SU1074834A1 - Method for biochemical purification of effluents - Google Patents

Abstract

A device for biochemical treatment of waste water, containing a body with sewage supply and cleaned drainage pipelines, vertical partitions installed over the bottom of the body, with partition walls 1 and branches, and air ducts with bubblers placed between the partitions in the bottom of the walls and the living rooms. increase the efficiency of sewage treatment by creating in suspension of treated wastewater of increased controlled concentration of biomass of activated sludge, it is equipped with attached From the outside, to the vertical partitioning boxes, separated by horizontal transferring to the upper heat exchange and lower filtering chambers, the guiding profiled taps are attached to the upper ends of the vertical partitions, the upper chamber $ {is equipped with inlet and outlet pipes and coolant, the lower chamber has a drain outlet. its inner wall is made with a hole. 8 C O 00 s 4ib

Description

The invention relates to devices for the biochemical treatment of wastewater and can be used in wastewater treatment technology in various fields, in the biocenosis industry of microorganisms whose cultivation allows for the high concentration of these crops in the medium being cleaned, while simultaneously improving the treatment parameters, such as a biocenosis. active sludge.

A device for biochemical wastewater treatment is known. It contains a cylindrical body divided by a coaxially mounted cylindrical perforated partition into a central settling tank and expanded in the annular zone of the aeration tank with an annular perforated distributor (collector) connected to an effluent that is disposed of. The aerotank is provided with aeration units, made in the form of an ejector with a vertical aeration pipe attached to it. In addition, the device is equipped with a circulation and pumping unit consisting of a submerged pump and a piping system equipped with il valves.

The main drawbacks of such a device are the frequency of its operation (in the modes: circulation, settling, pumping) of insufficiently intense aeration of sludge (due to the large hydraulic resistance of the sludge pipe), the inability to maintain a stable and high concentration of activated sludge in the suspension in the aero-tank zone, and It is also impossible to regenerate the filtering partition in the continuous process. The presence of the external pump reduces the efficiency of the aeration and circulation units, sharply limits bii circulation zone if aeration tank reduces cleaning efficiency.

Closest to the invention

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is a biochemical wastewater treatment apparatus, which is a fermenter, comprising a housing with supply lines. sewage and treated water removal, divided into sections for ascending and descending gas-liquid flows, vertical overhead partitions installed above the bottom and curved in the direction of flow of the IS and sheep and with heat exchangers enclosed between the outer and inner walls of the partitions and installed in the lower parts sections of barge gas supply devices with connected to them

gas supply with Adimi pipes, and in the upper parts - additional profiled plastic guides. In addition, centrifugal defoamers are installed above the partitions, each of which is made in the form of cylindrical blades 2J radially mounted on a horizontal shaft.

The disadvantages of the known device are the impossibility of creating increased controlled biomass of microorganisms (for example, biomass of activated sludge) in the recirculating suspension without the use of special external complex devices intended for thickening (septic tanks, flotators, etc.), the inability to effect a quick return of the condensed suspension of active sludge into the aeration zone (due to the long duration of the settling processes and flotation of the sludge), the need to equip the devices with special communications and equipment for transferring part of the thickened suspension (recirculated sludge) from the settling tanks (flotation units) back to the aeration zone. All this greatly reduces the efficiency of the device, especially when it is used in the process of treating wastewater containing organic contaminants in high concentrations.

The purpose of the invention is to increase the efficiency of the wastewater treatment process by creating treated sludge in suspension of the treated wastewater;

This goal is achieved by the fact that a device for biochemical wastewater treatment, comprising a housing with pipes for supplying treated water and discharging treated water; vertical partitions mounted above the bottom of the body with hapimi shaped profiled outlets, air ducts with bubblers placed by honey partitions in their lower part, are fitted with outer sided horizontal box partitions separated by horizontal nepei M to the upper heat exchange and lower filter chambers, with the atomized profiling guides branches are attached to the upper ends of the vertical partitions, the upper chamber is equipped with inlet and outlet nozzles for the heat transfer fluid, the lower chamber is patr killers for removal of fluid, and its inner wall is made with holes.

