RU78085U1 - FILTER FOR CLEANING LIQUIDS - Google Patents

Abstract

The utility model relates to devices for cleaning liquids, mainly oily liquids generated during the development of oil wells, washing vehicles designed to transport petroleum products, as well as various containers for their storage or processing.

The technical task of the proposed utility model is to expand the functionality of the filter, simplifying its design, while reducing labor costs for its manufacture and operation.

The technical result is achieved due to the fact that a well-known filter for cleaning liquid containing a housing, a cover, a tangentially located inlet pipe, as well as a discharge pipe for purified liquid and a unit for collecting sludge and solid contaminants, a slotted filter element made in the form of a spring fixed between fixed and movable supports, changes were made, namely:

- a slit filter element is installed below the inlet pipe by at least one diameter of the cylindrical part of the housing with the possibility of adjusting the inter-turn distance during the cleaning process;

- the housing cover is made spherical, forming an additional zone for collecting light fractions, and is equipped with an additional pipe for its removal;

- the unit for collecting sludge and solid contaminants is made in the form of a removable pan placed at the base on which the filter housing is mounted.

The design allows you to vary the degree of purification during the filtration process by adjusting the inter-turn gap of the filter element.

Currently, laboratory tests of several filters have been completed and technical documentation has been prepared for the industrial manufacture of filters that will be used when washing vehicles to clean the spent washing solution.

Description

The utility model relates to devices for cleaning liquids, mainly oily liquids generated during the development of oil wells, washing vehicles designed to transport petroleum products, as well as various containers for their storage or processing.

It can be used in shipbuilding, engineering, food, petrochemical and oil refining industries, as well as in construction, transport, energy and other industries where the formation of effluents containing oil products and organic substances.

Oil and oil products, coming into direct contact with water, pollute it, being in various conditions, the main of which are: free oil, unstabilized dispersions, stabilized dispersions, molecularly dissolved oil, enveloping solid inclusions. The state of oil in oily waters is crucial for choosing a method of treating these waters with a view to purifying them.

The known device "Thermofilter", designed to purify liquids from mechanical impurities, which are produced by the company LLC "Zkoservis Tekhnohim-M". (Moscow)

The filter consists of a cylindrical housing with a conical bottom, a flange in the upper part of the housing and a cover. Pipes are welded to the cover and bottom to connect the filter to the corresponding piping. Slit filter elements, made in the form of a spring, are attached to the inner side of the lid, onto which a layer of perlite is impregnated, trapping suspended or colloidal particles. With a flow of water from outside to inside the filter element, filtration occurs, and with a flow of water from inside to outside, the accumulated contaminants are washed off due to an increase in the gaps between the spring coils.

The filter uses the design of the filter element, variants of which are protected by RF patents Nos. 20779023, 2077924 and 2077925, known as the Krapukhin filter element.

In all cases, a filter layer is applied to the spring or it is located inside the filter partition.

Common disadvantages of such filters are the need for regeneration of the filter element and the inability to control the amount of separated solids, because in the working position, the gap between the turns of the spring does not change.

In addition, the use of these filters to separate a two-phase system is effective, and the oily liquid refers to a three-phase system.

Known filter for liquid petroleum products. The filter contains a housing equipped with a frame with racks for mounting the housing at various angles of inclination to the horizon, a filter element in the form of a spiral with a frame located on the outside of the spiral, and an axis connected via a bearing assembly to the drive shaft. The latter is made with an adjustable speed and has a manual backup. The filter cleaning agent is made in the form of a tube located in the slot of the tube body with a longitudinal slit, one end of which is plugged and the other connected to a steam source. A conical branch pipe for removing contaminants is mounted to the filter element and rotatably mounted together with the filter element. The invention provides optimal filtering conditions for liquids with different viscosities. (RF patent №2163832).

The disadvantages of this technical solution include the low cleaning efficiency of the oily liquid, because part of the crude liquid enters the separation zone of the solid phase.

The presence of an electric drive, special bearings and racks for adjusting the angle of the filter complicates the design and maintenance costs of the filter.

A known filter for cleaning liquids of lubricants, which contains a flow cavity formed by a conical frame, a spiral installed in the internal cavity of the frame. The conical frame is installed in the case, made in the form of a cylindrical glass with an outlet fitting for the filtrate, and both are hermetically connected to the flange, the case being hermetically closed by a cover made with the outlet fitting, and the conical frame is made in the form of a glass with holes on the side surface for the filtrate to exit . A filter element and a conical spring-loaded plug are installed inside the frame, and the flow cavity is formed by a spiral installed between the filter element and the outer side surface of the conical plug and rigidly fixed to it (RF Patent No. 2237509).

