SU1002249A1 - Apparatus for purifying water with high content of petroleum products - Google Patents

Description

S INSTALLATION FOR CLEANING WATER WITH HIGH CONTENT OF PETROLEUM PRODUCTS

one

The invention relates to installations for the purification of water from petroleum products and mechanical impurities and can be used in many enterprises where it is necessary to purify wastewater containing oil, oil, fats, mineral suspensions and other insoluble substances.

A known installation for flotation sewage treatment, containing a jg device with a hydrocyclone and a flotation cell, a scraper mechanism for removing foam and a device for saturating water with air 1.

However, the presence in the circuit of a separate J5 device for preparing the water-air mixture complicates the design of the apparatus.

The closest to the invention to the technical essence and the achievable result is an installation for flotation sewage treatment, including a water-air mixture preparation unit made in the form of a hydrocyclone with an air pipe installed with the possibility of vertical movement, and a flotation cell 2.

The disadvantage of this installation is low efficiency in the treatment of wastewater with a high content of petroleum products.

The aim of the invention is to intensify the process of wastewater treatment with a high content of petroleum products.

Claims (2)

To this end, a plant for treating water with a high content of petroleum products, including a water-air mixture preparation unit, made in the form of a hydrocyclone with an air pipe, and a flotation cell, is equipped with a petroleum product trapping unit with a supply pipe in the form of a diffuser, a device for collecting and draining oil products and a pump To discharge the water, the hydrocyclone is provided with additional air pipes and a coagulum tank with a coagulum supply pipe located in the center of the hydrocyclone and having a diaphragm for regulating the flow rate. It is advisable to install air pipes in a hydrocyclone around the ring and run in the lower part with inclined outer walls. FIG. 1 shows a plant for treating water with a high content of petroleum products, a general view; in fig. 2 — a floating oil recovery unit; in fig. 3 - node for the preparation of water-air mixture. The installation contains an assembly 1 for collecting floating oil products, serving as a receiving tank, with an upper square part 2, a conical bottom, an inlet made in the form of a diffuser, a device for catching floating oil products in the form of a half-cut pipe 5 with a front wall 6 and a toothed protrusion 7 by means of a device 8 for turning the trough to the depth of the lower level of floating petroleum products 9. by pipeline 10, an oil collecting tank 11, a pipe with a suction line 12 connected to the top of the cone 13 a centrifugal pump k, na dak tmim pipeline 15, the pressure gauge of the site of preparation of the water-air mixture and the removal of mechanical impurities in the form of a pressure hydrocyclone 17 with a tangential nozzle 18, a cylindrical part 19 | conical part 20, sludge nozzle 21, pipe 22 to discharge sludge water, a bundle of air tubes in the casing 23 placed rotatably and moved to eject air from the atmosphere installed inside the hydrocyclone in the air column area, lock nut 2t flywheel 25 untouchable central reagent tube 2b for ejection and supply of coagulant installed in the middle of the air tubes and having a diaphragm of 27 to: ejection of the ejected coagulant, coagulum tank 28 with pipeline 29 supplying for filling the tank, scale 30 installed on the hydrocyclone cover 31, drain pipe 32, partitions 33, drain chamber 3 for collecting reagent-water-air emulsion, outlet pipe 35, pipe 36 and tangential nozzle 37 for feeding the emulsion to the flotation cell 38, settling chamber 3S, pocket tO for collecting the frothy product of oil, pipeline 1 for diverting oil products to the oil collection tank, pipe 42. for returning oil products to production, pipe 3 to remove purified water and feeding it to the equipment A separate water supply system for the enterprise. The installation works as follows. Sewage of the zod through the inlet pipe enters the site for the collection of petroleum products. Floating oil pipelines (kts are assembled by a device 5 in the form of a half-cut pipe with a front wall 6 with toothed protrusions 7 and diverted by pipeline 10 to an oil collecting tank 11. The depth of the front wall depth is adjusted by means of the device 8 depending on the quantity and thickness of the floating oil products 9 freed from floating for petroleum products, waste water with mechanical impurities is discharged by a suction line 12 and a centrifugal pump 1f through a pipeline 15, on which there is a pressure gauge 16 for measuring the pressure of water, and is fed into hydrocyclone 17. Sewage water enters the hydrocyclone under pressure through a tangentially installed nozzle 18 into the cylindrical part 19. It acquires a spiral-rotating movement. As in conventional hydro-cyclones, the main acting force here is centrifugal force. into two streams, external and internal, rotating in the same direction. In the external - downward flow, the fluid moves downward along the spatial spiral, carrying suspended particles, which d moved by centrifugal force against the inner wall of the conical portion 20 of the hydrocyclone and then removed the slurry through nozzle 21 and conduit 22 is discharged to sludge Samotechnaja pad. The main part of the water in the form of an internal - upstream flow, the inflow of which is limited from the inside by the air column, is carried along by light impurities and moves upward in a spiral. A funnel in the form of an air column is formed along the axis of a hydrocyclone, expanding from bottom to top at a certain taper angle depending on the diameters of the slurry nozzle and drain nozzle. The upper cross-sectional area of the air funnel is usually 0, the cross-sectional area of the drain nozzle. The bundle of air tubes in the casing. 23 is immersed in the zone of the air column. In the zone of the air column the pressure is below atmospheric, therefore air is sucked in (ejected) from the atmosphere. For ejection and supply of coagulum into the hydrocyclone in the middle of the bundle of air tubes, a stationary reagent tube 2b with a diaphragm 27 was installed in the center of the air funnel to regulate the flow rate. At the same time, the bundle of air tubes in the casing can rotate around the central reagent tube and move relative to its height, and their optimum stationary position is established with the help of a nut and lock nut. The lower ends of the air tubes and the end of the central reagent tube are always in the zone of the air funnel, where the pressure is below atmospheric and therefore, respectively, e; Air from the atmosphere and coagulant from the supply tank 28 are injected. A reagent from the dispenser tank enters the coagulum supply tank via the pipe 29. Dosing of coagulum is carried out using a washer-diaphragm 27 with preservation of the calculated level of the reagent solution in the supply tank, fixed by a scale 30, mounted on the hydrocyclone cover 31. The same scale records the calculated position of the height of the upper part of the air tubes in the casing. Then, the ejected air and coagulant from the zone of the air funnel are captured by the upward flow of water, mixed in a spiral motion, transferred through the drain pipe 32 installed on the baffle 33 into the drain chamber Z. The mixing of dispersed ejection air and coagulum with clarified water occurs due to spiral movement of the upward flow and co-flow with high velocity through a small opening between the outer wall of the air tubes, skin 23 and the inner wall of the discharge pipe 32. Reagent-water the air mixture is withdrawn through pipe 35 and tangentially injected through pipe 37 into the flotation cell 38. The last stage of the coagulation process takes place with the simultaneous flotation process, accompanied by coalescence, coarsening and joint floatation of air bubbles forming the aggregates of air bubbles and flooding into the flotation cell. emulsified oil products. The waste water enters the settling chamber 39, where the flotation process continues in the soothing water, and a foam layer containing oil is accumulated on the surface of the water. The foams and oil products formed on the surface of the water are collected in the kQ collection pocket and removed through conduit +1 to the oil tank 11 and returned to the production via nozzle 42. The waste water cleared of petroleum products and mechanical impurities from the settling chamber 39 is removed through its lower part through the nozzle k and is fed into the circulating water supply system of the enterprise. Thus, in the proposed device for the purification of oily wastewater, several operations simultaneously intensifying the whole process with an increase in the cleaning effect occur, the claims 1. Installation for cleaning water with a high content of petroleum products, including a water-air mixture preparation unit, made in the form of a hydrocyclone with an air pipe installed with the possibility of vertical movement and a flotation cell, which is characterized by the fact that, in order to intensify the cleaning process, it is equipped with a catching unit Oil with an inlet in the form of a diffuser, a device for collecting and draining oil and a pump for withdrawing water, the hydrocyclone is equipped with additional air pipes and a coagulum tank with a coagulum supply pipe located in the center of the hydrocyclone and having a diaphragm for controlling the flow. 2. Installation under item 1, that is, so that the air pipe. would be installed in a hydrocyclone around the ring and made in the lower part with inclined outer walls. Sources of information taken into account during the examination 1. USSR author's certificate number 336277, cl. C 02 F 1 / 2i, 1966. 2. USSR author's certificate №, kl.VO C5 / 107,1978 prototype. . Y V N l 4a 4 N M ij. / fug. g