FIG. 1 shows the proposed device, a longitudinal section; FIG. 2 is a section A-A in FIG. 1, in Fig. 3 — the devices (a variant of execution in the form of a corridor aerotank) are a longitudinal vertical section; in fig. 4 shows a section BB in FIG. 3. The device consists of a housing 1 provided with a bottom 2. Vertical partitions 3 are installed above the bottom 2, forming sections 4 enclosed between them for ascending gas-liquid flows. The outer walls 5 and b of the partitions are interconnected by continuous vertical bridges 7, the internal walls of the 8 partitions in the lower part of the sections 4 are made perforated or mesh and form autonomous closed contours 9, which are located between the bridges 7 and the external walls 5 and 6 and connected to those and other top 10 and bottom 11 bottoms. In the lower part of the sections 4, gas supplying bubbling devices 12, made, for example, in the form of tubular bubblers, are connected to gas supply lines 13, and the openings 14 of the bubblers 12 are inside the autonomous circuits 9. The upper part of sections 4 is equipped with profiled outlets 15 for returning slurry of activated sludge for recycling in section 16 of the downstream flows formed in the space between sections 4, as well as between these sections and the walls of housing 1. Pipe nozzles 17, which serve to drain treated water, are set claimed in the walls 5 and 6, partitions are disposed between vertikalnlli webs 7 and connected to the bumps outlet conduit 18. The apparatus also comprises a conduit 19 for supplying waste water for cleaning and the nozzle 20 Predna "value for the retraction of the excess activated sludge the housing. The pipe 21 serves to drain the sediment and to empty the device. The upper part of the sections before the tubular outlets 15 are made in the form of heat exchangers 22 and 23, the cavities of which through pipes 24 and 25 are connected to the pipelines, respectively, for supplying 26 and outlet 27 for the heat exchanging agent. At the same time, to increase the heat exchange surface, a part of the heat exchangers can be made with a height equal to the full height of the vertical burnout 3, by replacing a part of the perforated inner walls 8 (in autonomous closed circuits 9) with continuous, removing the connected upper contours the bottoms 10 and the connections to the branch pipe 17 of these circuits, instead of the outlet pipe 18, of the pipe 26, for supplying a heat exchanging agent. The device body can be made round (FIG. 2) or of a rectangular shape, for example, in the form of a corridor aerotank 28 (FIGS. 3 and 4), along each corridor 29 of which, parallel to its side walls 30, are sections 4 for admiring gas-liquid streams, alternating with formed between them, as well as between, them and side C1; 30 boxes 16 for downstream streams. The device works as follows. Pipeline 19 sewage to be biochemical treatment is continuously fed into the housing, in which there is a suspension of active sludge. At the same time, compressed air is supplied to the bubblers 12 through the pipeline 13, for example, from a blower tube. The exit from the holes 14 of the bubblers 12, the air, together with the suspension entrained by it, consisting of flakes of active sludge distributed in the liquid being cleaned, passes upward through the internal perforated walls 8 of the burnout, forming self-contained closed contours 9, and further inside section 4 to tubular branches 15. Under the action of the hydrostatic pressure of the liquid column in the housing 1, part of the liquid is continuously filtered through the perforated walls 8 of the partitions and, falling into the closed volumes bounded by the outer walls. 5 and 6 partitions, continuous vertical neck 7 and bottoms 10 and 11, through pipes 17 are continuously withdrawn from the device via a discharge pipe 18, for example, to a secondary clarifier, contact filter or other apparatus for additional separation of finely dispersed suspended substances. Efficient transportation of the gas-liquid mixture in the channel of section 4 (required for intensive aeration and effective mixing of the mixture of sludge suspension and treated wastewater in the housing of the device) is carried out at a high speed of movement of this mixture (1.0 - 4.0 m / s), which is provided by supplying the required amount of air into the bubblers 12. It is known that this causes turbulent pulsations of the friction of the gas-liquid mixture against the walls of the channel in which it moves (more precisely, pulsations of tangential waves apr of friction in the undercoat formed on the walls of the channel). The range of changes in the characteristics of these pulsations (amplitude. Frequency spectrum) expands a little when non-smooth channel walls are used (which is how the internal perforated walls of the 8 reamers 8 are in the device). The pulsation of the friction of the gas-liquid flow, occurring on the perforated walls 8 trimmed to the flow of filtering surfaces, leads to the creation of a continuous effective mode of regeneration of these surfaces due to the pulsed effect of the flow on the layer of solid particles of the sludge suspension (sludge sludge, gradually delays in the process of filtering on filtering surfaces (5), removing these particles and carrying them off with a gas with an adequate flow while maintaining high rates of filtration of the liquid; The perforated steak 8 in the form of autonomous closed circuits 9 allows the gas to be distributed evenly to the second 4 from the holes 14 of the bubblers 1 over the cross sections of these circuits, which leads to the establishment of a stationary mode of the filtration process with continuous regeneration of filtering in each section 4, the rest of the sludge suspension (from which part of the liquid is removed through the perforated walls of the partitions, and thus increasing the concentration of activated sludge), to continue to move the upper part with a sufficiently large skrosgyure imparted by the bubbling bath: and 1 gas enters 4 profiled outlets 15 arranged in sections 4 sections, through which the suspension returns to housing 1 device: recycled to section 16 for downstream streams, Vko.tsugannoy silt suspensions from the profiled bath taps 15 are carried out by high-speed jet js that are directed from top to bottom of the volume of the rail, which is located in the housing 1 Part of the air, which has time to separate out of the suspension (as well as air, for 5 jet 4I sus In the event of a shock with the liquid surface in the housing 1), the slurry is carried with these jets into the volume of the gas suspension, which enhances the effect of aeration of the next G Passage in sections 16 on top of the vn along the outer walls 5 and b of the burnout Doc, il slurry, -mixing with a stream of 1C1Dih in wastewater treatment, under the effect of the difference between a lot of a more dense liquid column located in section 16 and a less dense column, the gas-liquid KOR (sludge) mixture located in section 4 moves into the zone of bubblers 12. Here the suspension is re-entrained flow m bubbled gas is conveyed upwards to the profiled LM 15 taps, the filter camping on. paths through the perforated walls 8, and the cycle of movement of the fluid is repeated. At the same time, a part of HeitpepHBHO thickened excess activated sludge is removed from the device through pipe 20. To maintain the optimum temperature in the volume of biochemically treated waste Bod 3, the heat exchanger 22 and 23 cavities through the pipes 24, supply through the pipe 25 through the pipelines 26 and 27 according to the relevant B (malicious application of the proposed device for biochemical, large-scale sewage treatment, when it can be performed in B1, corridor aerotank 28, the discharge of filtered liquid The bones are carried along the entire length of each of the corridors 29 through the fitting 17 into the outlet pipe 18 from each of the closed volumes limited by autonomous closed counters 9f of the pair to the walls 5 to 6 of the dust particles, solid. ; local L1My Shyremykami 7 to dl 1C and 11Lorg Forg / 11ga “Secondary improvement in general cTpyicv-ypy fluid flow in atotenka ha by snknaki longitudinal Levivin kin Suspension, at the same time, due to interest local. Eratational mixing her B the location of each and every of the sections “All of this is r: -positiveEo of the skazyz.gs on mass-exchange larapertics;: the order of the article in the given Dan Change) is the ratio of the flow rates of the discharged excess activated sludge and -purified WATER — it is possible to regulate the concentration (and general condition of biomass sludge in the housing of the device. thus, it is possible to optimize the cleaning process, especially in the case of cole-baaky vxsigihparamet.metrov osochps vls- (their v; o: jf.44SCTBa and zgggrlnennosti) For the treatment of sewage in the case of a capillary and artificial circulation, the azurumable suspension water wastes with the regulation of the concentration of radioelectronic biomass is activated sludge. Realization in the sys-OKOvl device of the rate of fashting of a sapenzo active sludge, exceeding the speed of the traditional process of settling

