SU1758014A1 - Device for treatment of oil-containing waters - Google Patents

Abstract

The invention relates to the treatment of oil-containing water. The device comprises a housing with a bottom, a cleaning unit in the form of a frame with transverse and longitudinal MVI channels arranged in a spiral around the central tube, between the turns of which the coalescing material is placed. The upper perforated and lower discs define the cleaning unit, respectively, on top of vi below. The oil tank is hermetically attached to the upper disc and is connected to the suction nozzle of the jet apparatus. A conical hydrocyclone is installed in the cavity of the central pipe, the suction pipe of which is connected to the oil-containing water supply pipe. On the upper base of the oil collector there is a membrane block inclined to the horizontal, the receiving cavity of which is connected to the hydrocyclone outlet. Using a hydrocyclone and a membrane block allows cleaning of mechanical impurities and increasing the cleaning capacity to 3-7 .1 zp. f-ly, 1 ill. (L

Description

The invention can be applied to clean ship oil-containing water, to clean waste water from automobile enterprises, drilling platforms and other industries where waste water containing oil products is formed,

A device for membrane separation of components with different molecular weights present in a liquid is known, having several successively spaced chambers separated from one another by semi-permeable membranes.

The disadvantages of the known device are its low productivity, as well as low separation efficiency at high concentrations of petroleum products.

The closest is a device for purifying oil-containing water, the separator of which is a device for purifying oil-containing water, comprising a housing with a bottom, a flow distributor forming a contaminated water cavity with an upper part of the housing, a cleaning unit in the form of a frame coalescing material, bounded above by a perforated disc, pipelines for removal of petroleum products and purified water, equipped with an oil collector, tightly attached to the upper surface of the pen orirovannogo disk suction device connected to the cavity and neftesbornikom contaminated water attached to the bottom surface of the central disc

Vi ate

00

about

a pipe and a horizontal partition, hermetically attached to the housing under the cleaning unit to form purified water with the bottom of the housing body, communicating with the central pipe, while the frame is made with transverse and longitudinal channels and is arranged in a spiral around the central perforated pipe, and the coalescing material is placed between the turns frame.

However, this device has the following disadvantages: to avoid clogging of the carcass channels and the interstitial space with mechanical impurities, it is necessary to install an additional cleaning device — a mechanical impurity filter; direct communication of the contaminated water cavity with the cleaning filtering and coalescing block results in the rapid loss of the cleaning capacity of its material due to impact loads of petroleum products on the coalescing material due to its selective ability to In principle, it is not possible to obtain, after cleaning, water with oil content less than 5-10

million

The purpose of the invention is to increase the degree of cleaning and increase the service life of the cleaning unit.

This goal is achieved in that the device comprising a housing with a bottom, a cleaning unit in the form of a frame with spiral and longitudinal channels arranged in a spiral around the central tube, between the turns of which is placed the coalescing material, the upper perforated and lower discs bounding the cleaning unit from above and at the bottom, an oil reservoir, tightly attached to the upper disk, pipes for supplying contaminated water and draining oil products and purified water, an inkjet apparatus connected to the oil collector, and a conical hydro cyclone installed in the cavity of the central pipe with a guide device mounted on the upper disk and a central oil return pipe with a cone at the end, the outlet of which communicates with the oil tank located on the upper base of the oil tank with a slope of the horizontal diaphragm unit divided by vertical partitions with openings to the receiving cavity of clean and recirculating water; a pump, the suction nozzle of which is connected to the outlet nozzle of a hydrocyclone, and the pressure one - receiving Noah hollow membrane block

an additional pipe for discharging the purified water of the membrane unit, and a horizontal partition installed under the cleaning unit to form with the bottom

the hull and the bottom of the hydrocyclone of the sludge trap connected to the central tube. The hydrocyclone suction inlet is connected to the oily water supply inlet, and the working section of the jet device is connected to the recuperating water cavity of the membrane unit. The upper base of the oil collector and the membrane unit are installed at an angle of 25-30 ° to the horizontal plane.

