SU1035002A1 - Apparatus for purifying effluents - Google Patents

Abstract

A DEVICE FOR CLEANING WASTE WATER, containing a rectangular aerotank case divided by longitudinal partitions into flow corridors, perpendicular to the mixing corridor with recirculation chambers equipped with period dispersants. action, a distribution tray with dispersants of real action and a regenerator, from-. More specifically, in order to increase the efficiency of use by increasing the rate of consumption of dissolved oxygen, it is equipped with overflow pipes connected to the distribution tray and the upper part of the recirculation chambers, semi-submerged partitions and flooded spillways located. between the longitudinal partitions of the latter in the course of movement of the corridor fluid, with the formation of rcch active containers and installed in the regenerator. airlifts. M Sd

Description

This invention relates to the biological purification of domestic and industrial water.

A device for biological wastewater treatment with activated sludge is known, which contains two tanks connected in parallel in two, two aerotanks in parallel connected and a secondary settling tank. At the same time, part of the effluent entering the treatment is directed to aeration tanks, mine aerated tanks, and returnable active oil from the secondary clarifier is distributed between the aerated tanks and aeration tanks. The intensity of aeration, depending on the concentration of dissolved oxygen in the aeration tanks, is controlled by three groups of blowers of various capacities that provide the minimum necessary air supply. hours of minimum and maximum wastewater and contamination fl.

The drawbacks of such a device are a significant increase in capital and operating costs associated with the presence of two types of combined structures consisting of a radial aerated tank and an annular aerotank with a rotating truss, on which aerating devices are fixed, a complex system of automation and control of technological parameters of the cleaning process, inadequate in conditions of significant fluctuations in the flow of wastewater, the presence of a number of pumping devices causes - increase of the energy consumption and also prebyuaNie mixed liquor in the secondary sedimentation tanks under conditions of deep / oxygen deficiency, which leads to a marked decrease in activity of the activated sludge microorganisms.

It is also known a sewage treatment unit comprising a rectangular body of an Aerotential box, equipped with a distribution tray and equipped with constant dispersing agents, divided by longitudinal partitions. Flow corridors, a perpendicular mixing corridor with recirculating chambers equipped with periodic dispersers, and a regenerator 2

Such a device allows creating optimal conditions for carrying out a biochemical wastewater treatment process at varying loads on the structure. The factors limiting the efficiency of such a device are the reduced consumption rate of dissolved oxygen due to nutrient deficiencies.

recirculation chambers, as well as a long stay of activated sludge in the secondary sedimentation tank.

The purpose of the invention is to increase the efficiency of use of the device by increasing the rate of consumption of dissolved oxygen.

This goal is achieved by the fact that a device containing a rectangular aerotank case divided by longitudinal partitions into flow corridors, perpendicular to them is a mixing corridor with recirculation chambers equipped with periodic dispersers, a distribution tray with constant dispersants and a regenerator, equipped with bypass pipes connected to the distribution tray and the upper part of the recirculation chambers, dividing partitions, half-submerged partitions and flooded overflows located between the longitudinal partitions of the latter in the course of the corridor’s fluid flow to form clarifying tanks, while the bottoms of the latter are made in the form of truncated cones and are equipped with silt airlifts; a diverter tray installed in the regenerator and adjacent to the longitudinal partition of the latter in the course of the movement of the aerotank corridor fluid.

FIG. 1 shows the proposed device in the plan; in fig. 2 section aa in FIG. in fig. 3 section bb in fig. one; in fig. 4B-B in FIG. one.

The device includes a rectangular case 1 of the aerotank, equipped with a distribution tray 2 of waste water with adjustable apertures, divided by longitudinal partitions 3 into three flow channels 4, a regenerator 5 and a mixing corridor perpendicular to them, which are equipped with dispersants of constant action 7, and a desilter disinfector 8, recirculation chambers 9, located in the end part of the second and third parts along the fluid flow paths of the flow-through corridors, equipped with blowers 10, are connected In the bottom of the recirculation chambers, there are water intake slots 12, which connect them to flow corridors, the recirculation chambers with the mixing corridor are connected through weirs 13, the bypass pipes 14 connected to the distribution chute and connected to the upper part installed in the recirculation chambers of the dividing partitions 15, the lower part of which is at the top of the water intake slots, the clarifying 5 containers 16, the bottoms of which In the form of truncated cones serving as sludge bins 17, located in the third aero-flow corridor along the flow of sewage and equipped with semi-submersible partitions 18, flooded spillways 19, sludge airlifts 20, coagulant propellant 21 equipped with a guide chute 22 with a hole 20 with a spillway 22 with a drift 20 the bottom, 5 to which the reagent-coagulant or flocculant 23 (calcium oxide hydrate, iron sulfate, polyacrylamide, etc.) is connected, the desoldering tray 24, installed 2P in the regenerator and communicating silt airlifts from the beginning ohm regenerator, sludge separator gel-disinfector 8, connected to the aerotank case via an Lg 25 outlet pipe, equipped with a Parshal or Venturi measuring tray 26, into which chlorine water pipe 27 is introduced, and a sludge removal pipe 28 is connected to the bottom part of the desinfector deslotter.

