechanical treatment passes the biofilter And, together with the removed biofilm, enters the tank for aeration and sedimentation of sediment. _WHO-5 spirit supplied to the aeration tank, at special nozzles directed for further ventilation biofilter G1].

The disadvantages of the known installation are hardly blowing: the need to use blowing equipment for aeration of the liquid; organic pollutants are removed from wastewater2 using a low-productivity drip biofilter; the enclosing elements of the biofilter have direct contact with the outside air, which reduces the effect of its operation in the cold season when placed outside a heated room; the possibility of the formation of stagnant zones in the tank for aeration and sedimentation of sediment having a rectangular shape.

A device for biochemical. Wastewater treatment - biofiltration stabilizer. The biofilter-stabilizer consists of a high-load biofilter with a plastic roll and a reservoir located under it, which is divided into a stabilization zone and a settling zone. The required amount of dissolved oxygen in the liquid is regulated by the irrigation intensity of the biofilter loading and is provided for. recirculation of the sludge mixture using a centrifugal pump. . The duration of biomass stabilization is 10 days. The concentration of biomass 8 stabilizer 6-8 g / l G 2J.

The disadvantages of this biofilter-stabilizer 'are the significant dimensions of the structure, due to the mass transfer processes at night (fluid aeration), which makes it difficult to use in cramped conditions; direct contact with the outside air of the biofilter-10 ra enclosing elements, which worsens the temperature regime of its operation, and therefore the cleaning effect in the cold season when the structure is placed outside the heated room; the formation of stagnant zones is in the stabilizer due to uneven absorption of sediment by circulation nassou ^! som from the deposition chamber, which leads to a decrease in the effect of the construction.

The aim of the invention is to increase the efficiency + and the operation of the stabilizer-biofilter by increasing the concentration of activated sludge and oxidative power.

This object is achieved in that the hydrocyclone 25 Stabilizer-biofilter with jet aeration, comprising a cylindrical reservoir with stabilization and settling chambers biofilter nozzles input source and the water ₃₀ You are a treated liquid, a circulation pump is provided coaxially mounted in the tank and does not extend up to its bottom of cylindrical baffle and the tube, wherein the biofilter is placed in the pipe ³⁵ Ka settling measure - between the pipe and the baffle, stabilization chamber - between the partition and the tank wall, and akzhe additional input source liquid nozzles, one of which is tangential to the bottom of the chamber to stabilize the liquid level entering a settling chamber; another - in the stabilization chamber at an angle of 60 ° to the liquid surface ⁴⁵ of bone.

Available expiring jet under pressure mixed liquor circulation pump, besides making with submerged jets of horizontal circular motion ⁵⁰ Vågå stabilization fluid in the chamber, and the air is crushed involve than provide oxygenation of the liquid, which is required for the aerobic sludge stabilization. ^s5

The horizontal circular motion of the liquid in the stabilization chamber eliminates the formation of stagnant zones and, under the action of centrifugal force, creates conditions for compaction of activated sludge in the peripheral region (near the outer wall of the stabilization chamber). And.

decrease in the concentration of activated sludge 3 “in the inner zone (at the entrance to the gravity settler, near its wall), which contributes to a more complete clarification of water in the gravity settler before feeding it to the biofilter. Centrifugal compaction allows increasing the concentration of activated sludge in the stabilizer as a whole and, therefore, increasing the oxidizing power and reducing its size.

In FIG. 1 shows a diagram of the operation of a hydrocyclone stabilizer-biofilter with jet aeration as part of a treatment plant; in FIG. 2 - time 20 cut AA in FIG. 1.