The filter for cleaning liquids is as follows. The lubricant to be cleaned (liquid or air flow) is pumped through the inlet to the conical frame, where it acquires a rotational movement through the flow cavity created by the spiral installed between the filter element and the conical plug. Due to the rotational movement of the flow of lubricant, mechanical impurities experience the action of centrifugal and tangential forces pressing them to the surface of the filter element, and the purified lubricant through the filter element under the influence of these forces and pressure passes through the holes in the conical frame to the outlet fitting. Impurities deposited on the filter element under the influence of the tangential forces of the flow of lubricant are carried along with it to the outlet fitting into a container for the lubricant to be cleaned.

The effectiveness of the proposed filter is in doubt, because the completeness of the selection of the light fraction, due to the squeezing of the filter element by a spring, cannot provide the required separation.

In addition, the authors themselves do not deny the ingress of a solid phase into the filtered filtrate, i.e. then additional cleaning of the already two-phase system is required: liquid - solid phase. It is necessary to rinse the filter surface, which is carried out by a solvent that is harmful to the operating personnel.

The closest technical solution to the claimed technical solution is a filter for cleaning liquids and gases from impurities, which is protected by RF patent No. 2035201.

The filter contains a housing, a cover, an inlet, outlet and a discharge pipe, a slit filter element made in the form of one or more springs attached to a fixed and movable diaphragm so that the internal cavity of the springs communicates with the corresponding passage holes in the fixed diaphragm, a cowl with an annular protrusion in contact with the neck and providing a given filter inter-turn clearance in the springs, as well as the axial stroke of the movable diaphragm in the cavity of the dirt collector formed in the lower part housing and flow deflector constructed as a thin-walled shell embracing the periphery of the filter element slotted springs and installed between the fixed and movable diaphragms. The source medium containing impurities enters under pressure into the inlet pipe, leaving it, enters the unperforated part of the reflector and changes its direction. Then passing through the perforation of the reflector

and thereby freeing itself from the largest inclusions, the flow of the initial medium enters the slotted filter element. The filter element can be made in the form of one or several springs; practically their number determines the dimensions of the housing, and not the essence of the filter. To increase the efficiency of the reflector by reducing the force of interaction with the incoming flow of the source medium by reducing the angle of attack of the flow, the inlet pipe is connected tangentially to the housing. Passing through the inter-turn gaps in the springs of the filter element, the initial medium is cleaned of impurities and enters in a cleaned form in the outlet pipe.

The disadvantages of the known technical solutions are:

- the presence of a reflector protecting the spring filter element, which complicates the design;

- the rigid fastening of the filter element between the movable and fixed diaphragm does not allow you to change the gap between the turns of the spring during the cleaning process;

- different streams are used to clean the reflector and the spring filter element (one from the bottom of the filtrate nozzle, the second from the inlet pipe. Due to the vacuum created in the dirt collector, the movable diaphragm stretches the spring, and the reflector leaves it and is cleaned of dirt. However, this requires additional costs of flushing fluid.

A practically known filter allows you to clean the liquid from large impurities that remain on the reflector and small (predetermined size) on the spring filter element, but it cannot separate the light and heavy liquid phases.

The technical task of the proposed utility model is to expand the functionality of the filter, simplifying its design, while reducing labor costs for its manufacture and operation.

The technical result is achieved due to the fact that a well-known filter for cleaning liquid containing a housing, a cover, a tangentially located inlet pipe, as well as a discharge pipe for purified liquid and a unit for collecting sludge and solid contaminants, a slotted filter element made in the form of a spring fixed between fixed and movable supports, changes were made, namely:

- a slit filter element is installed below the inlet pipe by at least one diameter of the cylindrical part of the housing with the possibility of changing the inter-turn distance during the cleaning process;

- the housing cover is made spherical, forming an additional zone for collecting light fractions, and is equipped with an additional pipe for its removal;

- the unit for collecting sludge and solid contaminants is made in the form of a removable pan placed at the base on which the filter housing is mounted.

In addition, the inlet pipe is placed in the housing at an angle whose tangent is 0.0314-0.0320, and can be made rectangular, for example, in the form of a square.

Based on the studies, it was found that for the separation of light oil fractions from the solution requires at least three to five rotations of the incoming flow of oily liquid. For this, a height of the filter housing equal to one diameter of the filter housing is sufficient, therefore, so that the light fraction does not mix with the cleaned solution (liquid) inside the spring filter element, it is placed slightly below the inlet pipe.

A slight slope of the inlet pipe directs the input stream down and facilitates the sliding of sludge from the walls of the housing, as in addition to gravity, it will be affected by the vertical component of centrifugal force.

The upper assembly for attaching the filter element is made in the form of a cylindrical tube for draining the cleaned liquid, installed in the housing cover with the possibility of its vertical movement, due to external thread and nuts. This allows you to change the inter-turn gap of the spring filter element during the cleaning of an oily liquid, depending on the size of the solid particles in the original liquid.