Sludge (for example, in a secondary sedimentation tank) by 2-3 times, is provided by continuous self-regeneration of the filtering surfaces of autonomous closed filter circuits without a noticeable change in the structure of pops of activated sludge. This makes it possible to improve the species composition, reduce the age of sludge (due to the shorter sludge residence time in the recirculation system), which improves the parameters of the processes of further treatment of excess activated sludge — its compaction and dewatering for disposal.

The implementation of, for example, in the proposed device of the process of biochemical purification of the most concentrated organic pollutant component of the waste water of the enterprise of the hydrolysis industry of the post-yeast brew, i.e. carrying out the biooxidation process under unlimited nutritional conditions of biomass, with an increased concentration of biomass of activated sludge (the dose of sludge in the device, equal, in particular, 10 kg / m) and adjustable residence time of sludge in the cleaning system (within 3-6 hours), allows em increases the volume oxidative capacity of the device by about 1.6 times and increases the increase in activated sludge from recyclable organic pollutants several times. Such a short residence time is not enough for toxic elements (fluorine and heavy metals) to be absorbed on the active cotton. This, in turn, leads to the fact that the chemical composition of the product can meet the requirements of this product when used as a protein and vitamin feed additive.

Thus, the application of the proposed device at sewage treatment plants of hydrolysis enterprises allows for an industry scale to obtain an additional 10-15 thousand tons of protein and vitamin-containing product annually. This is equivalent to the construction of a medium-capacity hydrolysis-yeast plant.

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Claims (1)

DEVICE FOR BIOCHEMICAL WASTE WATER TREATMENT, comprising a casing with pipelines for supplying wastewater and discharged water, vertical partitions installed above the bottom of the casing with guided profiled taps / air ducts with spargers located between the partitions in their lower part, · characterized in that, with In order to increase the efficiency of wastewater treatment by creating a ⁰ slurry of treated wastewater with an increased controlled concentration of activated sludge biomass, it is equipped with attached narrow to the vertical partitions with boxes separated by a horizontal jumper on the upper heat exchange and lower filter chambers, while the profiled guides are attached to the upper ends of the vertical partitions, the upper chamber is equipped with coolant inlet and outlet pipes, the lower chamber is equipped with fluid discharge pipes, and its inner wall is made with holes. SU ..,. 1074834