SU1668309A1 - Ultrafiltration unit for separation of dense stable water-oil emulsions - Google Patents

Abstract

The invention relates to the disposal of oil and oil-containing waste water and is intended for the separation of highly stable emulsions, such as spent degreasing solutions. The purpose of the invention is to increase productivity and reduce energy costs. The installation contains a series-connected emulsion collector, a separator with a device for removing the flotation condensate and a membrane apparatus equipped with a system of tubular ultrafilters with electrodes in the form of an anode from an electrochemically insoluble rod arranged axially in each pressure channel of the ultrafilters and the cathode made in the form of a semipermeable conductor layer deposited on the inner surface of tubular ultrafilters. 1 ill., 1 tab.

Description

The invention relates to the disposal of oil and oil-containing wastewater and is intended for the separation of highly resistant emulsions, such as spent degreasing solutions, or coolant, discharged during surface treatment before coating, as well as in cold processing of metals to create closed cycles water use and recovery of recoverable petroleum products.

The aim of the invention is to increase the productivity of the installation while reducing the cost of electricity.

The drawing shows schematically an installation for ultrafiltration separation of highly concentrated, stable emulsions.

The installation comprises an emulsion collector 1, a separator 2, in which a conical-shaped flotation machine 3 is placed with a device 4 for collecting and removing clogged oil products. The separator 2 is connected by pipelines to the circulation pump 5 and the membrane apparatus 6. The membrane apparatus 6 is equipped with a system of tubular ultrafilters 7, on the inner surface of which a semipermeable conductive layer 8 is applied, in each discharge channel of the tubular ultrafilter 7 an axis 9 of electrochemical passive material. The conductive layer 8 is connected to the negative pole of the source 10 of the DC power supply, and the rods 9 by means of a conductor

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11 are connected to the positive pole of this power supply 10.

The anode rods are made of electrochemically passive material, such as stainless steel or lead. The cathode-conductive semipermeable layer is produced by chemical metallization of the glass plastic frame of a tubular ultrafilter by pumping an activation solution through pressure channels under pressure, for example, an aqueous solution containing sodium borohydride, an alkali metal hydroxide, phenolphthalein and dimethylformamide, followed by metallization, for example, ammonia nickel plating solution. Other options for using a conductive semipermeable membrane as a cathode, such as a graphite tubular ultrafiltration element, are possible.

The installation works as follows.

The spent coolant or degreasing solution is supplied to settle in emulsion tank 1, from which water-oil separated from mechanical impurities on the emulsion enters separator 2 and then as it is filled, is fed through a pipeline using a circulation pump 5 to membrane apparatus 6. Under the action of the reverse osmosis pressure in the membrane apparatus 6 on the surface of the semipermeable membrane of the oil on the emulsion is partially divided into a filtrate that has passed through the membrane, the solvent with no komolekul polar detergents and concentrate containing free and emulsified oil and other contaminants from the membrane device which pressurized skimmer 3 flows into the separator 2. When the circulation pump 5 simultaneously supplied electric power to the electrodes ultrafilters.

Intense gas evolution on the surface of the semipermeable membrane leads to a significant mass exchange between the near-membrane space and the core of the flow, which leads to a leveling of the solute concentration in the flow cross section and to exclude the influence of concentration polarization on the membrane process.

The electrogenerated hydrogen and oxygen gases transported by the concentrate stream, released in the floater 3, float free and partially emulsified oils in the upper part, which by means of device 4 are removed from the plant as an oil concentrate, which is recycled. The filtrate from the installation is used for reuse or is discharged into

sewer network. As the filtrate is withdrawn from the plant from the emulsion tank 1 to the separator 2, the emulsion to be separated is supplied to maintain a certain level of water in the floater 3.

Comparative testing of the laboratory unit is carried out.

At the same time, the laboratory unit includes a circulating tank, a circulating pump-dispenser, a separator, the volume of which is designed for 5-20 minutes of concentrate, an ultrafilter, which is a fiberglass tube 2 m long, on the inner surface

which applied a semipermeable layer with a total surface of 0.07 m2, with a pore size of about 500 A. The anode material is stainless steel. Ultrafiltration is subjected to spent cleaning solution with a concentration of emulsified oils up to 5 g / l, solution temperature 30 ± 2 ° C. The reverse osmotic pressure is maintained at 0.2 ± 0.02 MPa. The flow rate of the treated liquid above the membrane surface is 2 ± 0.1 m / s. The current strength on the electrodes is maintained at 150 A / m2. At the same time, 50% of the circulating fluid is passed through the separator, providing flotation for 10 minutes.

The results of the tests

are shown in the table

As follows from the data in the table, the presence of a semi-permeable conductive layer leads to a decrease in the distance between the electrodes in the ultrafilter, to the elimination of the influence of the electrical resistance of the membrane itself, as a result of which the operating voltage is significantly reduced. Moreover, the presence of a semipermeable conducting layer leads to an intense gassing on its surface, therefore, to a decrease in the effect of concentration polarization and an increase in

performance of the membrane process, as well as to the exclusion of electrodes in the separator due to the flotation of oil products with dissolved gas, and not generated by electrodes in the separator.

Thus, the proposed installation allows, in relation to the known one, to increase after 24 hours of operation by 1.4 times the productivity while simultaneously reducing the cost of electricity by 4 times.

Claims (1)

The invention The installation of ultrafiltration separation of highly concentrated stable oil-water emulsions containing sequentially connected collection of emulsions, a separator with a device for separating the flotation condensate and a membrane apparatus equipped with a tubular filter system and an electrode system, and the anode is made rod 0 and installed inside a tubular filter, and the cathode is placed on one of the surfaces of the tubular filter, characterized in that, in order to increase productivity and reduce energy costs, the anode is made of an electrochemically insoluble material, and the cathode is made in the form of a porous layer of electrically conductive material and is placed on the inner surface of the tubular filter.