DE272383C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

272383 CLASS \ 2d. GROUP

SOCIETY FOR ELECTROOSMOSE m. B in FRANKFURTa. M.

The electro-osmotic process can be used to remove dispersoids from suspensions can be made usable in which the disperse phase is wholly or partly guided by migration to an electrode and is deposited on it. A device serving this purpose is known under the name "osmosis machine". An anode of is useful in this machine cylindrical shape surrounded by a perforated cathode through which the suspension is driven through to the anode. The effect can be achieved by adding a suitable Electrolytes are increased. The colloidal components of one beat each other Sign of the suspension in a more or less solid layer depending on the circumstances settled on the anode and can be removed from there mechanically, while indifferent and oppositely charged constituents remain.

It has now been found that this considerably reduces the electro-osmotic process its effectiveness can be increased if the suspension is given an opportunity to flow towards the anode to coat the largest possible cathode area in relation to the anode area, so that the Suspension is exposed to the cathode effect over the longest possible path and thereby a stronger fractionation takes place. It can accomplish this in a number of ways will. You can z. B. the cathode consists of numerous tubes open to the anode, Assemble chambers or the like, design them in the form of rib bodies or lamellar etc., in which cases the suspension flow is limited by cathodic surfaces Single streams appear dissolved.

A lamellar cathode is shown in the drawing. It means ι the expedient cylindrical, rotating anode that carries the electric current is fed through the supply line 2. 3 means the cathode with lead 4. The cathode is shown again in side view in FIG. 2, which shows a section through FIG. 1 and denoted by 5 together with the side rings. As can be seen in FIG. 3 lets, the cathode consists of individual lamellae 6, which on bolts 7 (see Fig. 4) in the Are lined up in a way that they are louder towards the anode, from the metal lamellas than Represent walls formed chambers. Through this, the suspension is now after the anode directed there. The suspension is expediently transported through the cathode through to the anode with the aid of whiskers, as denoted by 8 in FIGS. 1 and 2 are. The direction of rotation of the. Swirl is by the curved, the direction of flow the suspension shown by the arrows pointing towards the anode.

The suspension is subjected to various influences. When flowing through The suspended particles flee away from the cathode to the anode. This effect is reinforced by

the relatively long time during which the substance is in the vicinity the highly effective cathode surface is located. Due to the rapid migration of the solid The phase after the anode arises at the cathode and between this and the anode a proportionate one water-rich layer, which is due to the increased migration of any acid residues present (during processing of clay and kaolin, e.g. B. carbonic acid, sulfuric acid, etc.) contains excess alkali after the anode. But this is an electrolyte that is advantageous for processing the substances mentioned by electro-osmosis, which accelerates osmosis and increases the dryness of the excreted substance.

In addition to these beneficial effects, in most cases there is an improvement to the advantage that through the purely geometric enlargement of the cathode surface the current

density at the anode is relatively increased, which is particularly important in the osmosis of clay is advantageous.

Claims (3)

Patent Claims: 1. Method for carrying out electroosmotic processes in which a strong Fractionation of the suspension is achieved in that on its way to the anode it has a size the anode area considerably exceeding cathode surface. 2. The method according to claim 1, characterized in that after the anode flowing suspension is broken down into individual currents limited by cathode surfaces. 3. Cathode for carrying out the method according to claim 2, characterized in that that it is composed of lamellas. 1 sheet of drawings.