RU2606645C1 - Magnetic filter - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to magnetic cleaning of process liquids and can be especially efficiently used for separation of amine, used for cleaning of natural gas with high content of hydrogen sulphide. Magnetic filter comprises a reservoir, in cover of which there are cylindrical magnetic rods with sludge collecting rings worn thereon, movable plate for displacement of latter along rods, sludge-collecting rings are split and made of hardened alloy, having spring, non-magnetic and anticorrosion properties, for example, precision alloy 36NKHTYU, cladding of rods is made of stainless steel with solid chrome-plating, filter is equipped with a mechanism for post-treatment of sludge and its removal beyond filter, mechanism is made in form of installed in lower part of reservoir on a fixed axis of two pairs of pipes, welded into sleeve, which can rotate on fixed axis, tubes are provided with holes, into which is fed a cleaning medium under pressure, resultant reactive forces of flowing jets generate torque which rotates sleeve with tubes.

EFFECT: invention provides high degree of cleaning filter from slug.

3 cl, 4 dwg

Description

The invention relates to the field of magnetic purification of process liquids and can be particularly effectively used for the separation of the amine used for the purification of natural gas with a high content of hydrogen sulfide.

Known magnetic filters for the separation of process fluids, containing a tank for pumping the latter, in the upper lid of the tank are fixed sleeves (glasses), which include with a gap the magnetic rods, mounted in a plate having vertical movement,

In the process of pumping the process fluid, the ferromagnetic inclusions contained in it are attracted by magnetic rods and deposited on the surface of non-magnetic glasses.

To clean the filter from sludge accumulated on the glasses, the plate with magnetic rods is lifted, removing the latter from the glasses and depriving them of magnetic attractive forces. Next, the filter is washed, removing sludge with washing liquid, (China Utility Model No. 202762537 dated 06/03/2013, IPC BO3C 1/02).

The described filter has the following disadvantages:

- due to the location of the magnetic rods in the glasses, the distance between them increases, which reduces the possible number of rods in the given dimensions and, accordingly, the filter performance;

- high-quality flushing of the filter to remove sludge requires a large flow rate of flushing fluid, which drains into the sewer, which increases operating costs;

- the withdrawal of the rods from the glasses for cleaning increases the dimensions of the filter by almost 2 times.

The closest analogue to the present invention is a filter according to Japanese patent No. 61-271043 A dated 12/01/1986. The filter consists of a reservoir for pumping the liquid to be cleaned, in the lid of which are fixed magnetic rods representing copper tubes with magnets placed inside. The magnetic rods are fitted with slurry removers made in the form of rubber rings and installed in a plate that can be moved along the magnetic rods using pushers passing through the upper plate. Contaminants extracted from the process fluid adhere to the magnetic rods. To clean them, a slab with sludge rings moves down, dumping sludge into a tank installed inside the tank. The disadvantages of this filter when used for separation of an amine solution are that the amine contaminants consist of inorganic particles of corrosion products and organic particles adhering to them (products of the degradation of amine, asphaltenes, resins, paraffins). All this forms a viscous porridge-like and very abrasive mass. This abrasive, inevitably falling under rubber rings, will intensively wear both the copper tubes of the rods and the rings themselves, which will reduce the filter's durability and increase operating costs.

The second disadvantage of the prototype is not complete removal of contaminants. The bottom surface of the plate and the rods, as well as the wiper rings, are not cleaned.

The third drawback is that there is no mechanism for automatically removing sludge outside the filter. This is an essential condition for gas producers.

The fourth disadvantage is the increased overall height due to the rods protruding from the lid to move the plate.

The invention allows to solve the problem of increasing the degree of purification of the filter from sludge, automating the removal of sludge outside the filter and, accordingly, the performance of the filter, reducing the height of the filter.

To solve the problems according to the invention, a filter design is proposed that includes a reservoir for pumping the liquid to be cleaned with magnetic rods fixed in the upper cover, a plate moved along the rods with sludge rings mounted on the rods. These rings are made of an alloy having spring, anticorrosion and non-magnetic properties, for example, of a 36NХТЮ precision alloy. The rings are made with a cut, hardened and seated on the rods with interference, and the outer diameter with a gap relative to the holders in the plate, which eliminates jamming when moving the plate.

Magnetic rods have a stainless steel sheath with hard chrome plating. This design eliminates the ingress of abrasive sludge between the surfaces of the rod and rings, and the interference in their connection remains for a long time, even with significant wear of the rings. This increases the durability of the filter and its performance, reduces operational downtime and costs.