5 The drawing shows the proposed device a general view.

The device for cleaning oily water includes a housing 1 with a nozzle 2 supplying contaminated (treated water),

0 pipe 3 removal of petroleum products from the cavity of the oil tank 4 and pipe 5 clean water from the cavity of the treatment unit 6. On the upper base 7 of the oil tank 4 is placed the housing of the membrane unit 8, inside

5 of which is placed a package of semipermeable membranes 9, with the help of a vertical partition 10 with openings separated from the receiving cavity 11, a vertical partition 12 with openings from the cavity 13

0 clean water and a vertical partition 14 with openings — from the cavity 15 of recirculating water. The membrane unit is made of partitions 10, 12 and 14 and a set of frames 16, between which are membranes 9.

5 To remove the water purified in the membrane unit, the nozzle 17 serves, and the water supplied to the purification unit 6, the nozzle 18, which is connected to the pipe 19 with the jet apparatus 20. The last pipe 21 and 22 is connected to the water supply pipes 23 and 24 from the oil collector 4 and from the apparatus 20 into the block 6. The block 6 is made in the form of a filtering element, which is a composition of filtering-co-5 lecter material 25 and a coarse-bulk volume frame 26 having longitudinal and transverse channels. The filter element is wound in a spiral around the central tube 27.

The upper part of the block 6 is bounded by a perforated disk 28, which is simultaneously the lower base of the oil reservoir 4. The lower part of the block 6 is limited by a disk 29 attached to the casing 1 and forming an annular gap 30 with the pipe 27. The disk 28 is attached to the pipe 27 inside which is mounted with a clearance, a hydrocyclone 31, the guiding apparatus 32 of which is fixed on the disk 28, while the peripheral part of the cavity of the apparatus 32

communicated with the cavity of the pipe 27 in its upper part by means of an annular gap 33. The suction nozzle 34 of the hydrocyclone 31 is connected to the nozzle 2 for supplying oil-containing water, and the outlet nozzle 35 of the hydrocyclone 31 is connected to the pump 36. Inside the hydrocyclone 31, the oil outlet nozzle 37 is coaxially mounted cone 38. The lower part of the cleaning unit b is limited by an impermeable horizontal partition 39, tightly attached to the housing 1 and the pipe 27, which with the bottom of the device and the housing of the hydrocyclone 31 forms a cavity 40 of the sludge collector, equipped with With a pipe 41 to remove sludge, and with a disk 29, a pipe 27, and a housing 1, a cavity 42 of contaminated water.

The device works as follows.

Oily water through the nozzles 2 and 34 enters the guiding device 32. Due to the tangential injection of fluid, the flow is twisted and under the influence of centrifugal forces, mechanical impurities, as heavier, are distributed in the peripheral part of the cavity of the apparatus 32 and through the gap 33 between the cone 32 para 32 and pipe 27 enters the cavity of pipe 27 and further into the sludge collector 40. Oil products, air bubbles, which are always present in the water being purified, are concentrated in the central part of the apparatus 32 and the hydrocyclone body 31 and due to the gravitational forces and, as well as the vacuum created by the apparatus 20, float into the oil tank 4 via the nozzle 37 with the cone 38, from where it is removed from the device through the nozzle 3. Due to the inclination of the upper base of the oil collector at an angle of 25-30 ° to the horizon, favorable conditions are created for the self-floating of oil particles to the highest point of the oil collector, where the branch pipe 3 of oil products is located, while no stagnant zones with accumulations of oil products are formed in the oil collector, which allows the device to be used without decreasing the efficiency in pitching conditions on ships. The water is purified from mechanical impurities, air and large particles of petroleum products in a hydrocyclone through pipe 35 using a pump 36 is fed into the cavity 11 of the pre-treated water of block 8, from where it goes through the holes in the partition 10 to the purification in membranes 9.

