RU2032472C1 - Device for waste water treatment - Google Patents

Abstract

FIELD: purification of waste water, mainly oil-containing flows. SUBSTANCE: device has housing and rotor mounted inside it on drive shaft. Rotor has two disks 7 and 8 mounted one above other forming chamber 9 which is brought in communication with waste water supply branch pipe 2 and two non-rigid taper partitions 10 and 11 whose lesser bases are freely suspended from disks forming circular slit 12 in between them. Chamber 9 is provided with seal 13 between disks for sealing the chamber relative to waste water supply branch pipe 2 in which gas discharge branch pipe 3 is mounted. Secured to lower disk 8 is circular partition 16 forming passage 15 for waste water together with upper disk 7. Height "a" of this passage is determined by equation a = A·(πD)², m, where A is constant, cu.m and D is inner diameter of circular partition, m on the condition of flowing of oil and water and entrapping of gas discharged via branch pipe 3. Separation of oil and water is effected in circular slit 12 between partitions 10 and 11 of rotor due to high density of water and high viscosity of oil which coalesces with partition 11. EFFECT: enhanced efficiency. 2 dwg

Description

 The invention relates to techniques for wastewater treatment, mainly oil-containing effluents, and can be used to separate oil sludge from treatment plants.

 A device for treating wastewater is known, comprising a housing with nozzles for supplying wastewater and discharging separated fractions, a rotor mounted in the housing on the drive shaft, including two disks mounted one above the other with the formation of a chamber connected to the sewage nozzle between them, and two conical non-rigid partitions freely suspended on the disks with a smaller base with the formation of an annular gap communicated with the camera between the disks.

 The disadvantage of this device is the low quality of treatment during the separation of oil sludge at treatment facilities.

 The purpose of the invention is improving the quality of cleaning.

м где А константа, м³, D внутренний диаметр кольцевой перегородки, м.The goal is achieved in that the chamber between the disks is provided with a seal to seal it relative to the sewage supply pipe, the gas discharge pipe is installed in the latter, and an annular partition is attached to the lower disk, forming a channel for the passage of sewage with the upper disk, the height of this channel being determined by the equation
a

m where A is a constant, m ³ , D is the inner diameter of the annular partition, m

 In the chamber between the disks, gas is separated with its removal through the pipe, and the annular partition allows water and oil to pass and the height of the channel formed by the annular partition is not enough for gas to pass, and the channel height is determined by the above equation. Gas separation improves the separation of effluents into oil and water.

 In FIG. 1 shows a longitudinal section of a device; in FIG. 2 camera node (enlarged).

 A wastewater treatment device comprises a housing 1 with a nozzle 2 for supplying wastewater and discharging separated fractions: a nozzle 3 for venting air, a nozzle 4 for venting water and a nozzle 5 for extracting oil, mounted in the housing 1 on the drive shaft 6, a rotor including two disks 7 and 8 mounted one above the other with the formation of a chamber 9 between them, connected with the nozzle 2 for supplying wastewater, and two cone-shaped non-rigid partitions 10 and 11, freely suspended on the disks 7 and 8 with a smaller base with the formation of an annular gap 12, connected with the chamber 9 between claims 7 and 8. The chamber 9 between the disks 7 and 8 is equipped with a seal 13 for sealing it relative to the sewage supply pipe 2, the gas discharge pipe 3 is installed in the latter, and an annular partition 14 is attached to the lower disk 8, forming a channel 15 with the upper disk 7 for the passage of wastewater, and the height "a" of this channel 15 is determined by the equation. The height "a" of the channel 15 is set with a screw 16. The housing 1 is equipped with a guide cone 17.

 A device for wastewater treatment is as follows.

According to the results of the analysis of wastewater, their composition is determined in volume percent, for example, at a capacity of 120 m ³ / h, oil content of 1% water 9% and gas 90% at a rotation speed of 3000 rpm and diameter D = 0.3 m according to the equation flow rate, the value of the constant "A" will be 0.00006 m ³ and after substitution into the equation, the height of the channel "a" equal to 0.0007 m or 0.7 mm is obtained, which is set with screw 16, i.e. prepared the device for work. Waste water through the pipe 2 enters the chamber 9 between the disks 7 and 8, rotating on the drive shaft 6. The channel 15 between the annular partition 14 and the upper disk 7 in the state at its height "a" let only water and oil pass through and retains gas, the density of which a hundred times less than the density of water and oil and it is separated in the chamber 9 and discharged through the pipe 3. The mixture of water and oil passes through channel 15 into the annular gap 12 between the partitions 10 and 11. The density of water is much higher than the density of oil and it is located in the annular gap in the outer layer and when de from under the baffle 10 is torn off from the oil layer and discharged along the guide cone 17 from the housing 1 in the spray torch along the tangential branch pipe 4. The oil engages with the baffle 11 and moves along its outer surface to the lower edge and when the mass of oil is reached when its inertia force becomes greater than the force of adhesion of oil to the material of the partition 11, separation occurs and oil in the spray torch is removed from the housing 1 through the tangential pipe 5.

 The device allows you to return to the production of oil from sludge, i.e. prerequisites are created for its disposal.

Claims (1)

DEVICE FOR WASTE WATER TREATMENT, comprising a housing with sewage inlet and outlet of separated fractions, a rotor mounted in the housing on the drive shaft, including two disks mounted one above the other with the formation of a chamber connected to the sewage inlet, and two cone-shaped non-rigid partitions freely suspended on the disks with a smaller base with the formation of an annular gap communicated with the camera between the disks, characterized in that, in order to improve the quality of cleaning, the camera between the disks is equipped with the wife is sealed for hermetic sealing relative to the sewage inlet pipe, the gas outlet pipe is installed in the latter, and an annular partition is attached to the lower disk, forming a channel for the passage of sewage with the upper disk, the height a of this channel being determined by the equation

where A is a constant, m ³ ;
D inner diameter of the annular partition, m

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