SU1489801A1 - Settler - Google Patents

Abstract

The invention relates to a technique for the treatment of industrial wastewater from mechanical impurities and oils in the ferrous metallurgy, mechanical engineering, petrochemical industry and other branches of the national economy. The purpose of the invention is to increase the cleaning efficiency of oil-containing sewage by improving the hydraulic regime and ensuring the turbulent coagulation process. The sump contains a housing with a central (CP) and peripheral partitions (PP), a central supply and peripheral drainage of the treated water. The PP is made cylindrical, the conic part of which is perforated and has an annular gap relative to the body, and the upper edge of the cylindrical part is made gear. An oil baffle plate with a guide visor is installed coaxially with the PP, an oil sump is located between them and the PP, and the bottom with a slope from the oil sump toward the peripheral outlet is fixed between the PP and the oil bleed shield. The CPU of the upper and lower parts is equipped with tangential taps. The oils trapped by the oil breaker shield and rotating along it to the surface of the water are directed by means of a visor to the oil sump, from which they are removed in a known manner. The double-sided slope of the bottom allows uniform collection of clarified waters from the settling tank, and the installation of a central partition with tangential outlets facilitates the separate collection of oils and clarified waters. 3 il.

Description

The invention relates to a technique for the purification of industrial wastewater from mechanical impurities and oils and can be used in the iron and steel industry, mechanical engineering, the petrochemical industry and other areas of the national economy.

The purpose of the invention is to increase the cleaning efficiency of oil-alumina-containing waste waters by improving the hydraulic regime and ensuring the turbulent coagulation process.

FIG. 1 shows the sump, general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 - sump, axonometrics.

The sump includes a housing 1 with a central 2 and peripheral 3 cylindrical partitions, a central inlet 4 and a peripheral outlet 5 of the treated medium.

The peripheral partition 3 is cylindrical, its conic part is perforated and has an annular gap relative to the housing U and the upper edge 6 of the cylindrical part is made toothed. Concentric to the cylindrical part, there is an oil fender shield 7 with a guide visor 8. The oil collector 9 and the bottom 10 are located between the peripheral partition 3 and the oil fender shield 7, which is installed with a slope from the oil collector 9 in the direction of the peripheral outlet 5.

The central partition 2 is provided with tangential taps 11 located in its upper part at the level of the jagged edge of the peripheral partition 3, and tangential taps 12 in the lower part.

A device 13 for collecting insoluble liquids from a water surface of a known construction can be installed inside the oil collector 9.

The structural elements of the collection and removal of purified water and oils (3, 7, 8, 10) can be made, for example, from light non-metallic materials.

The sump works as follows.

Wastewater containing suspended solids and oils, through the central inlet 4, flows tangentially into the flocculation chamber formed by the central partition 2. At the same time, the largest particles are deposited on the bottom of the chamber, and the tiny particles of suspended matter and floated to the surface of the oil are drained. from the flocculation chamber to the sedimentation zone, either through tangential taps 12 and 11, located at different levels in the central partition 2.

Tangential taps 12 impart a rotational-translational motion to the sewage in the sedimentation zone, which contributes to additional aggregation of mechanical impurities and separation of oils from the sewage, and tangential taps 11 displace the oil film formed on the surface of the water in the flocculation chamber and the sedimentation zone , in the peripheral part of the settler, limited by an oil baffle shield 7.

The oils retained by the oil breaker shield 7 and rotating along it on the surface of the water are retained by the guide canopy 8 located at an acute angle to the movement of water in the sump, and then sent to the oil sump 9, from which it is removed in a known manner, for example the device 13 for collecting insoluble liquids from the surface of the water.

The clarified waters from the sedimentation zone enter the collection zone of purified water formed by the wall of the housing 1 and the peripheral partition 3. The passage through the holes located at different levels throughout the conical part of the peripheral partition 3, the flow of fluid turbulence due to its narrowing and increasing ascending speeds. Turbulent0

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The current flow is the result of superposition of the spectral-continuous pulsations of the velocities of different scales on the main (medium) flow velocity of the liquid, which positively affects the coagulation of the particles.

This contributes to an increase in the efficiency of wastewater treatment by providing a process of turbulent coagulation of suspended solids in the upstream, followed by diverting the formed sediment to the zone of sedimentation through the annular gap formed by the peripheral partition 3 and the sump body. In addition, the implementation of the cylindrical conical peripheral partition 3 prevents oil from entering the clarified water and significantly improves the hydraulic mode of the structure, i.e., increase the utilization of the volume of the settling tank by eliminating stagnant zones and leveling the velocity field of fluid flows in the sedimentation zone, i.e. to eliminate jetting. Purified water, after the tertiary treatment in the zone of collection of purified water, overflows evenly over the toothed edge, which determines the level of water in the sump, enters the zone bounded by the oil-baffle shield 7. In this zone, the purified water is collected and discharged out of the building by gravity because the bottom 10 is made with a slope from the oil collector 9 towards the peripheral outlet 5, which prevents the precipitation of blasted substances. The slope of the bottom 10 is selected depending on the hydromechanical characteristics of the material taken up.

The combination of the flocculation chamber, the sedimentation zone and the purified water collection zone in one facility allows maximum utilization of flocculation mixing, sedimentation in a rotating flow, turbulent coagulation and oil collection, i.e., increase the capacity of the settling tank and increase the efficiency of wastewater treatment.

Tangential taps located in the upper and lower parts of the central partition allow to create rotational-forward movement of sewage, which contributes to an additional coarsening of the suspension and removal of oils from the flocculation chamber and sedimentation zone into the peripheral part of the settler, limited by the oil-breaker shield, followed by retaining the oil with a visor and removing it from the oil sump with a device for collecting insoluble liquids from the surface of the water.

The design elements perform two technological functions, namely, a cylindrical part of the peripheral partition with a gear weir, an oil baffle plate with a visor and a bottom located between them with a two-sided slope, form an oil collector and a catchment tray, allowing uniform separate collection of clarified water and oils and their removal outside the facility, as well as reducing capital and operating costs. The structural elements of the collection and removal of purified water and oils can be made of light precast non-metallic materials, which significantly reduces the metal intensity of the structure while reducing the complexity of the work.

Claims (1)

Invention Formula A settling tank comprising a housing, a central cylindrical partition with a tangential outlet in the lower part, a cylindrical peripheral partition, a central tangential supply and a peripheral drainage of the treated liquid, characterized in that, in order to increase the cleaning efficiency, the oil Q five 0 scale-containing wastewater by improving the hydraulic regime and ensuring the turbulent coagulation process, the peripheral partition is cylindrical, its conic part is perforated and installed to form an annular gap relative to the body, and the top edge of the cylindrical part is serrated, the sump is equipped with an installed coaxial peripheral the partition by an oil breaker shield with a guide canopy, an oil pan located between the peripheral partition and the guide ozyrkom large-lootboynogo shield, and the bottom set between the peripheral wall and the sloping shield maslootboynym from the sump towards peripheral outlet, wherein the central cylindrical partition wall is provided with additional tangen- Cilnius tap mounted at the toothed peripheral edge of the partition. Fig.G FIG. 2 Fig.Z