Part of the water that has undergone membrane cleaning is discharged through the holes in the partitions 12 and 14 into the cavity 13 of clean water into the nozzle 17, the rest (much more) of water purified in the hydrocyclone 31

out of the membrane unit through the holes in the partition 14 into the cavity 15 of the water to be treated in the pipe 18 and through the pipeline 19 goes to the jet apparatus 20. Here it is mixed with water sucked by means of the apparatus 20 from the oil tank 4, and then through the pipeline 22 through the nozzle 24 enters the cavity 42 of the contaminated water of the treatment unit. With

The flow of contaminated water from the treatment unit through the gap 30 and the layer of the frame 26 attached to the pipe 27 to the material 25 takes place due to the coalescence of oil products on the surface and inside

5 of the material 25. The product enlarged in the pores of the material passes into the channel formed by the next layer of the skeleton 26. Under the action of the Archimedean force and the force created by the jet device 20, enlarged into

In the pores and on the surface of the material, the particles of oil product float to the oil tank 4 and are discharged through the pipe 3 from the device. The remaining flow of water moves in two directions: inside the next layer

5 filtering-coalescing material 25 and the spiral frame 26 around it. The separation process on subsequent layers is similar. The purified water is removed from the purification unit 6 through the cutting of the cuttings 5. The physical basis of the process is the movement of droplets of the oil product in the flow to the coalescing wall of the floor by the action of a mass force resulting from the flow along the curved surface,

5 and the subsequent coagulation of petroleum products into larger droplets on material 25, their ascent under the influence of Archimedean and gravitational forces. In comparison with the known device, the proposed device has the following advantages: there is no need to install a mechanical cleaning filter, removal of mechanical impurities is carried out using a hydro cyclone located inside the device, which significantly reduces the overall dimensions of the installation; the installation of a hydrocyclone allows in the same volume of the device to ensure the removal of the shock oil load before supplying the contaminated

0 water for final cleaning in the membrane and cleaning units, this increases the service life of the cleaning unit, makes it possible to apply the membrane unit in the installation and increases the cleaning

5 ability of the device as a whole; the use of a membrane unit as part of the device allows, without increasing the size, to increase the cleaning capacity from 5–10 to 3–7, in addition, it is possible to use water that has been cleaned in

Claims (2)

the membrane unit, for technical purposes, the use of a membrane unit in the composition of the device allows a more efficient use of the energy of the feed pump. Claim 1. Device for cleaning of oil-containing water, comprising a housing with a bottom, a cleaning unit in the form of a spiral arranged around the central tube of the frame with transverse and longitudinal channels, between the turns of which the coalescing material, the upper perforated and the lower discs are placed , limiting the cleaning unit, respectively, from above and below, an oil tank, hermetically attached to the upper disk, pipes for supplying contaminated water and draining oil products and purified water, a jet device connected to An oil tank, characterized in that, in order to increase the degree of purification and increase the service life of the cleaning unit, it is equipped with a double hydraulic cyclone with a guide device mounted on the upper disk and a central oil withdrawal pipe with an end cone installed in the cavity of the central pipe reported with an oil tank. located on the upper base of the oil tank with an inclination to the horizontal of the membrane unit, divided by vertical partitions with openings to the receiving cavity and cavities of clean and recirculating water, by a pump, the suction nozzle of which is connected to the outlet nozzle of the hydrocycloin and the pressure one - by the receiving cavity of the membrane unit , an additional branch pipe for removal of purified water, connected to the clean water cavity of the membrane unit, and a horizontal partition installed under the cleaning unit with the formation of the bottom of the body and the lower part of the hydrocyclone of the sludge trap connected to the central pipe, while the suction nozzle of the hydrocyclone is connected to the oil-containing water supply nozzle, and the working nozzle of the jet apparatus is connected to the cavity of the recirculating water of the membrane unit, 2. A device according to claim 1, characterized in that the upper base of the oil collector and the membrane unit are installed at an angle of 25-30 ° to the horizontal plane. 9 Yu eight // 7 M g 1 b five / 36 Ж 30 ЖН & 2 W 42