DE19618217A1 - Electrochemical treatment has vibrating electrodes - Google Patents

Abstract

Electrochemically treating fluids which contain dissolved or solid matter in an electrolytic cell in which an electric voltage is applied across two electrodes which are immersed in the fluid, where the novelty is that the electrodes are mechanically caused to vibrate at a frequency in the range from 1 - 40,000 Hz (ultrasonic). Also claimed is an apparatus for the above method where the reaction vessel (10) has a fluid inlet (14); an overflow outlet (17); electrodes (11); and a mechanical exciter (12) which causes the electrodes to vibrate (13).

Description

The invention relates to a method and an apparatus for electrochemical treatment of liquids containing substances in dissolved contain and / or in solid form with at least two electrical those immersed in the liquid in a reaction vessel and the between themselves after applying an external electrical voltage in the liquid has an electrical current flow through ion conduction build, directed.

In such electrolysis processes in which electrical charges by ions of the liquid (electrolyte) between electrodes trans ported, different goals and results are known.

So the decomposition of the liquid can be the goal of electrochemical Be treatment, such as the decomposition of water in what hydrogen and oxygen on platinum electrodes, or it is a separation of dissolved substances from the liquid by attachment to the Electrodes desired, such as the deposition of gold from a hydrochloric acid gold chloride solution.

The cleaning of contaminated or heavy metal is also known len contaminated water by electrochemical treatment. So is from EP 0 341 138 a process for the purification of waste water (oil in water emulsions) known by electrocoagulation, with a soluble anode assembly made of metal particles that are firmly attached to the electroly  sea container - a rotating drum - is arranged and with a Katho the arrangement in the electrolysis liquid of the rotating drum immersed.

EP 0 686 604 describes a process for cleaning Dirty water is reported when electrodes are in a stirred tank are hung in which the liquid to be cleaned is mixed with a stirrer defined flow between the electrodes, the Dirt particles due to the applied electrical voltage flake.

Electrolysis processes are also known in which the Consume electrons because of the applied electrical span Electrode material in the form of ions goes into solution, for example wise in melting electrolysis for aluminum extraction.

It is an object of the invention to known methods for electrochemical treatment of liquids immersed in the liquid Electrodes by means of suitable structurally simple measures form to improve the effectiveness of the electrodes.

The task is solved procedurally with the measure men of the characterizing part of claim 1 and device-wise with the features of the characterizing part of claim 5.

By the measure of the invention, which in the electrochemically too treating liquid immersing electrodes in mechanical Moving vibrations are the same conductivity Liquid (electrolyte) the diffusion processes on the surface of the Electrodes advantageous in the sense of a better or faster us influence. Because by the at the phase boundary layer of the elec tread surface due to the mechanical vibrations The turbulence becomes the thickness of the laminar phase boundary layer reduced, this results in a reduction in the current  contact resistance and thus a higher diffusion speed density (higher current density A / cm²) resulting in a higher Mass exchange between electrodes and liquid.

Furthermore, the one that starts as a result of the mass transfer is advantageous Passivation of the effective electrode surface, which in known Procedure requires a polarity reversal of the current direction, far prevented.

The method of the invention can be advantageous in all methods are used in which electrodes are used for mass transfer in cementation or flotation.

For example, the addition of trigger reagents in Flota tion suspensions are reduced or completely saved if the Suspension electrochemically treated by immersing electrodes delt is. Here have the use of mechanically vibrating Electrodes with the advantages described above - Avoid passivation of the electrode surface, reduction of the Treatment time - proven several times over.

The electrochemical treatment with the Schwin offset electrodes in conventional flotation (Rüh rerflotation) within the flotation cell, while at pneumatic flotation the electrochemical treatment be preferably in a reaction vessel upstream of the flotation cell he follows.

Another area of application is in precipitation processes (cementation) given where substances released by adding reagents should be felled. For example, arsenic ions are removed holding waste water during electrochemical treatment with iron elek arsenic ions pass through as iron ions in solution Arsenic failed. The precipitated arsenic product can then ß with known means (flotation, sedimentation / centrifugation) then be removed from the wastewater.  

