DE2056784C3 - - Google Patents

Description

4. Electrolyte cell for carrying out the procedure. 1 shows a schematic arrangement of the ionophoresis of a dilute electrolyte cell according to an embodiment of the Erijtlcsusg according to FIG. Claims 1 and 2, characterized in ₂ :

draws a diaufs.vhi on cine uiod.iizisiic through a shot uetiaiter (4; r i g. 2 i »i

with a plurality of porous plate electrodes (6), electrolyte cells in section along the line AA in, each of the plates being arranged so that they 3c Fig. 3;

with one phase of a multiphase alternating current F i g. 3 is a schematic sectional view of FIG

source is connected, with insulating screens F i g. 2, and

(5) arranged between these electrodes (6) F i g. 4 shows an enlarged plan view in section

are, and through inlet means (1) for inlet through another modified electrolytic cell nnch

lead the electrolyte solution into the container and 35 of a further embodiment of the invention.

Outlet devices (2, 3) for electrolysis, according to the invention, a method was found

originating liquids. and a device for ionophoresis, that's that

5. Electrolyte cell according to claim 4, characterized in that the ionic cataphoresis of a dilute electrolyte that electrodes (6) and insulating solution, which is characterized by the fact that a special screen (5) are square in shape. 40 fischer multiphase alternating current is applied.

6. Electrolytic cell according to claim 4, characterized in that the principle of the method according to the invention is indicates that electrodes (6) and insulating as follows. Becomes a specific multi-phase alternating screen (5) the shape of a concentric cylindrical flow to multiple arrays of porous parallel shells exhibit. switched plate electrodes, so move

7. Electrolyte cell according to claim 4, characterized in that the positive and negative ions of an electrolyte 45, electrodes (6) and screens (S) solution together in the same direction with a spiral around a core column (10) around a cyclical change in the electrode polarity. Hence extend. an electrolyte concentration gradient is established across the electrolyte cell, with concentration

50 electrolytes from an outlet of the cell and in

receives essential purified water from the other. The specific multiphase used in the invention Alternating current should be 2 to 4 phases, 0.4 to

The separation of an electrolyte solution by concentrating 20 electrolyte volts and 0.1 to 60 periods per minute Tration at one pole of a direct current field and 55 have. Experiments have shown that then Thinning at the other pole of such a field would be if the alternating current did not meet these conditions by ionophofese uiiier using a fills, the ionophoresis actually or effectively does not semi-permeable membrane can be made of ion exchange resin. A special limitation or ion exchange membranes carried out. With regard to the waveform of the alternating current however, this method does not require preparation 60; the rectangular waveform offers an expensive resin or membrane has the highest efficiency.

Can and Take Appropriate Precautions, and The procedure can be carried out with the following devices

his or her replacement makes a temporary under- z. B. perform.

interruption of work required. In addition, the electrolyte cell according to FIG. 1 includes 3 indicates the regeneration of a used resin 65 orders abc, def and ghi rectangular porous or the reactivation of a membrane a noteworthy plate electrodes 6 for three-phase alternating current, borrowed effort. which are connected in parallel and linearly connected to each other

According to the invention, an industrial process is to be superimposed on a sealed container 4, wherein

a Isouerscninn or Isoliernetz 5 (insulating with the source 7, the arrangement retains the source 8

screen) is set in between. A thinned one and the arrangement cfi connected to the source 9.

Electrolyte solution is introduced at an inlet 1 when the three-phase power sources 7, 8 and 9

while the product solutions are connected to the electrodes in a concentrated manner, with the polar

Electrolyte liquid at an outlet 2 or 3 and 5 of these sources would be chosen so that the "piiicu-

Demineralized or purified water a'i the tension of each phase cyclically in the order 7, 8

other opposite outlet 3 or 2 out and 9 occurs, the distribution of the positive varies

be worn. The plate electrodes 6 & ind parallel and negative polarities of the electrodes accordingly

connected to three-phase power sources 7, 8 and 9. the previous change in electrical angles,

That bites, an arrangement adg of the electrodes is io as shown in the table below.

Distribution of positive and negative polarities in the electrodes

Ejek electrode symbol (degree)

fresher

Angle abcdefghi

As shown in the table, the temporal dissolution ensures an electrical conductivity of 1 to 2000 Mistiep in the electrical angle that the arrangement should have croohm per centimeter,
of the positive uüJ negative voltages of the E! ek- Di? Fi; 2 and 3 together show a mode

troden varies, so that the negative voltage of the 3 ° fication of the electrolytic cell according to the invention. Around Electrodes lying between positive electrodes a core column 10 are three long porous electrodes as well as the positive voltage of the between negative traces 6 with three long insulating screens or Electrodes lying electrodes gradually wrapped between them like nets 5 like a sand vein. This shifts to the right. Electrode screen arrangement is in a container 4

If in this case a dilute electrolyte 35 is received, which is electrolyzed with an inlet 1 for a crude solution when using this cell, electrolyte solution and two outlets 2 and 3 for the electrolyzed liquids so selected the frequency of the alternating current is provided. Three conductors for the ions to be induced, essentially 7, 8 and 9 of three alternating currents, not shown; Via the electrodes under an electrical source, three electrodes a, b and c are connected - angles of 60 ° depending on their motion. The container 4 is hermetically with a cap 11 to travel speed with respect to the field strength and a rubber stopper 12 is sealed. In Fig. 3 and the negative and positive ions of the electro- is only schematically the electro-screen arrangement of the lytes thus have a greater chance of going further and F i g. 2 indicated.

to hike to the right. Thus, the electrolyte provides a crude electrolyte solution is continuously on

such gradient concentration in which he introduced the main 45 inlet 1 and the specific mentioned is concentrated mainly on the right side, whereas ionophoresis action in a three-phase alternation this Concentration on the left side with a strong electrical field when passing between the electrodes 6 is reduced. Therefore, if the electrolytic cell is properly exposed. Essentially purified, in the middle of the cell is designed, a dilute electrolyte solution, collected water is withdrawn at outlet 2, and which slowly and continuously enters the cell at the inlet 50 a concentrated electrolyte liquid which at the Pass 1 is introduced, an ionophore effect has been collected from cell side, is exposed to port 3 and removed in concentrated form at outlet 3. Is the electrical wiring designed in such a way that drawn, and essentially purified water that reverses the polarities of the power sources at outlet 2. then the concentrated liquid occurs on

The concentration of one after the invention 55 outlet 2 and the essentially purified water according to the method to electrylizing raw electric at the outlet 3 from.

Lyte solution is subject to certain limitations. F i g. 4 shows another modification of the electrical

When an electrolyte solution is of the type that lyt cell. Large amounts of gas such as oxygen, hydrogen or as in FIG. 1 are connected to three power sources 7, 8 and 9 in parallel. 1 three concentrically arranged anordic chlorine occur during the electrolysis, so it becomes vibrations of porous cylindrical electrodes 6 for Dreirig to provide the device with devices for removing phase alternating current with this gas inserted in between, whereby the danger of an insulating porous cylinder 5 switched. The mixing of oxygen and hydrogen in circuits of electrodes a, b, c, d, e, f, g, h and i simultaneous explosion is evoked. So the electrode sources 7, 8 and 9 are just as long as the quantities of such a gas produced are tiny 65 those described in FIG. 1,
the practical destruction is little. Experi method and device according to the invention

Ments show that essentially one of the gas- enable continuous ionophoresis via a Development of free raw electrolyte during electrolysis - long period through simple actuation without

Use of any conventional expensive ion exchange resin or membrane which is difficult to handle. The measure according to the invention has a wide range of industrial applications such as B. the production of pure water from sea water, the concentration of sea water, removal of particular tiny substances contained in a solution, purification of liquid "waste water" from plants and recovery of usable materials from it.

The following examples illustrate the invention without limiting it.

to

rectangular waveform introduced. As a result, continuously were 0.5 cc per minute extremely purified water with an electric Leitfähij "- speed of 0.8 micro-ohms per centimeter at 2O ⁰ C and 1.0 cc per minute ADtIuU having an electrical conductivity of 2.9 micro-ohms per centimeter obtained at the same temperature. The electrical current varied between 0.12 and 0.20 amps.

B e i s ρ i c 1 3

The ionophoresis of dilute saline water using the same cell as shown in Figs. 1 and 3 was performed. The experiment was carried out for cleaning 15 were laminated strips, consisting of three right from groundwater using an electrolyte square wire mesh with the dimensions of the cell shown in FIG. 1 type shown. The used 10 χ 300 cm, with Japanese paper of the same size electrodes consisting of 90 corrosion-resistant was inserted between them; These laminated wire caliber nets of rectangular shape. 2 χ 15 cm order was spiraling around a glass column of dimension. A thin 20.8 mm diameter was wound between the electrodes, the 10 cm side of felt webs of the same shape made of insulating material being positioned parallel to the axis of the glass column. AU «! introduced. Continuously in the ZeUe Grund- this umnfen; «-. · - _..-. · - water with an electrical conductivity of 250 microohms per centimeter at 20 ° C with a throughput of 2 ecm per minute, using a three- 25 phase alternating current source of 6 volts and 6 periods per minute with rectangular waveform introduced. As a result, 1 ecm per minute of purified water with an electrical conductivity of 12 micro-ohms per centimeter at 30 20 ⁰ C and 1 ecm per minute of concentrated liquid with an electrical conductivity of 330 micro-ohms per centimeter at the same temperature were obtained. The electrical current fluctuated between 2.5 and 3.4 amps. 35

A three-phase rectangular waveform electrical power source used for the apparatus of the Invention used can be provided by making a rotor with two semi-cylindrical conductors was set in rotation, which is mounted isolated on a cylinder, the rotor by a Slip ring is connected to the positive and negative terminals of a DC power source and carries electricity was collected by means of a brush in three places at a distance of 120 ° circumferential angle.

Example 2

A ElektrolytzeUe the same construction and dimensions as in Example 1 were continuously into the ZeUe was used 1.5 cc per minute of distilled water having an electric conductivity of 2.1 micro-ohms per centimeter at 20 ⁰ C using a three-phase alternating current source of .8 Volts and 8 periods per minute with one

d? e _Se JZ · ^silLlc positio ar. All

from 17 mm τ ^m J ^m ? ^tl cylindrical glass container borrowed w «rZ f"" ^e . ^nt L ^u ^ ^into / ^se r inserted. Continuously. i Z ^Ze " ^e ° ' ⁶ °° ^Ώ1 P ^{ro Minu} * an SOfach Kekd ^^ ΙΪΤ * " * ^{an elek} t ™ hen Leit-20 ^c C under WrI ^ ⁰ ^ ^per Z «*"' »« «at upstream I 7 ^ f ^Df! T ^"three P ^ha * strength Wechselvo rechieS Z ° u T * ° ^{'36 minute periods} P ^ro

l KI n 5 Z ™? "^ w ^{m Continuously Ρ} - ^{ΓΟ minute" substantially}

keS νοϊ ^^ Τ T ^{an electrical} conductivity and 0 45 o ^ m "" ™ f ^m P ^ro - "ntimeter at 2O ⁰ C

elel-Wh ™ τ ^ ₁ H ¹ " ¹ " * ^atl wastewater with an «« .inscnen Leitfahiskftit of ° oo m; v - «, -

^ u " ? ^{eichen Tem} PeratuT De'r" ele £ fluctuated between 0.5 and 0.7 amps.

Discarded t

odeil ^ ^s _ro ^we ^ ^nsels

₅ o BeisniMI Ä.

^{Electrolysis of} the same

⁵ ^ ^{As Ae in Be 's} P ^ieI3 · ™ °' ^6ccm P ^ro minute ^ ™ ^{6 kon} ™ Endem water with ^ ^{tfälligkeit of 68} micro-ohms per ^ ^ ^{1 20} "C using a ^three-we ^ ^{nselstro. Mt} l ^u eIIe of 4 volts and 2.5 peri-

T ₀

^ h ^ acidified water with a ^ ", Γ * » Mihoota »per £ 35Sw? ^ S ^Ρ ™ ^{mmtc an} *" ** # ** water "obtained conductivity of 24 microohms _C ^{ei dCf same T} ^ peratur." ^{sd ! mankUi} »^ hen 0.15

6121

Claims (3)

Ionophoresis and a device for this are created Are 1. A method for ionophoresis a dilute resin or an expensive membrane tenöügt würdeu, the electrolyte solution, dadurcbgekennziich- 5 difficult to handle, as ice dekirisdicr current was the case in the prior se U AAB by the solution technique. This is achieved according to the invention by using each of which is associated with a phase of a multiphase turn of a specific multiphase alternating Wcdad ^ uaqaOc , wofcrf <ü «e sxroB-s S3 SiSl ^ of the Öbhcherwe.se used O _eic H. Solution an electrical conductivity in the range of xo current. Namely, a process was found that has from 1 to 2000 Mftroohm per centimeter, phoresis but treatment of an electrolyte solution that the number of phases of this source between found, which is characterized by the fact that one amounts to 2 and 6 and the electrolyte solution diluted between these electrodes with an electrically applied voltage of the order of magnitude between conductivity of 1 to 2000 microohms per centimeter 0.4 and 20 volts is selected, the i _S meter using an alternating current electro-frequency of this source between 0.1 and 60 Pen- lysiert, whose phase number, electrolyte voltage and dullness per minute. Frequency 2 to 5, or 0.2 to 10 volts hzw. 0.4 to 2. A method for ionophoresis according to claim I, 6Ö periods per minute in each case, these characterized in that a plurality of electrolyte voltage to multiple arrangements of porous Electrodes are connected to each phase of this source ao plate electrodes for a parallel-connected more, phase alternating current is applied. 3. A method for ionophoresis according to claim 1, for example. Embodiments of the invention or 2, characterized in that this will now be explained in more detail with reference to the drawings AC current is of square wave form. be in which