The device works as follows.

Wastewater enters the housing, 1 aerotank and through adjustable openings of the distribution tray 2 35 pops are fed into mixing corridor 6, where they are mixed with active sludge coming from generator 5 / after which the mixture formed with aeration of constant 40 dispersants is directed is flowable. corridors 4. In the process of aeration and movement of sewage and activated sludge through the mixing and flow corridors of the aero-tank, biochemical oxidation of contamination by microorganisms of activated sludge occurs,

In clarifying tanks 16, designed for a 20–30-minute settling time, 85–95% of the active sludge is collected in sludge bunker 17, from where sludge airlifts 20 are pumped over the sludge discharge tray 24 to the beginning of the regenerator, forming the return sludge process flow. At the same time, the activated sludge is under 55 unfavorable anaerobic conditions 4-6 times less time than in the case of a conventional purification scheme with a second, STAG, and the arrangement of the illuminating vessels reduces the energy expended on the return sludge supply.

The clarified liquid containing excess activated sludge in the amount of 5-15% of the total activated sludge, on j

go to coagulant propellant 21, where in the process of consolidation (coagulation) of sludge suspension, the sedimentation properties of the act of "sludge" are improved both by bubbling and by introducing reagent-coagulant through pipeline 23 into the guide tray 22 with a perforated bottom . If calcium oxide hydrate is introduced into the coagulant propellant as a reagent, then in addition to the process of coagulating the sludge mixture the wasp: the purification of wastewater from phosphorus, which forms precipitated compounds with this reagent, is formed. The coagulative suspension together with the clarified waste water through the outlet pipe 25 enters the measuring tray 26, in which, along with the flow measurement, the waste water is mixed with the chlorine water supplied through the chlorine water pipeline 27. In the desilter-disinfector 8, designed for a 30-minute contact, the precipitate formed with the precipitate and at the same time during the contact of chlorine with purified waste water, the process of disinfection is carried out. The wastewater that has been flashed through FULL cleaning is discharged outside the device, and the sediment from the bottom part of the disinfectant disinfectant through the sludge removal pipeline 28 is sent for further processing ..

In the period of increasing the flow rate of incoming wastewater, when the liquid level in the distribution tray rises, the dispersion of periodic action 11 switches on, as a result of which the waste water enters through the Nftae opening of the distribution tray not only into the mixing corridor, but is also directed through the overflow pipelines 14 connected to the top of the baffles 15 into the recirculation chambers 9. At the bottom of the recirculation chambers, a part of the flow rate of the incoming waste water is mixed x with water-sludge mixture entering through the water inlet slots 12, in which there is Results biohimichos1 th rkyslenie bulk contaminant fed to the recirculation chamber, while the consumption of dissolved oxygen contained in the mixed liquor. Making upward motion, biochemically purified, containing minimal concentrations of dissolved oxygen, the waste liquid enters the zone of active influence of periodic dispersing dispersants and is fed with dissolved oxygen before being fed into the mixing corridor. Since the aeration of the cleaned fluid

Batch dispersants are produced with a deep deficit of dissolved oxygen, the degree of oxygen utilization of the supplied air approaches its maximum.

 The implementation; the device provided permits comparison with that of J. P

It is known to achieve a reduction in capital expenditures by 662 thousand rubles, and a decrease in operating costs by 293 thousand rubles. per year, which generally provides an annual economic effect on the complex treatment facilities with a capacity of 100,000 m / day in the amount of 372 thousand rubles.

Claims (1)

DEVICE FOR WASTE WATER CLEANING, containing a rectangular aeration tank body, divided by longitudinal partitions into flowing corridors, a mixing corridor perpendicular to it with recirculation chambers equipped with periodic dispersers, a distribution tray with continuous dispersants and a regenerator, characterized in that, with the aim of increasing efficiency of use due to an increase in the rate of consumption of dissolved oxygen, it is equipped with bypass pipelines connected with the distribution tray and the upper part of the recirculation chambers, semi-submerged partitions and flooded spillways located between the longitudinal partitions of the corridor along the liquid with the formation of special containers, and installed in the regenerator, and adjacent to the longitudinal partition of the last along the liquid corridor with a sewer tray, while the bottoms of clarification tanks are made in the form of truncated cones and are equipped with silt airlifts. >