The hydrocyclone stabilizer-biofilter with jet aeration has a cylindrical body 1, in the center of which there is a biofilter 2 with water 25 dispenser 3 and grate 4 to support the plastic load ring. a baffle 5 with a conical end 6 forming a gravity settler 7 with a bio30 filter wall and a stabilization chamber 8 with a building body, inlet nozzles 9 of flooded jets located tangentially to the stabilizer body 35 at the level of liquid inlet into the gravity tank, aerators 10 for outflow free jets located above the surface of the liquid in the stabilization chamber at an angle of up to 60 °, circulating pump 40 with pressure 12 and suction 13 pipelines located in the pumping station 14 with a receiver uarom 15 "positioned tangentially to the housing stabilizato45 ra pipe 16 for discharging the circulating mixture from the stabilization chamber into a receiving tank pump station through the sump 17 and pipe 18, in which simultaneously receives uc _m Khodnev waste water through conduit and sediment from the secondary clarifier through line 21 assembly channel. 22 for draining the fluid from the biofilter to the secondary sump and venting the biofilter, a pipe 23 for periodically ^S5 release of stabilized sediment.

Hydrocyclone stabilizer-biofilter with jet aeration works as follows.

Wastewater from the sewer network through a pipe 19 enters a receiving tank 15, from where it is supplied by a circulation pump 11 through a suction 13 and a pressure pipe 12 to the stabilization chamber 8 of the sludge mixture through nozzles 9 of flooded jets and 10 free jets aerators 10. Using these jets in the stabilization chamber, the liquid is mixed by creating a horizontal circular motion, the formation of which is also promoted by the outlet pipe 16 tangentially located to the stabilizer body, designed to discharge the circulating sludge mixture from the stabilization chamber to the receiving tank 15 of the pump station 14 through the receiving well 17 and the pipe 18. Free-flowing outlets from the aerators of ZO • liquids, except for creating a horizontal circular motion of the silt mixture in the stabilization chamber, o they also ensure that the liquid is saturated with air (oxygen), which is necessary for aerobic stabilization of the sediment. ' Horizontal. The HQ-circular motion of the sludge mixture creates conditions in the stabilization chamber under the action of centrifugal forces for compaction (increasing the dose of activated sludge) in the peripheral region and a decrease in the concentration of the sludge mixture in the inner region at the entrance to the gravity settler 7, where the liquid flows after the stabilization chamber. . The clarified liquid from the gravity sump through the water distribution device 3 • enters the biofilter 2, where the biological wastewater treatment process is completed. The primary stage of biological treatment of the liquid occurs when the initial wastewater is supplied to the receiving tank of the pumping station and then to the stabilization chamber, in which biosorption of a significant part (up to 50-70%) of organic wastewater contaminants proceeds .;

The proposed stabilizer-biofilter has the following advantages: it has the most effective technology for pre-treatment of wastewater before the biofilter, based on the use of biosorption of centrifugal compaction of the sludge mixture that occurs during horizontal circular motion of the liquid in the stabilization chamber,

98125 ’6 and subsequent clarification of the mixture in the gravity sump, which leads to a decrease in the size of the biofilter; · horizontal-circular movement of the liquid eliminates the formation of stagnant zones in the stabilization chamber, which improves the effect of wastewater treatment; centrifugal compaction of the sludge mixture in the stabilization chamber allows, on the whole, to increase the dose of activated sludge in the aerobic stabilizer, and therefore, increase the oxidative power and reduce its size; Direct contact of the biofilter enclosing structures with the outside air is excluded, which improves the temperature regime of its operation, and, consequently, the cleaning effect in the cold season when the structure is placed outside a heated room.

Claims (2)

(5) HYDROCYCLING STABILIZER-BIOFILTER WITH JET AERATION The invention relates to a combination of biological means for cleaning household water and close to them in the composition of industrial wastewater, consisting of biofilters and devices for mineralizing sludge. A device for the biochemical treatment of wastewater is known, which is a droplet biofilter mounted above the tank for aeration and sedimentation. After mechanical cleaning, the waste water passes through the biofilter and, together with the bioformed bio-gas, it enters the tank for aeration and sedimentation. The air supplied to the tank for aeration through special nozzles is further directed to the ventilation of the biofilter GH. The disadvantages of the known installation are the following: the need to use blower equipment for aerating the liquid; removal of organic pollutants from wastewater is carried out on an inefficient droplet biofilter; the enclosing elements of the biofilter have direct contact with the outside air, which reduces the effect of its operation during the cold season when placed outside a heated room; the possibility of formation of stagnant zones in the tank for aeration and settling of the precipitate having a rectangular shape. A device for biochemical wastewater treatment is known as a biofilter stabilizer. The biofilter-stabilizer consists of a high-loading biofilter with a rolled plastic load: and a reservoir located under it, which is divided into a stabilization zone and a sedimentation zone. The required amount of dissolved oxygen in the liquid is controlled by the irrigation intensity of the loading of the biofilter and is provided for. recirculation of the sludge mixture using a centrifugal pump. . The duration of stabilization of biomas3981 sy 10 days. The concentration of biomass in the stabilizer is 6-8 g / lG2J. The disadvantages of this biofilter-stabilizer are the considerable dimensions of the structure, due to the film processes of mass transfer (liquid air), which makes it difficult to apply it in constrained conditions; direct contact with the outside air of the enclosing elements of the biofilter, which impairs the temperature conditions of its operation and, consequently, the cleaning effect in the cold season, when the structure is placed outside the heated room; the formation of stagnant zones in the stabilizer due to the uneven absorption of sediment by circulating Hacq catches from the deposition chamber, which leads to a reduction in the effect of the operation of the structure. The aim of the invention is to increase the efficiency of the stabilizer-biofilter by increasing the concentration of activated sludge and oxidizing power. This goal is achieved by the fact that a hydrocyclone stabilizer-biofilter with a jet aeration containing a cylindrical tank with cameras with / abilization and settling, a biofilter, nozzles of the input and output of the treated liquid, the circulation pump, is equipped with coaxially installed in the tank and not returning up to its bottom is a cylindroconical partition and a pipe, while the biofilter is placed in the pipe, the settling chamber is between the pipe and the partition, the stabilization chamber is between the partition and the walls of the tank, and akzhe additional input source liquid nozzles, one of which is disposed tangentially in the bottom portion of the chamber to stabilize the level of liquid in the settling chamber input; the other is in the stabilization chamber at an angle of 60 to the surface of the liquid. Free flowing jets of the sludge mixture under the pressure of a circulation pump, in addition to creating, together with submerged jets, horizontally circular movement of the liquid in the stabilization chamber, draw and crush the air, thus providing the liquid with oxygen saturation, which is necessary for aerobic stabilization of the sediment. The horizontal-circular movement of the fluid in the stabilization chamber eliminates the formation of stagnant zones and by the action of centrifugal force creates conditions for the compaction of activated sludge in the peripheral region (near the outer wall of the stabilization chamber). and reducing the concentration of activated sludge in the inner zone (at the entrance to the gravity settling tank, near its wall), which contributes to a more complete clarification of water in the gravity settling tank before feeding it to the biofilter. Centrifugal compaction makes it possible to increase the concentration of activated sludge in the stabilizer as a whole and, (therefore, increase the oxidizing capacity and reduce its size. Fig. 1 shows the operation of the hydro-cyclone biofilter stabilizer with jet aeration as part of the treatment plant; Fig. 2 - section A-A in Fig. 1. The hydrocyclone stabilizer-biofilter with jet aeration has a cylindrical body 1, in the center of which there is a biofilter 2 with a vodka dispenser 3 and a grate k for maintaining plastic loading, an annular partition 5 with a conical