The lid of the casing is made spherical so that in the upper part of the casing a zone is formed for the accumulation of light fractions. It also houses an additional pipe for the removal of light fractions (oil or oil products), made with the possibility of attaching a pump for pumping it, if necessary.

In the lower part of the base on which the filter housing is mounted, a removable pan is placed, which allows the sludge to be removed without stopping the cleaning process of the oily liquid.

The nozzle of the inlet pipe 3, it is advisable to perform a rectangular section equal to the internal section of the pipe, because in this case, the mass of the stream increases, which has a greater angular velocity, due to which the coefficient of separation of the input stream into fractions increases.

The figure 1 shows the design of the proposed filter for cleaning liquids.

It shows a cylindrical body 1, flanges 2, a tangential inlet pipe 3, a spherical cover 4, in which there are pipes for draining the cleaned liquid 5 and a pipe for draining the light fraction 6, made in the form of fittings, with the possibility of connecting external pumps, the upper mount spring filter

element 7, connected to a cylindrical tube 8, mounted in the housing cover, a spring filter element 9, a lower plug 10 for attaching a spring element, a sleeve 11, a rack 12 for mounting flanges 2 to the housing 1, a dirt collector 13, a shell 14, a base 15 (shown with a conditionally removed upper surface), in which a removable pallet 16 is provided, equipped with a handle 17 for removing the pallet. In addition, in the lower part of the sump 13 there is a shutter 18, which overlaps it when removing the sump.

The filter works as follows (for example, the purification of oily detergent solution).

The oil-containing washing solution enters the filter housing 1 through the tangential inlet pipe 3 installed in the housing with a small angle of inclination (tg = 0.0314-0.0320) to create a direction of rotation of the flow towards the spring filter element 9.

The tangential input ensures the rotation of the flow along the helix, due to which heavy particles are discarded to the body wall and, under the action of gravitational forces and the vertical component of the centrifugal force, gradually move to the dirt collector 13 and then collect in a removable sump 16. The base 15 is equipped with an inspection window (in Fig. 1 not shown), therefore, as sludge accumulates, the sump must be replaced. This is done by blocking the sump 13 with a shutter (gate) 18.

When the input stream rotates, the light (oil-containing) fraction is separated from the heavier liquid containing fine suspensions. The oil-containing fraction floats into the upper part of the housing 1 and accumulates under the lid 2, then through the pipe (fitting) 6 is removed for storage. If the light fraction has a high viscosity, the design of the nozzle 6 allows it to be pumped out by connecting through a flexible hose to the pump.

The heavier fraction passes through a spring filter element 9, which is attached to the upper node 7, made in the form of a hollow sleeve connected to a cylindrical tube 8 for drainage of the filtrate through a pipe (fitting) 5. The lower end of the filter element is attached to the tube 10, which is located in sleeve 11.

Suspensions, the size of which is less than the inter-turn gap of the filter element, slip through and are removed with the filtrate (purified liquid or solution). Their size is initially set by installing the cylindrical tube 8 in the cover 4. However, the inter-turn gap can be changed by stretching or compressing the spring due to the vertical movement of the cylindrical tube 8 and fixing in a new position.

Suspensions and larger particles settle on the filter element, so it must be periodically cleaned. To do this, a fluid is injected through the nozzle 5 under pressure, which enters through the cylindrical tube 8 into the spring 9, and acting on the plug 10, which is installed in the sleeve 11 with the possibility of limited movement, stretches it and flushes particles settled on it, which enter through the dirt collector 13 into the pallet 16.

The proposed design has several advantages compared to the known similar filters, because allows you to clean any three-phase system, has a simple design and does not require large expenditures, both in the manufacture and operation of the filter.

The design allows you to vary the degree of purification during the filtration process by adjusting the inter-turn gap of the filter element.

Currently, laboratory tests of several filters have been completed and technical documentation has been prepared for the industrial manufacture of filters that will be used when washing vehicles to clean the spent washing solution.

Claims (4)

1. Filter for cleaning liquids, mainly for containing hydrocarbon substances, containing a housing, a cover, a tangentially located inlet pipe, a discharge pipe for the cleaned liquid and a sludge collection unit, a slit filter element made in the form of a spring fixed between the fixed and movable supports, characterized in that the slotted filter element is installed in the housing below the inlet pipe by at least one diameter of the cylindrical part of the housing, the housing cover is equipped with an additional pat cutting room for the removal of light fractions, and the sludge collection unit is made in the form of a removable pan located at the base on which the filter housing is mounted. 2. The filter according to claim 1, characterized in that the inlet pipe is placed in the housing at an angle whose tangent is 0.0314-0.0320. 3. The filter according to claim 1, characterized in that the fastening of the filter element is made with the possibility of changing the inter-turn gap both in the process of cleaning the liquid and washing the filter element. 4. The filter according to claim 1 or 2, characterized in that the inlet pipe can be made with a rectangular cross section, mainly square.