SU941299A1 - Apparatus for purifying effluents - Google Patents

Description

(W) DEVICE FOR CLEANING WASTE WATER

Claims (2)

The invention relates to a technique of physicochemical and mechanical purification of industrial wastewater and can be used in the chemical food industry, in particular, the sugar industry for purifying laurel water from black carbon and emulsified resins in the circulating water supply system (water after washing the carbonated gas from a lime gas furnace) , transport and washing water during the additional treatment in circulating water supply systems from finely dispersed suspensions, surfactants - saponins, as well as to compact the sediment x waters. The closest to the proposed technical solution is a device consisting of a cylindrical body with a conical bottom, successively located tanks for collecting foam, a device for distributing waste water saturated with air, a flotation cell, devices for discharging purified liquid, foam and The sludge of the installation is the incomplete use of the volume of the flotation cell due to the imperfection of the wastewater supply device, the removal of the clarified liquid as a result of which it is not reached maximum DUTY efficiency of wastewater treatment. The purpose of the invention is to increase the efficiency of the wastewater treatment process. This goal is achieved by the fact that the foam collection and distribution chambers are equipped with foam-lifting and water inlets, which are equally spaced along the entire horizontal surface of the chambers, while the foam collecting chambers and the distribution chamber are connected to the flotation cell, respectively, by the foam-lifting and water branch pipes. 39 A is also a device for draining water made sectioned, at;) T (each section is equipped with water collection pipes with cylindrical chambers in their upper suit. Moreover, the device for removal of sediment is equipped with a chamber with a nozzle apparatus connected to the foam collection chamber, the nozzle is equipped with an annular valve. Fig. 1 shows a device, a longitudinal section, and Fig. 2 is a section A-A in Fig. 1. The device consists of a cylindrical body 1 with a conical bottom 2. In the cylindrical body 1 are located one under the other chamber d l collection of foam 3. distribution chamber k and flotation chamber 5. The chamber for collecting foam 3 is connected to the flotation chamber 5 by the foam-lifting pipes 6 passing through the distribution chamber 4 and uniformly located over the entire horizontal area.The distribution chamber k is connected to the flotation chamber 5 water inlets the nozzles 7 are also evenly spaced throughout the whole area.The foam collection chamber 3 and the distribution chamber L are connected by between themselves windows 8, which are evenly spaced around the perimeter of the chamber t and alone window of a cent py this camera. Inside, the center of chamber 4 passes a water supply pipe 9, above which an annular semi-submerged partition 10 is mounted. located in a flotation cell. Re 5 has water intake windows 14, (Evenly distributed over the entire virgin area. At the top of the inlet (the pre-selection ring chamber 11 is equipped with vertical drainage pipes 15 that do not reach over From the top of the collecting ring 11, a catchment ring 16 is attached to the cylindrical housing 1. Equipped with a pipe 17 to drain the clarified water. The upper parts of the drainage pipes 15 are equipped with closed cylindrical chambers 18, each of which is equipped at the bottom a branch pipe with a shut-off valve 4 19i 3 in the upper part — a Pgchtube valve 20. In the inner suit of the lottery chamber 5 there are placed circular tubes 21 having two rows of holes along the entire perimeter, which are located at an angle to the mountains umbrella. Each of the annular tubes 21 is connected to a manifold 22 placed outside the housing 1 by means of tubes 23 equipped with retaining orifices 2k. In the conical bottom 2 there is a nozzle apparatus 25 (hydraulic elevator) consisting of a chamber 2b, a Venturi tube 27, a nozzle 28 with an annular valve 29. At the bottom, the receiving chamber 26 is equipped with a cover 30 with a stuffing box and a clamping screw 31. A tube 32 passes through the cover 30 , fastening to the nozzle 28 and ending with the nipple 33 under the hose. The receiving chamber 26 is connected to the foam chamber 3 of the pipe 3 with the shut-off valve 35. The wastewater treatment device operates as follows. Sewage water from the supply pipe 9 enters distribution chamber i, from which it is directed through flotation ports 7 to the flotation chamber 5. Due to the uniform distribution of water outlets 7 over the entire horizontal surface of the distribution chamber 4, the waste water is evenly distributed over the entire horizontal section of the flotation chambers 5 and moves downstream to the water-collecting annular chamber 11. Towards the movement of the ostomy water in the flotation chamber 5 small air bubbles are emitted, evolving from recycled clarified water, previously saturated with air by a known method at a pressure of 0.4-0.5 MPa. Recirculated water under pressure through the manifold 22 and retaining diaphragm 2k through pipes 23 enters the annular pipes 21 and is evenly distributed through the openings over the entire lower section of the flotation cell. When the pressure is reduced, microbubbles of air are released from the recirculated water, which rise upward to the movement of the original wastewater. When microbubbles of air collide with pollution of the stagnant water (finely dispersed suspensions, soot and emulsified resins), they adhere, and in some cases, there is also an indirect bubble; 1 BeiiHCje gives rise to an air bubble on the particle and following their co-local flooding on the surface of the water in the form of a foamy stack. Having reached the surface with floated substances through the foam, the lifting nozzles 6 enter the foam chamber 3. Due to the inclined bottom of the foam chamber 3 and the vacuum of the foams, it is sucked through pipe 3 into the receiving chamber 26, from which it is transported by the nozzle apparatus 25 and removed. Sewage water, as it moves downward, frees up the accumulations and reaching the bottom of the flotation chamber 5 through the water intakes, the window T enters the annular water collecting chamber 11, then rises through the vertical drainage pipes 15 and pours into the closed cylindrical chambers 18, from which with valves 19 enters the catchment ring tray 16, from where it is removed through the U nozzle. With open valves 19 and 20, the clarified water is poured out due to the difference in the levels between the water supply pipe 9 and the drainage pipe. bout 15. If necessary, the amount of clarified water which otvoditc one of the tubes 15 may be increased by providing a siphon. To do this, close the valve 20, after discharging the air from the cylindrical chamber 18 through the valve 20, the latter closes and opens the valve 19, which regulates the amount of clarified water being withdrawn from sector 13. Such a device allows for uniform screening of clarified water and automating this process. . Part of coarse suspension, which for one reason or another did not come together, is deposited in the conical bottom 2, from which periodically or permanently (with a corresponding opening of the valve 29) is removed by means of a nozzle device 25. Opening and closing of the ring valve 29 is carried out using a clamping screw 31 For the operation of the nozzle apparatus 25, working water is supplied through pipe 32 at a pressure of 0; L-0.5 MPa; as a result, a vacuum is formed in the receiving chamber 26, which helps to remove foam from the flotation materials, as well as 2. The use of the proposed device for the treatment of wastewater allows for the effective purification of wastewater from highly dispersed suspensions and emulsified particles and to more fully utilize the said waters in the systems of the circulating water supply of the sugar factory. The application of the proposed device helps to reduce the amount of sugar plant wastewater to the mass of beets, reducing capital costs and operating costs for the purification of these waters by the biochemical method. Claim 1. A sewage treatment device comprising a cylindrical body with a conical bottom, successively located one below the other foam collection chambers, distribution, flotation with a device for introducing a water-air mixture, a device for draining purified liquid, foam and sludge the fact that, in order to increase the cleaning efficiency, the foam collection chamber and the distribution box are equipped with water inlet and foam-lifting nozzles evenly spaced along the entire horizontal surface rhnosti chambers, said chamber for collection and foam distribution chamber connected to the flotation chamber and respectively penopodemnymi vodoopusknymi nozzles. 2. The device according to claim 1, wherein the water diversion device is partitioned, each section being provided with water collecting pipes with cylindrical chambers in their upper part. 3, the apparatus according to claim 1, wherein the device for draining the precipitate is provided with a cavern with a nozzle apparatus connected to the foam collection chamber, while the nozzle is provided with an annular valve. Sources of information, rintye taken into account during the examination 1. Matsnev A.I. Wastewater treatment by flotation. Kiev, Budivelnik, 976, with. 25-26. Mtvf cmttiHfv / f / tt ftitfvitiJifft e HfHfu and fft / MVM 0ut.2