RU2723862C1 - Apparatus for treating waste water from oil products - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industries.SUBSTANCE: invention relates to environmental protection, in particular to treatment of surface waste water of enterprises specializing in recycling oil sludge and oil-containing wastes. Plant for purification of waste water from oil products comprises horizontally located in rectangular cross-section housing 1, divided by vertical partitions 2, 13, 3 into communicating chambers 6, 11, 7 and containing branch pipe for supply of purified water 4 and purified water discharge branch pipe 5 installed in upper parts of end walls, respectively, first and second communicating chambers 6 and 7, coarse filter 8, post-treatment sorption filter 9 arranged in last chamber 7, wherein in the upper part of the first in the direction of movement of the purified water chamber 6 on the upper vertically arranged partition wall 2 is fixed a channel for removal of oil layer 10, coarse filter 8 is located horizontally in the second in the direction of motion of the purified water chamber 11 between upper 3 and lower 13 partitions, is closed from above by horizontal limiting grid 14 and has rectangular shape in cross section, in internal central part of coarse filter 8 there is mixing element 12 fixed in upper part of second chamber 11, wherein in its lower part on the side of last chamber 7 there is a vertical limiting grid 15, the height of which is 1/3 of the height of the upper vertical partition wall 2 or 3, and the post-treatment sorbent filter 9 made in the form of a cylinder is installed on the horizontal support grid 16.EFFECT: technical result of the invention is higher efficiency of treating waste water from oil products.3 cl, 1 dwg

Description

The invention relates to the field of environmental protection, in particular to the treatment of surface wastewater of enterprises specializing in the disposal of oil sludge and oily waste.

A device for treating surface wastewater (RF Patent for the invention No. 2540620 A device for treating surface wastewater / Schukin I.S., Melekhin A.G .; Publ. 10.02.2015. Bull. No. 4), including a filter or sedimentation chamber designed for pre-treatment of coarse particulate contaminants, a cleaning unit containing a filter charge in the form of a mixture of soil with zeolite with a zeolite amount of 30-50% of the total load, and under the filter load there is a tank with a bulk, hollow, deformation-resistant loading for the accumulation of purified sewage water in the form of gravel or gravel with a voidness of up to 50%.

The disadvantage of this device is the low efficiency of cleaning from petroleum products in the treatment of surface wastewater of enterprises specializing in the disposal of oil sludge and oily waste.

A known installation for wastewater treatment from oil products (RF Patent for utility model No. 129093 / Voznesensky V.N .; Publ. 06/20/2013. Bull. No. 17), made in the form of a horizontally arranged, having a cylindrical or rectangular shape in cross section divided by vertical partitions into communicating chambers, and containing a pipe for supplying purified water and a pipe for discharging purified water installed in the upper parts of the end walls of the first and last communicating chambers, a coarse filter, a sorption aftertreatment filter placed in a chamber containing a pipe for treating purified water .

The disadvantage of this installation is the low efficiency of purification from petroleum products in the treatment of surface wastewater from enterprises specializing in the disposal of oil sludge and oily waste, due to the lack of a pre-treatment chamber for the oil layer.

The objective of the invention is to improve the installation for wastewater treatment from petroleum products.

The technical result of the invention is to increase the efficiency of wastewater treatment from petroleum products.

The technical result is achieved by the fact that the installation for wastewater treatment from petroleum products, containing a horizontally located rectangular cross-sectional casing, separated by vertical partitions into communicating chambers and containing a pipe for supplying purified water and a pipe for removing purified water, are installed in the upper parts of the end walls respectively, of the first and last communicating chambers, a coarse filter, a post-treatment sorption filter placed in the last chamber, while in the upper part of the first chamber along the direction of the purified water, a trench for removing the oil layer is fixed on the upper vertical partition, the coarse filter is located horizontally in the second chamber along the movement of the water to be purified between the upper and lower partitions, it is closed from above by a horizontal restrictive grating and has a rectangular cross-section, in the inner central part of the coarse filter is placed mixing an element fixed in the upper part of the second chamber, while in its lower part from the side of the last chamber a vertical restriction grid is installed, the height of which is 1/3 of the height of the upper vertical partition, while the sorption after-treatment filter made in the form of a cylinder is installed on the horizontal support grid.

Coarse filter loading is a modified sorbent from ash and slag waste. A horizontal restriction lattice with a mesh size of 0.16 × 0.16 mm contributes to the retention of sorbent particles in the second chamber in the direction of the purified water.

The installation in the upper part of the first chamber along the movement of the water to be purified on the upper vertically located partition of the trench for removing the oil layer allows the upper oil layer, representing an oil emulsion with an oil content of 85-95%, to be extracted from the surface wastewater entering the treatment. The density of the oil layer is less than the density of wastewater, therefore, accumulating on its surface, the oil layer flows into the trench and is discharged from the installation, which leads to an increase in the efficiency of wastewater treatment from oil products.

Installation in the second chamber along the movement of the purified water between the upper and lower partitions of the horizontal restriction grid with a mesh size of 0.16 × 0.16 mm and in the lower part of the chamber containing the coarse filter, in the inner central part of which there is a mixing element fixed in the upper part of the second chamber, from the side of the chamber containing the pipe for draining purified water, a vertical restriction lattice with a mesh size of 0.16 × 0.16 mm helps to maintain the mass of the sorption load during operation of the mixing element fixed in the upper part of the second chamber, will increase the speed mass transfer between the sorbent and wastewater and to reduce the time of static and dynamic adsorption between oil products and the sorbent, which leads to an increase in the efficiency of cleaning emulsified oil products and oil products in the free (floating) state over the entire volume of wastewater.

The installation of a post-treatment sorption filter placed in the last chamber, made in the form of a cylinder, on a horizontal support grid with a mesh size of 10 × 10 mm, improves the efficiency of purification from emulsified oil products throughout the volume of water being purified by post-treatment of purified water by passing through small pores of tissue fibers sorbent.

Thus, the set of essential features allows you to achieve the desired result.

Figure 1 shows the installation for wastewater treatment from petroleum products, consisting of a housing 1 made in the form of a horizontally arranged, having a rectangular cross-section in cross section. The housing 1 is divided by vertical partitions 2, 13 and 3 into communicating chambers 6, 11 and 7. The housing 1 comprises a pipe for supplying purified water 4 and a pipe for discharging purified water 5 installed in the upper parts of the end walls of the first 6 and last 7 communicating chambers, respectively. In the upper part of the first chamber in the direction of purification of water 6 on the upper vertically located partition 2, the trench for removing the oil layer 10 is fixed. In the second chamber of the chamber 11, located between the upper 3 and lower 13 partitions, which is closed from above by a horizontal restrictive grating 14 with a size mesh 0.16 × 0.16 mm in the form of horizontally arranged, having a rectangular cross-section, a coarse filter 8. The coarse filter 8 is filled with a filter load of a modified sorbent from ash and slag waste. In the inner central part of the coarse filter 8 there is a mixing element 12 fixed in the upper part of the second chamber 11. In the lower part of the chamber 11 containing the coarse filter 8, on the side of the chamber 7 containing the pipe for draining purified water 5, a vertical restriction grill is installed 15 with a mesh size of 0.16 × 0.16 mm, the height of which is 1/3 of the height of the vertical partition 3. The sorption filter aftertreatment 9, located in the last chamber, made in the form of a cylinder, is mounted on a horizontal support grid 16 with a mesh size 10 × 10 mm.

The inventive installation for wastewater treatment from petroleum products works as follows.

The surface wastewater treated, contaminated with oil products, through the inlet pipe of the treated water 4 enters the first chamber 6, where the oil layer flows into the chute of the drain of the oil layer 10, the floating oil layer is separated due to the density difference, which is an oil emulsion with an oil content of 85-95 % In the upper part of the first chamber in the direction of the purified water, on the upper vertically located partition 2, a chute for removing the oil layer 10 is fixed. After that, the oil layer is discharged into a special container (not shown in the drawing). Next, the flow of purified water, enveloping the vertical partition 2, enters the second chamber 11 in the direction of the purified water, where it passes through the horizontal parting grid 14 located between the upper 3 and lower 13 and closed from above with a mesh size of 0.16 × 0.16 mm, contributing to the retention of the sorbent in the filter, coarse filter 8. As a filter load of the coarse filter 8, a modified sorbent from ash and slag waste obtained by drying and calcining is used. A mixing element 12, mounted in the upper part of the second chamber 11 and placed in the central part of the coarse filter 8, mixes the sorbent in order to intensify the interaction between the sorbent and purified water. Emulsified oil products due to adsorption forces are retained on the surface and in the pores of the sorbent. Next, the flow of purified water through a vertical restriction grid 15 with a mesh size of 0.16 × 0.16 mm, which contributes to the retention of the mass of the sorption charge in the coarse filter 8 in the chamber 11 during operation of the mixing element 12, the height of which is 1/3 of the height of the vertical partitions 3, passes into the lower part of the chamber 7, and then enters the inner part of the sorption filter of the aftertreatment 9, located in the last chamber, made in the form of a cylinder and mounted on a horizontal support grid 16 with a mesh size of 10 × 10 mm. The walls of the sorption filter 9 consist of a carbon-fiber sorbent BUSOFIT, passing through which the water to be purified is subjected to final purification from oil products by filtering through the small pores of the fabric fiber of the BUSOFIT sorbent and discharged through the outlet pipe 5.

Claims (3)

1. Installation for wastewater treatment from petroleum products, containing a horizontally located rectangular cross-sectional body, separated by vertical partitions into communicating chambers and containing a pipe for supplying purified water and a pipe for removing purified water installed in the upper parts of the end walls, respectively, of the first and the last communicating chambers, a coarse filter, a sorption purification filter placed in the last chamber, characterized in that in the upper part of the first chamber along the direction of the purified water, a trench for removing the oil layer is fixed on the upper vertically located partition, the coarse filter is located horizontally in the second in the direction of the purified water, the chamber between the upper and lower partitions is closed from above by a horizontal restrictive grill and has a rectangular cross-section, in the inner central part of the coarse filter there is a mixing element fixed in the upper part of the second chamber, while in its lower part, from the side of the last chamber, a vertical restriction grid is installed, the height of which is 1/3 of the height of the upper vertical partition, while the sorption after-treatment filter, made in the form of a cylinder, is mounted on a horizontal support grid. 2. Installation according to claim 1, characterized in that the coarse filter loading is a modified sorbent from ash and slag waste. 3. Installation according to claim 1, characterized in that the horizontal restriction lattice and the vertical restrictive lattice have mesh sizes of 0.16 × 0.16 mm, and the horizontal support lattice has a mesh size of 10 × 10 mm.

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