end 6, forming a gravity settling tank 7 with the biofilter wall and a building body with a stabilization chamber 8, inlet pipes 9 of submerged jets located tangentially to the stabilizer body at the level of liquid entry into the gravity settling tank, aerators 10 long outflow of free jets located above the surface of the liquid in the stabilization chamber at an angle of up to 60, a circulation pump 11 with a pressure 12 and a suction 13 pipelines located in the pump No. Station T with a receiving tank 15 located pipe 16 tangentially to the stabilizer body to discharge the circulating mixture from the stabilization chamber to the receiving tank of the pumping station through the receiving well 17 and pipe 18, into which the source waste water is simultaneously supplied via pipeline 19 and sediment from the secondary clarifier 20 to conduit 21, collecting duct 22 for draining liquid from the biofilter to the secondary clarifier and ventilating the biofilter, pipe 23 for periodically discharging stabilized sludge. Hydrocyclone stabilizer-biofilter with jet aeration works as follows. Sewage water from the sewer network through the pipeline 19 enters the receiving tank 15 from where the circulation pump 11 flows through the suction 13 and the pressure 12 pipelines into the stabilization chamber through the pipes 9 flooded jets and aerators 10 free jets. Using these jets in the stabilization chamber, the liquid is mixed by creating a horizontally circular movement, the formation of which is also favored by the tangentially located outlet pipe 16, designed to release the circulating sludge mixture from the stabilization chamber to the receiving tank 15 of the pump station k through the receiving well 17 and a pipe 18, Liquid streams flowing freely from aerators, except for creating a horizontal-circular movement of the sludge mixture in the stabilization chamber, both bake, as well as saturation of the fluid with air (oxygen), which is necessary for aerobic sediment stabilization. jHQ-KpyroBoe horizontal movement of the sludge mixture creates in the stabilization chamber under the action of centrifugal forces in the peripheral area and decrease in concentration sludge mixture in the internal area at the entrance to the gravity settling tank 7, where the liquid enters after the stabilization chamber. The clarified liquid from the gravity settling tank through the water distribution device 3 enters biofilter 2, where the process of biological sewage treatment is completed. The primary stage of biological purification of a liquid occurs when the source wastewater is supplied to the receiving tank of the asos station and then into the stacking chamber, in which a large part (up to 50–70) of organic wastewater flows. The proposed stabilizer-biofilter has the following advantages: it has the most effective technology of pre-treatment of waste water before a biofilter, based on the use of biosorption of centrifugal compaction of the sludge mixture that occurs during horizontal-circular movement of the liquid in the stabilization chamber, and the subsequent clarification of the mixture in the gravity settling tank, which leads to reducing the size of the biofilter; - horizontal-circular movement of the liquid eliminates the formation of stagnant zones in the chamber and that improves the cleaning effect of wastewater; The centrifugal compaction of the sludge mixture in the stabilization chamber allows an overall increase in the dose of activated sludge in -. aerobic stabilizer, and therefore, increase the oxidative capacity and reduce its size; direct contact of the enclosing structures of the biofilter with the outside air is excluded, which improves the temperature regime of its operation, and, consequently, the cleaning effect in the cold season when the structure is placed outside the heated room. Claims of Invention Hydrocyclone stabilizer-biofilter with jet aeration, comprising a cylindrical tank with stabilization and settling chambers, biofilter, feed inlet pipes and treated liquid outlet, a circulation pump that differs from the fact that, in order to increase work efficiency by increasing the concentration of sludge and oxidizing power of the stabilizer-biofilter, it is equipped with a cylindrocrinoic septum and pipe coaxially installed in the tank and not reaching its bottom The biofilter volume is placed in the pipe, the settling chamber is between the pipe and the partition, the stabilization chamber is between the partition and the walls of the tank, as well as additional branch pipes for introducing the initial fluid, one part of which is located tangentially in the lower part of the stabilization chamber at the level of the fluid entry into the sedimentation chamber, the other - in the chamber of stub /; tation at an angle of 60 to the surface. liquid. Sources of information taken into account in the examination 1.Patent of Germany No. 240li198, cl. From 02 to 1/10, 1370. 2. USSR author's certificate №567675, cl. C 02 C 1/02, 1975.