DE3309021A1 - Process and apparatus for treating water - Google Patents

Abstract

In order to be able to exert an influence on inorganic and organic pollutants during the treatment of water, it is proposed initially to exert an influence on the ion concentration in water during a first treatment step and then, during a second treatment step, to produce an excess of either positive or negative ions. At an elevated concentration of (H3O)<+> ions, the inorganic salts (boiler scale and the like) dissolve. At an elevated concentration of (OH)<-> ions, organic pollutants can be rendered harmless by means of oxidation. <IMAGE>

Description

Method and device for the treatment of water

The invention relates to a method for water treatment. In addition, one relates to a device suitable for carrying out the method.

In the water supplied by the public waterworks there are both inorganic and often organic substances dissolved, the undesired deposits (e.g. scale) in the systems operated with this water or Cause corrosion to the inorganic contaminants To render harmless, it is known to add additives to the water (DE-PSs 15 17 540 and 18 11 032) or to use ion exchangers (cf. DE-PSs 16 42 and 18 10 204). For removing organic substances microbiological routes are known (DE-PS 24 17 431). Furthermore, organic substances have already been proposed to oxidize anodically by passing the water through an electrolytic cell, which is a contains conductive bulk material (DE-PS 24 24 091).

The disadvantage of the described prior art is that the proposed means and devices for influencing on the pollutants either only the organic ones

or concern the inorganic substances dissolved in the water. Furthermore, require the masses used in ion exchangers and also that in the electrolytic cell use te - adsorbent regeneration phases that ensure continuous operation of the respective water treatment facility prevent or - at. Use of two devices connected in parallel - make it costly. In the end ion exchangers have the disadvantage that their bed often becomes a source of bacteria, so that the ion exchanger softened water can be removed; however, the germs contained in the water can in such cases have a dangerously high concentration.

The present invention is based on the object of a continuously applicable method for water treatment to create, with the influence taken on both inorganic and organic pollutants in the water can be.

According to the invention this object is achieved in that during of a first treatment incision has an influence on the ion concentration is taken in the water, and that during a second treatment cut an excess of positive or negative ions is generated.

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The ion concentration can be influenced either by irradiating the water with laser light, UV light, microwaves, "electromagnetic Sfrah ¹ " (X-rays, rays) or electron beams, which causes an ionization process. The result is increased (OH) - and (H_0) - ¹ concentrations, which corresponds to an increase in the ion product. Electrical pulses also have such an effect. A Tesla coil can be used to generate electrical high-voltage pulses, which is arranged in the immediate vicinity of an insulated line section. The material of this The line section expediently has a high relative permittivity. Needle electrodes arranged in the water can be used as electrodes.

Without one in the immediately following treatment incision effected local separation of the positive ions from the negative ions and neutralization of one type of ion would become a Recombination occur so that the water ultimately remains unchanged would be left. Therefore, a local separation takes place differently immediately after the generation of the ions charged ions in an electric or magnetic field, with the neutralization of an ion species in the range of a electrically conductive wall of the line section arranged in the electric or magnetic field takes place.

Should, for example, an increased (H_0) ion concentration in the exiting water must be generated, then for a neutralization the (OH) ions are taken care of. This is done first by local separation of the positive from the negative ions and then e.g. by diverting electrons, namely according to the

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Applicability:

4 (OH) "- *. 0. + 4 e ~ + 2

Dissolve in water with increased (H, O) ion concentration inorganic salts, e.g. scale, according to the equation:

Ca CO, + 2 (HO) ⁺ - ^ Ca ²⁺ + CO- + H _n O

On the other hand, organic solvents should be used tion are rendered harmless, then an excess of (OH) ions must be generated in the water. That happens_in in a similar way, by neutralizing the (H_0) ions that are produced by supplying electrons via a conductive wall area can be reduced.

The influence on the ion concentration in the to be processed Water can also be acidified with a weak acid, preferably carbonic acid, according to the following Reaction equation happen:

H ₂ O + H ₂ CO ₃ ^ * ^(H 3 ^{0) ++} < ^HC0 ₃ ) ~

In the electric or magnetic field there is a shift of the equilibrium to the right, so that at

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simultaneous neutralization of (OH) ions an excess of (H-O) ions remains in the exiting water. As already mentioned, this excess causes a dissolution of Scale.

Further advantages and details of the invention are intended to be based on exemplary embodiments shown in the figures explained for devices for performing the method will.

Figures 1 and 2 show in cross and longitudinal section a line section i, aem laterally arranged plates 2 and 3 are assigned. These plates have different potentials, so that between them an electric field, indicated schematically by the lines 4 is present. Immediately above the plates - based on the flow direction direction of the water (arrow-5) - is the pipe section an only schematically indicated device 6 for influencing the ion concentration is assigned. This can be too treating water can be irradiated through the window 7 with UV light or laser light. Even microwaves with a Wavelength of e.g. electrical impulses conducted through the water (approx. IkHz, approx. Io V) cause ionization of water molecules. Finally, a device to acidify the water with a weak

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Acid be placed at this point.

The migrate in the subsequent electric field positive ions to the negative electrode 3 side, while the concentration of negative ions in the The area of the positive electrode 2 is increased. To one of the To be able to neutralize ion types, shows in the cross-section rectangular shaped line section 1 wall areas made of different materials. When shown The exemplary embodiment is the VaneJungsbereich perpendicular to the field lines 4 and adjacent to the positive electrode 2 8 made of conductive material (e.g. aluminum), so that a neutralization of the concentrated in this area (OH) ions takes place. The remaining wall areas 9, 11, 12 'consist of non-conductive material (e.g. plastic), so that a neutralization of the positive Ions does not take place. After flowing through the electric field, the water therefore contains an excess of positive ions, which causes the dissolution of many inorganic pollutants. There are also wall areas

made of metal with a plastic insert, can be used Find.

