RU2081672C1 - Filter for cleaning water from petroleum derivatives - Google Patents

Abstract

FIELD: water purification. SUBSTANCE: filter contains housing with end caps, axially installed removable rod, perforated discs rigidly attached to rod by pairs at a distance between pairs 10-150 mm, and natural and synthetic fiber layers 4-5 mm thick on the both sides of discs. EFFECT: improved structure. 1 tbl, 1 dwg

Description

 The invention relates to products and materials for purifying water from oil and oil products by filtration and can be used to purify natural and waste waters of the petrochemical, oil industry and marine vessels.

Known filter with a three-layer continuous loading of material for treating drinking water, containing hydrophobic silicate for absorption of aromatic hydrocarbons, macroporous highly basic anion exchange resin for the removal of humic acids, pesticides, activated carbon to remove residual Cl ₂ (US Pat. US N 4561976, CL B 01 D 21 / 06, 1985). This filter purifies water by 81.5%
A Japanese company (RZHKhim. 20 and 375, 1986) proposed a system of step filters for removing suspended particles and oils from water, including a sand filter, two filters with an oil absorber and an activated carbon filter.

 Also known is a filter containing a container in which a perforated tube is placed with one end closed and filtering material made of wood chips, straws (US Pat. US No. 3617566, class E 02 B 75/04, 1971).

 The design of this filter is improved by the introduction of control valves inside the filter material in several parallel planes and at different levels (AS USSR N 1590101, class B 01 D 35/14, 1990).

 Also known is a filter for cleaning oily wastewater, including a cylindrical body with a perforated screw for reverse rotation (A. S. USSR N 1553166, B 01 D 24/26, 1988). In this case, the perforations of the screw are made with dimensions smaller than the sizes of the compressed pieces of the elastic filtering load.

 A known filter for cleaning liquid, comprising a housing, a movable and fixed perforated partitions, a filter layer made of separate threads between them, the ends of which are fixed to the partitions at an angle to the vertical, an air distributor, a fixed grid above the air distributor and a second (additional) layer of threads, the ends which are fixed on the mesh and on the movable perforated partition, the latter is equipped with guide rods, and the cross section of the threads of the second (additional) layer is larger than the cross section itey first filter layer in 5-50 times (see. AS USSR N 743695, cl. B 01 D 23/24, 1980).

 The known filter for cleaning liquid (US Pat. US N 3165471, CL 210-347, 1965) contains a filter cartridge housing, a perforated tubular rod around which layers of filter material made of synthetic felt are radially located. Each layer of material is enclosed between perforated hard disks, which act as separators (holders) of the fibrous material and protect it from mechanical deformation. Each two layers of material sandwiched between the disks form a section with an internal cavity (chamber) for collecting filtered fluid.

US Pat. No. 3,165,471 describes the design and structure of the filter, and there are no filter parameters or specifications. The closest in common features (prototype) to the claimed one is a filter for cleaning liquid and gas (AS USSR N 1181683, B 01 D 24/46, 1985), containing a housing with nozzles, filtering material made in the form of several layers of fibers located between the movable and stationary horizontal perforated partitions installed along the height of the housing and interconnected by flexible rods, and the drive, characterized in that, in order to increase the efficiency of cleaning and regeneration, it is equipped with limiters made in the form of pins vertically mounted on the partitions, the ratio of the height of the pins to the length of the flexible rods is 1 / 2-1,4, and the packing density of the fibers in the layers increases along the course of the liquid or gas from 0.05-0.2 to 0.15- 0.4 g / cm ³ . The height of the pins decreases along the liquid or gas being cleaned, and the fibers are fixed on the partitions with one end in bundles.

The main disadvantage of the filter prototype is the fact that the packing density of the fibers in the layers increases along the movement of the liquid or gas from 0.05-2.0 to 0.15-0.4 g / cm ³ . An increase in the packing density of the filter material leads in proportion to a decrease in its capacity due to a decrease in the active sorption surface.

 The problem to which the invention is directed, is to increase the capacity, sorption ability of the filter, the degree of water purification and sorbent resource.

 The technical result is achieved by the fact that the filter for purifying water from oil products contains a removable filter nozzle in the housing, consisting of perforated disks that are pairwise fixed on the rod at a distance of 20 mm from each other. Pairs of discs are spaced from each other at a distance of 10-150 mm. Discs with a perforation diameter of 1 mm are coated on both sides with sorbent material with a layer thickness of 4-5 mm, made on natural and synthetic thin fibers.