For example, at a baseline of 100 mg / l arsenic to reach a desired value of less than 0.01 g / l arsenic after a treatment period with fixed electrodes procedure of at least 20 minutes is required. Through the Measure according to the invention, the electrodes in vibration to offset the duration of exposure with the same current density reduce to less than 10 minutes. Results were similarly good also with waste water containing heavy metals, for example molyb dan, were contaminated.

Further details of the invention are given below in a the drawing figure schematically illustrated embodiment explained in more detail.

The device shown in the drawing consists of a reaction vessel 10 which is open at the top and has a bottom which tapers conically into a tip 16 and through which coarse dirt and / or precipitated products can be drawn off. The suspended from above in the re action vessel 10 electrodes 11 (so deep that it is in the liquid-submersible) are connected to an arranged above the reac tion vessel 10 vibration generator 12 are rotated by the electrodes into mechanical vibrations in accordance with the direction of the arrow. 13

At the top of one of the side walls 20 of the reaction vessel 10 there is the inlet 14 for the liquid to be treated, and this inlet 14 opposite the outlet via an overflow edge 17 of the reaction vessel 10 .

In the electrochemical treatment to be treated flues is sigkeit via the inlet 14 from above into the space between the side wall 20 of the reaction vessel 10 and a guide element introduced into the reaction vessel 10, 18 and flows through the succeeding liquid due down to the bottom of the reaction vessel 10 degrees.

There, the liquid is deflected upward in the direction of arrow 19 , with coarse soiling accumulating in the tip 16 and being discharged there.

The liquid now flows past the surface of the electrodes, which are set in mechanical vibrations and acted upon with an applied electrical voltage, and is discharged over the overflow edge 17 of the reaction vessel 10 .

The flow rate within the reaction vessel 10 is dimensioned such that the residence time in the reaction vessel 10 is sufficient to achieve the desired electrochemical effect.

In the application example of a cementation, it is also important tig that the sedimentation of the precipitated products down to Soil against the inflowing liquid can take place, so that the upstream velocity can be adapted to this sedimentation must if the separation is to take place in the reaction vessel. It is but also possible to do this separation in another later perform the following process step.

Possible embodiments of the invention are not based on that in FIG The illustrated embodiment is limited. A lot there are also other versions that differ from the example shown possible. For example, the inflow can be treated the liquid from below into the reaction vessel, the Schwin Generic pathogens can also below the electrodes or in the Liquid can be arranged directly on the electrodes.

Claims (9)

1. A method for the electrochemical treatment of liquids which contain substances in dissolved and / or in solid form with at least two electrodes which are immersed in a reaction vessel in the liquid and which act between them after application of an external electrical voltage in the liquid by ionic conduction Build up an electrical current flow, characterized in that the electrodes immersed in the liquid are put into mechanical vibrations with a frequency between 10 and 40,000 hertz (ultrasound) during the applied external electrical voltage by a vibration exciter . 2. The method according to claim 1, characterized in that only an electrode is immersed in the liquid while the counter electrode is formed by the walls of the reaction vessel. 3. The method according to claim 1 or 2, characterized in that electrochemical treatment with mechanically vibrating Electrodes during a cementation process (precipitation) he follows. 4. The method according to claim 1 or 2, characterized in that electrochemical treatment with mechanically vibrating Electrodes during and / or before a flotation process follows.   5. Device for performing the method according to one or more of the preceding claims, characterized by

• - A reaction vessel ( 10 ) with an inlet ( 14 ) for the liquid to be treated electrochemically and with an overflow edge ( 17 ) for the outlet of the treated liquid;
• - Electrodes ( 11 ) which are arranged inside the reaction vessel ( 10 ) and which are immersed in the liquid and
• - A vibration exciter ( 12 ) for generating mechanical vibrations, which is connected to the electrodes ( 11 ).

6. The device according to claim 5, characterized in that the outlet of the reaction vessel ( 10 ) is connected to the inlet of a flotation cell. 7. Apparatus according to claim 5 or 6, characterized in that the vibration exciter ( 12 ) is arranged outside the reaction vessel ( 10 ). 8. Apparatus according to claim 5 or 6, characterized in that the vibration exciter ( 12 ) is arranged within the reaction vessel ( 10 ). 9. Apparatus according to claim 5, 6, 7 or 8, characterized in that the vessel wall of the reaction vessel ( 10 ) is connected to the external electrical voltage source so that the vessel wall takes over the function of an electrode.