In addition, the magnetic filter is equipped with a mechanism for the post-treatment and removal of sludge beyond the filter. The mechanism is made in the form of a sleeve installed in the lower part of the tank on the fixed axis of the sleeve, with two pairs of pipes welded into it. The upper pair of pipes is parallel to the plane of the scrub plate. Each pipe is equipped with holes located along the pipe in one line, directed upward from the horizontal plane at an angle of 30 ... 45 °. The lower pair of pipes follows the contour of the generatrix of the tank bottom. Each pipe is equipped with holes located along the pipe in one line, directed downward in the section of the hole in the pipe, at an angle of 30 ... 45 ° from the horizontal surface. When the steam is supplied through the central hole of the axis into the steam pipes under the pressure (or liquid) of the jet, leaving the holes, a torque is created, driving the sleeve with the upper and lower pairs of pipes. Due to this, the sludge is knocked down from the lower plane of the treatment plate, rings and ends of the magnetic rods, as well as from the surface of the tank bottom and is removed together with condensate through the outlet in the bottom outside the filter.

High-quality cleaning of the filter from sludge increases its productivity due to the lengthening of the inter-purification cycle.

The proposed filter has a plate movement mechanism with cleaning rings, made in the form of a drive screw mounted on bearings in the upper cover and a nut fixed in the plate. Due to this, the height of the filter is reduced and the design details do not go beyond the tank when moving the treatment plate.

The magnetic filter is shown in FIG. 1 is a General sectional view; FIG. 2 - view A - section along the treatment rings, in FIG. 3, 4 - sections B-B and B-B (mechanism for post-treatment and removal of sludge).

Filter design: the reservoir 1 (Fig. 1) has an inlet 2 and an outlet 3 nozzles for pumping a process fluid to be cleaned, for example, an amine. At the bottom of the bottom of the tank there is a pipe 4 for removing extracted contaminants (sludge) from the filter. Magnetic rods 7 are fixed in the bores of the tank top cover 5 with nuts 6, consisting of a stainless steel and chrome plated shell 8 and a set of disc magnets 9 with intermediate ferromagnetic washers 10. Each rod is equipped with two split spring rings 11 mounted with holders 12 in the treatment room plate 13, the rings are hardened to a hardness of HRC = 40-45, sanded at the diluted ends of the inner diameter with an interference fit on the rod 7 and have sharp edges 14 that prevent the ingress of sludge between them and the rod 7. M Between the outer diameter of the rings 11 and the holder 12 there is a gap. The cleaning plate 13 can be moved along two guides 15 with the help of a nut 16 fixed on it and mounted on bearings 17 and 18 in the top cover 5 and in connection 19 of the screw 20, while rotating it from the drive 21. A post-treatment mechanism is mounted on the connection 19 and removal of sludge outside the filter, consisting of an axis 22 fixed to the connection 19, a sleeve 23 with two pairs of pipes 24 and 25 welded into it. The upper pair of pipes 24 is parallel to the plane of the treatment plate 13. Each pipe is provided with openings 26 located along the pipe in one line directed upward from the horizontal plane at an angle of 30 ... 45 ° degrees to the plate 13. The lower pair of pipes 25 follows the contour of the generatrix of the elliptical bottom of the tank 1. Each pipe is equipped with holes 27 located along the pipe in one line, directed downward in the section of the hole in the pipe at an angle 30 ... 45 ° from a horizontal surface. The sleeve 23 with pipes 24 and 25 can rotate on the axis 22. To the pipes 24 and 25 through the pipe 28 welded to one of the guides 15, a purified medium can be supplied — steam or liquid under pressure, for which this guide and connection 19 are hollow. An additional pipe 29 is welded to the outlet pipe 3. All pipes are equipped with remotely controlled shut-off valves (not shown).

The described filter works as follows.