 Comparative analysis with the prototype allows us to conclude that the inventive filter for cleaning water from oil products differs from the known constructive solution, namely: the filter housing contains a removable filter nozzle consisting of perforated disks that are pairwise fixed along the axis at a distance of 20 mm from each other. These pairs of perforated discs with a perforation diameter of 1 mm are fixed to the rod at a distance of 10-150 mm from each other. Disks are coated on both sides with sorbent material with a layer thickness of 4-5 mm made of natural and synthetic thin fibers.

 Thus, the claimed technical solution meets the criterion of "novelty."

 Analysis of known filters for water purification from oil products showed that the use of a removable filter nozzle in the filter housing provides the claimed filter with the properties that it exhibits in the claimed technical solution, namely, an increase in capacity, degree of water purification and sorbent resource as a result of the effective sorption ability of the nozzle in filter. Thus, a removable filter nozzle of this design and structure gives the filter new properties, which allows us to conclude that the proposed solution meets the criterion of "inventive step".

 General view of the design and structure of the filter shown in the drawing. The filter contains a housing 6 with input 8 and output 9 nozzles and caps 7. Inside the housing there is a removable filter nozzle consisting of a rod 1 (with a limiter 2 at one end), on which 10 perforated 3 (View A) discs 4 are secured rigidly in pairs perforation diameter 1 mm. Disks 4 with a thickness of 1 mm, arranged in pairs 10, are fixed on the axis at a distance of 20 mm from each other. The distance between the disks 10 arranged in pairs is 10-150 mm. On the surface of the disks on both sides is fixed sorbent material 5 with a thickness of 4-5 mm, made on natural and synthetic thin fibers. The diameter of the filter layers 5 is 1.5-2 mm larger than the diameter of the disks 4. The characteristics of the filters depending on their parameters are shown in the table. In statics and dynamics, the design and structure of the filter remain constant.

 Testing filters of this design and structure is carried out as follows. On steel rods 1 with a limiter 2 at one end and a diameter of 2 mm, they are fixed (fixed) in pairs 10 at a distance of 20 mm from each other perforated 3 (View A) discs 4 with a perforation diameter of 1 mm and a thickness of 1 mm discs. The disks 10 arranged in pairs are fixed at a distance of 10-150 mm. Disks are made of metal or plastic material. On the surface of the disks, sorbent material 5 with a thickness of 4-5 mm with a strongly developed surface is fixed on both sides. The diameter of the filter layers 5 is 1.5-2 mm larger than the diameter of the disks 4.

The filter nozzle thus prepared is inserted into the filter housing 6, one end of which is closed by a cover 7 with a nozzle 8. Through the nozzle 8, water containing 100 mg / l of petroleum products is supplied to the filter with a heating pump at a speed of 45 l / h. After filtration through all layers, the purified water is discharged through the nozzle 9. The contaminated water is filtered to a degree of purification of the filtrate of 99.85%
The test results of the developed filters (table) show that the main characteristic (sorption capacity) can be controlled in a wide range, from 1 to 18, using parameters such as the design and structure of the filter. So, the use in the design of perforated disks fixed in pairs along the axis of the filter housing at a certain distance increases the resource of the sorbent of oil products by 50-100 times (examples 1-8) in comparison with a filter containing a continuous load of filter material (example 9). This allows you to reduce the sorbent consumption by 4-5 times and at the same time increase the filter performance by 3-4 times (up to 45 l / h), the degree of water purification up to 99.85%
In addition, the filter nozzle is a removable structural element, which facilitates (simplifies) the recharging of the filter and makes its use technologically advanced.

Claims (1)

 A filter for water purification from oil products, comprising a housing with end caps, to which intake and outlet pipes are attached, perforated disks installed in the housing, a rod and fibrous filter material, characterized in that the rod is removable along the housing axis, the disks are made with a diameter perforations of 1 mm and are rigidly attached in pairs to the rod at a distance between paired disks of 20 mm and between pairs of disks 10 150 mm, the fibers are made of synthetic and natural materials and found on the rear on both sides of the disc layer thickness of 4 to 5 mm.

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