By simply switching over the electrical field, can be achieved that a neutralization of the positive Ions takes place. With the one then in the water

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Excess of negative ions leads to oxidation of organic ones Contaminants instead.

Figures 3 and 4 correspond to Figures I and 2. Only instead of electrodes 2 and 3 are line section I. enclosing horseshoe magnets 13, 14 and 15 are provided, so that the water to be treated flows through a magnetic field to separate the ions, indicated by the field lines Since the Lorentz force is perpendicular to these field lines 16 and acts on the direction of flow of the water (arrow 5), one of the two wall areas parallel to it must be made of conductive Material exist so that one of the two types of ions can vejdew neutralized. That is in the illustrated embodiment the wall area made of aluminum, for example. The remaining wall areas 9, 11, 12 are again expediently made made of plastic.

Wall areas with different materials can be dispensed with if an arrangement according to Fig. 4a is hit. The line 1 protrudes partially from the magnetic field 16, so that in this area the magnetic field, thus the Lorentz force and thus the neutralization of the ίο-nenart present in this area is weaker on the conductive pipe wall. Additional iron plates and a coil are included 10 and 20 designated.

The line section 1 according to Figures 1 to 4 can be straight or curved. To save space, the circular shape is useful, Spiral shape or helical shape.

Figure 5 shows an embodiment of the water outlet is connected via a line 18 to a system 19 to be cleaned. over the line 21 with the Valve 22 and the pump

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23, the water inlet 24 is connected to this system. The pump 23 causes the water to circulate over the valve 22, the water with the dissolved contaminants can be withdrawn. Immediately before inlet 24 the device 6 is again arranged, in which the first treatment cut, the influence on the ion concentration, he follows.

The second treatment device comprises a cylindrical one Container 25, which is closed at the front with lids 26 and 27. Water inlet 17 and water outlet 24 are arranged tangentially (, figure 6). The inside of the cylinder jacket is used for the helical forced guidance of the water 25 equipped with a helical web 28. Farther a rotor 29 is provided with blades 32 which extend up to in front of the web 28 and are arranged parallel to the axis of rotation 3 1, the is rotated by the water. Its shaft 33 passes through the cover 26, 27 and is in the end faces of the container 25 associated pole cores 34 and 35, whereby a holding of the vessel (25) is achieved at the same time.

The pole cores 34 and 35 have the shape of mushrooms, the heads of which face the vessel 25. On their stems are Coils, in the manner of Helmholz coils, pushed on, which are to be supplied with power in such a way that between the poles

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cores 34 and 35 a strong homogeneous magnetic field is created.

The cylindrical container 25 with its lids 26 and 27 is expediently made of non-conductive, non-magnetic material (e.g. aluminum) so that the magnetic field is not obstructed. The same applies to the shaft 33, which is made of VA steel, for example. The rotor is made of non-conductive material so that no neutralization of ions takes place in its area. A reverse choice of materials - rotor conductive, cylinder not conductive - is also possible.

Figure 7 shows an embodiment with it from the inlet to the outlet 24 conically tapering rotor 29. In such a device with improved effect it is furthermore expedient to when the water is taken in the area of the center. Such a water outlet is shown and with designated. Such a water outlet is shown in dashed lines in FIG shown.

The advantage of the system described is in particular in that, depending on the direction of the electrical or magnetic field causing the ion separation, inorganic or organic Pollutants can be dissolved in the water.

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The choice of direction is possible by simply switching over. In principle it is conceivable that the electrical or magnetic field to be chosen so strong that not only the separation but also the ionization of the molecules thereby achieved, a separate device 6 can be dispensed with

of a magnetic field with a field strength of more than

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10 Tesla needed, which is currently is not yet possible with a reasonable effort.

Claims (26)

Method and device for the treatment of water claims 1) Process for water treatment, characterized in that that influence during a first treatment incision the ion concentration in the water is taken and that an excess is taken during a second treatment cut is generated on positive or negative ions. 2) Veviahren according to Ans-pi-'uch 1> characterized ,,. during the first treatment cut in the to be processed Water increases the ionic product. 3) Method according to claim 2, characterized in that the water to be treated to increase the ionic product with laser light, UV light, microwaves, electromagnetic Rays or electron beams are irradiated. 4) Method according to claim 2, characterized in that the increase in the ion product in the water to be treated takes place with electrical impulses. 5) Method according to claim 1, characterized in that the water to be treated is acidified during the first treatment step, preferably with H "CO_. 6) Method according to one of the preceding claims, characterized in that during the immediately
the first treatment cut following the second treatment cut positive and negative ions are locally separated from each other and that to generate an excess of positive or negative ions a
Neutralization negafcivtr or y. positive 'ions causes
will. 7) Method according to claim 6, characterized in that the separation of the ions and the neutralization of the one Ion type within an electrostatic / or magnetic see electromagneti table field is effected. 8) Device for performing a method according to claim 7, characterized in that it has a first
Treatment device (6) for influencing the ion concentration in the water and a further treatment device (25) for separating positive and negative ions and for neutralizing one of the two types of ions. COPY 9) