RU2038318C1 - Device for treatment of sewage - Google Patents

Abstract

FIELD: treatment of sewage. SUBSTANCE: device has a housing with cover and sloped bottom, conical partition to form separation chamber, light fractions collecting chamber with heater, water-air mixture inlet unions, those for taking clean water and products to be cleaned. There is a floatation chamber provided with a conical tip having a spiral-shaped chute on its inner surface, and rotor with vertical slots. The floatation chamber is coaxial relative to the separation chamber and has its lower edge located under the lower edge of separation chamber. EFFECT: higher efficiency and simpler design. 1 dwg

Description

 The invention relates to a device for treating wastewater from fats, oils, petroleum products, suspended solids and can be used in the oil refining, oil and fat, chemical industries, as well as for the purification of domestic wastewater.

A device for collecting fat from wastewater is known, which provides for the forced separation of mechanical impurities and oil and fat fractions due to the centrifugal forces of the fluid flow. The device includes a housing with a lid and an inclined bottom, a partition placed inside the housing in the form of a reverse truncated cone, forming a separation chamber, a light fraction collection chamber with a heater installed on the housing lid, process pipes [1]
The disadvantage of this device is the low cleaning efficiency, since the design of the device does not provide for the primary treatment of water from oil and fat contaminants and is effective only at high levels of fat and oil in the effluent.

 The purpose of the invention is to increase the productivity and efficiency of wastewater treatment from oil and fat contaminants and mechanical impurities.

 The drawing shows a device, a longitudinal section.

 The wastewater treatment device comprises a housing 1 with a conical bottom 2 and a cover 3, a flotation chamber, consisting of a conical nozzle 4, fixed by shoulders 5 on the inner surface of the housing 1, the rotor 6 and the heater 7 mounted on the cover 3. The conical partition 8, forming the separation chamber is installed coaxially with the conical nozzle 4. Holes 9 are made in the shoulders 9. The nozzle 4 and the conical partition 8 have the interior of the housing 1 divided into a chamber 10 for collecting light fractions and a chamber 11 for collecting heavy fractions.

 A shaft 13 is mounted on the bearings 12 in the cover 3 of the housing 1, on which the rotor 6 is fixed. Vertical grooves 14 are made on the rotor 6, and a spiral groove 15 is provided on the inner surface of the conical nozzle 4.

 The cover 3 of the housing 1 with a heater 7, which acts as an antifoam, is equipped with a heater 16 and a pipe 17 for draining fat. In the cover 3, holes 18 are made for air to escape from the light fraction collection chamber 10.

 A rubber hose 20 attached to the bracket 21 is connected to the pipe 19 for the removal of purified water. The bracket 21 has the ability to move vertically relative to the housing 1 using the groove 22 and the screw 23.

 A crane 24 is installed on the housing 1 to maintain the required inlet velocity of the air mixture. The bottom of the bottom 2 of the housing 1 is equipped with a pipe with a valve 25 for outputting solid sediment and supports 26.

 The crane 24 through the elbow 27 is connected to the gas saturation chamber 28, which is equipped with a nozzle 29 for supplying sewage oxides and a pipe 30 for supplying air to the mixing chamber 31. An aerator 32 is installed in the mixing chamber 31.

 A device for wastewater treatment is as follows.

 Waste water through the pipe 29 enters the mixing chamber 31, and through the pipe 30 to the aerator 32 serves air. Air pressure is slightly lower than water pressure. The mixture of wastewater with air enters the gas saturation chamber 28, from which through the elbow 27 and the crane 24 into the spiral trough 15 of the conical nozzle 4. When the mixture moves along the trough 15 under the action of centrifugal forces, heavy mechanical impurities are discarded to the periphery of the trough 15, and light oil and fat impurities together with air bubbles are squeezed out of the stream and fall into the grooves 14 of the rotor 6.

 The rotor 6 acquires a rotational movement, and light oil and fat impurities along the grooves 14 rise into the chamber 10. The movement of light impurities is close to the laminar one, since the upward flow is isolated from the liquid being cleaned by the walls of the grooves on three sides 14. The air bubbles released from the flow capture particles of fat and how would repeatedly increase the light fraction, forming a foam.

 Moving along the grooves 14, the light fraction in the form of foam enters the chamber 10 and is in contact with the hot surface of the heater 7.

 As a result of heating, the volume of the foam bubbles increases, they burst, and the fat particles, also in contact with the heater, melt and fall onto the surface of the liquid in the chamber 10, the level of 33 of which is regulated by the position of the bracket 21, and the fat is removed through the pipe 17. Air through the holes 18 leaves the device outside.

 The removal of the light fraction is facilitated by the rotation of the rotor 6, caused by the movement of the fluid flow in a spiral groove 15.

 The rotation of the rotor 6 transfers the rotational movement of the fat fraction in the chamber 10. At the walls of the chamber 10, the level of the oil and fat fraction rises, as a result of which it is removed from the device through the pipe 17.

 Excess water that has risen together with the light fraction into the chamber 10 through the openings 9 of the shoulders 5 fall into the heavy fraction collection chamber 11, and the descending and ascending flows of the purified liquid are separated by a partition 8.

 Mechanical impurities settle on the bottom 2 of the housing 1, from where together with part of the water periodically descend through the pipe with valve 25.

 The purified water from the heavy fraction collection chamber 11 is discharged through a pipe 19 and a rubber sleeve 20.

 The position of the bracket 21 with the rubber sleeve 20 fixed on it relative to the housing 1 controls the level 33 of water in the chamber 10 of the light fraction, thereby controlling the quantity, and therefore the quality, of the fat fraction removed through the pipe 17.

Claims (1)

 DEVICE FOR WASTE WATER TREATMENT, including a housing with a lid and a sloping bottom, a partition placed inside the housing in the form of a reverse truncated cone, forming a separation chamber, a collection chamber for light fractions with a heater installed on the housing cover, sewage pipes, purified water and separation products , characterized in that, in order to increase the productivity of the device and the efficiency of cleaning from oil and fat and mechanical impurities, it is equipped with a flotation chamber, consisting of a conical nozzle with a spiral groove on the inner surface and the cone-shaped rotor with grooves along the generatrix, while the flotation chamber is placed coaxially with the separation chamber, and its lower edge is located below the lower edge of the separation chamber.

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