DE2036277B2 - Device for separating and removing ferromagnetic particles from flowing media - Google Patents

Description

The invention relates to a device for separating lerromagnetic particles from flowing media by means of an induced by a DC coil, borrowed from spaced apart parts that spread the magnetic flux conducting parts and the inhomogeneous magnetic field crossing the flowing medium and the subsequent removal of the ferromagnetic layers Particles by rinsing, the connections for inflow and outflow of the medium to be treated and the flushing medium are arranged in such a way that the respective medium is affected by the inhomogeneous magnetic field The interior of the container can be painted over.

In many processes in organic chemistry, e.g. B. catalytic hydrogenations, dehydrogenations. Condensation reactions, Desulphurization, etc., looks at the

277 ₂

Catalyst made from a ferromagnetic material, for example Raney nickel, and is smaller in shape Particle before. During the reaction it can not be avoided that ferromagnetic particles from a medium flowing through the reactor, e.g. B. a suspension can be taken from which they have to be removed again later.

A magnetic filter for separating ferromagnetic particles from a liquid is known. The liquid is passed through two pipes, each with a filter grille made of ferromagnetic !!! Material included. Both tubes are surrounded by an excitation coil for inducing a magnetic field in these grids. The magnetic field builds up over narrow gaps provided in the grids. To the loaded To free liquid from its ferromagnetic particles, it is passed through the gaps in the grid, whereby the particles collect between the narrow gaps and clog them very quickly. From it it follows that if there are larger amounts of ferromagnetic particles in the liquid, the cleaning process will also be carried out has to be interrupted frequently. around the narrow crevices flush again. Such a mode of operation is therefore very time consuming and makes the entire process uneconomical (DT-OS 19 20 230).

The object of the invention is to provide a device for separating ferromagnetic particles from flowing Media and subsequent removal of these particles indicate that they are simple to construct and manufacture is. the retention or discharge of larger amounts of ferromagnetic particles is ensured, thereby however, the risk of clogging of the filter media or discharge devices is largely eliminated.

According to the invention the object is achieved in that a between the, the magnetic flux and the Magnetic field determining, active parts protruding and with lockable connections for closing and Drainage of the medium to be treated and the rinsing medium provided, consisting of non-magnetic material Container is provided.

The use of a container made of non-magnetic material has the advantage that the magnetic Flux cannot build up directly across the container, but rather that the magnetic field, so to speak a field line bridge from an active one which determines the magnetic flux and the magnetic field Form part to part through the container got to. This creates a particularly strong effect of the magnetic field on the to be cleaned Medium achieved ferromagnetic particles. The magnetic flux and the magnetic The active parts that determine the field consist of a cage that is open on one side and one on the open one Side of the cage arranged and inwardly protruding ring and a cage axis extending into the Area of the ring extending core. These parts are preferably made from soft iron material.

It is advantageous that the ring extends close to the container wall and that the core in one of it In their shape adapted indentation of the container protrudes. This measure causes the magnetic field in the Container is particularly intense. The magnetic field in the container can be increased if the Inside of the container another active one, which determines the magnetic flux and the magnetic field, at a distance from the container wall and concentric to the outer ring and to the

Core lying ring is provided, for example, made of soft iron. with this ring on one on the Standing perforated support rests on the container bottom.

An exemplary embodiment of the invention is shown in the drawing

In a downwardly open cage 1 with a ring

2 and a core 3, a direct current coil 4 is provided. A container protrudes into the open side of the cage 1

5 made of non-magnetic material. The container wall

6 has an indentation 7 for receiving the core

3 provided. In the lower part of the container 5 is a feed line 8 for the medium to be cleaned and a Drain line 9 arranged for the flushing medium. The upper part of the container 5 contains a drain line 10 for the purified medium, which extends through the cage 1 to the outside. Another, on the drain line 10 arranged line 11 dier.t as an inlet for the flushing medium. So that the medium to be cleaned does not get into the flushing lines and vice versa, the inlet and outlet lines 8, II and 9, 10 are equipped with shut-off valves 12,13 and 14,15 respectively. The feed line 11 for the flushing medium opens before the Shut-off valve 15 seen in the direction of flow in the discharge line 10 of the ferromagnetic particles medium to be separated. In the container interior 16 is another, the magnetic flux and the magnetic Field-determining active, arranged at a distance from the container wall 6 and concentrically to the outer ring 2 and to the core 3 lying ring 17 is provided, which on a on the container bottom 18 standing perforated support 19 rests.

The device works as follows:

The medium provided with ferromagnetic particles first passes through the feed line 8 into the Container interior 16. When the DC coil 4 is switched on, it forms above the core 3, toward the inner one Ring 17 and from the inner iling to the outer ring 2 a magnetic force field. The one with the ferromagnetic Particle-provided medium inevitably flows through this magnetic field, whereby the particles are retained here during the flow and are attached to the inner ring 17 as well as to the Set down the container wall 6 in the area of the magnetic field. The medium freed from the particles then flows into the drain line 10. During this process, the shut-off valves 13 and 14 are the Flushing lines 11 and 9 closed. Finally, they have larger amounts of ferromagnetic in the container 5 Particles deposited, the valves 12 and 15 of the lines 8 and 10 are closed and the The voltage of the direct current coil 4 is switched off. After opening the fittings 13 and 14 of the flushing lines 11 or 9 is a detergent, z. B. a solvent, pumped and thus the ferromagnetic Particles washed out of the container 5. For reuse the ferromagnetic Particles as a catalyst, it is useful to return them to the reactor directly for the next reaction process to lead, which brings a significant cost saving with it.

1 sheet of drawings

Claims (5)

Claims: 20 1. Device for separating ferromagnetic Particles from flowing media by means of a induced by a direct current coil, spread over at a distance from one another, which spreads the magnetic flux-conducting parts and the inhomogeneous magnetic field crossing the flowing medium and the subsequent removal of the ferromagnetic particles by rinsing, the connections for inflow and outflow of the to be treated Medium and the rinsing medium are arranged so that the respective medium that of the inhomogeneous magnetic field passes through the paintable zone dts container interior, d a through characterized in that a between the magnetic flux and the magnetic field determining active parts (1, 2, 3, 17) protruding and with lockable connections (8.9 or 10. 11) for the inlet and outlet of the medium to be treated and the rinsing medium provided, made of non-magnetic Material existing container (5) is provided. 2. Device according to claim 1, characterized in that that as the magnetic flux and the magnetic field determining active parts (1. 2, 3, 17) a cage (1) open to one side with a cage located on its open side facing inwards protruding ring (2) and a core extending into the area of the ring (2) in the cage axis (3) is provided. 3. Apparatus according to claim 1 and 2, characterized in that the ring (2) extends up to close the container wall (6) extends out and that the core (3) in an indentation adapted to it in its shape (7) of the container (5) protrudes. 4. Apparatus according to claim 1 to 3, characterized in that a in the container interior (16) further, the magnetic flux and the magnetic field determining more active at a distance of the container wall (6) arranged and concentric to the outer ring (2) and to the core (3) lying ring (17) is provided. 5. Apparatus according to claim 1 and 4, characterized in that the inner ring (17) on one rests on the container bottom (18) standing perforated support (19).