1. The mode of cleaning the process fluid

Technological fluid is pumped through reservoir 1 with open inlet 2 and outlet 3 nozzles and closed nozzles 4, 28, 29. Moreover, due to the powerful magnetic forces created by the rods 7, the ferromagnetic particles of corrosion contained in the liquid being cleaned, as well as organic particles adhering to them (asphaltenes, resins, paraffins) are attracted to the rods, covering their surface with a dense layer. The cleaned process fluid exits the filter through the pipe 3. In this case, the cleaning plate 13 with the spring rings 11 is in the upper position. As the filter works, the sludge "coat" from the extracted impurities on the rods 7 will become thicker, while reducing the attractive force of the magnets due to the increased distance between them and free dirt particles. Finally, there will come a time when the degree of purification of the liquid becomes unacceptably low, and this will give a signal to turn on the next mode of operation of the filter - the mode of its cleaning from the extracted contaminants. In this case, the nozzles 2 and 3 are closed, the flow of the process fluid through the tank is stopped. An additional pipe 29 is opened and the purified process fluid located in the tank 1 is drained into a reserve tank for further use, the pipe 29 is closed, while a certain amount of process fluid remains inside the tank 1 (up to the level of the pipe 29).

Next, the drive 21 of the lead screw 20 is turned on, which leads to the displacement of the treatment plate 13 with the spring rings 11 to the lower position, while the sharp edges of the rings 11 mounted on the rods 7 with an interference fit cleanly drive the sludge to the lower ends of the rods 7, without passing abrasive particles to each other and rods. Most of the sludge falls from the rods down into the remainder of the process fluid, but part of the sludge remains on the lower plane of the plate 13, rings 11 and the ends of the rods. Upon reaching the lower position, the plate 13 stops and the mode of tertiary treatment and removal of sludge outside the tank 1 is opened. To do this, the pipe 28 opens and the cleaning medium is supplied to the pipes 24 and 25 - steam or liquid under pressure, and the pipe 4 connected with the sludge disposal tank also opens . Steam (liquid) under pressure, escaping in jets from openings 26 directed upward from the horizontal plane at an angle of 30 ... 45 °, in pipes 24, knocks down sludge from the lower ends of the plate 13, rings 11 and rods 7, and from the openings 27 pointing down from a horizontal plane at an angle of 30 ... 45 °, in pipes 25 - from the surface of the bottom of the tank 1. Moreover, the above arrangement of holes 26 and 27, during the flow of steam (liquid), due to the reactive forces of the jets creates a torque that drives the sleeve in pairs pipes in rotation, which contributes to high-quality cleaning. All this sludge through the pipe 4 together with the remains of the cleaned liquid and condensate is discharged under pressure outside the filter into the sewer tank. After this, the nozzles 4, 28 are closed. The actuator 21 is switched on to lift, the plate 13 is moved to its original (upper position), inlet 2 and outlet 3 nozzles open and the next cycle of cleaning the process fluid begins.

The implementation of magnetic rods with a shell made of chrome-plated stainless steel pipe and sludge rings made of spring stainless non-magnetic steel and their fit on magnetic rods with interference fit prevent abrasive wear of the rods and rings, which significantly increases the durability of the filter and reduces operating costs and is easy to repair.

The installation of sludge removal rings in the holders of the treatment plate with a large gap along the outer diameter eliminates jamming of the plate when moving along the rods, which increases the reliability of the treatment mechanism.

The presence of a mechanism for the post-treatment and removal of sludge outside the filter using the reactive effect of the effluent jets to rotate the treatment pipes allows, with a simple design, to increase the degree of filter cleaning and increase its productivity by lengthening the inter-cleaning cycle.

Performing a drive to move the treatment plate in the form of a drive screw and a nut fixed in the plate reduces the height of the filter and eliminates the appearance of moving parts outside the filter tank.

Claims (3)

1. A magnetic filter containing a reservoir, in the lid of which cylindrical magnetic rods are fixed with sludge rings mounted on them, a movable plate for moving the latter along the rods, characterized in that the sludge rings are made split and hardened from an alloy having spring, non-magnetic and anti-corrosion properties , for example, from 36NHTYu precision alloy, the shell of the rods is made of hard chrome stainless steel, the filter is equipped with a mechanism for the post-treatment of sludge and its removal after filter elements, the mechanism is made in the form of two pairs of pipes welded into a sleeve that can rotate on a fixed axis installed in the lower part of the tank on a fixed axis, the pipes are equipped with openings into which a cleaning medium is supplied under pressure, the resulting reactive forces of the outgoing jets create a torque rotating sleeve with pipes. 2. The magnetic filter according to claim 1, characterized in that the plate displacement drive with sludge rings is made in the form of a drive screw mounted on bearings in the cover of the screw and a nut fixed in the plate, and the plate is equipped with two guides fixed in the cover. 3. The magnetic filter according to claim 1, characterized in that the slurry rings are installed in the holders of the plate with a gap along the outer diameter.

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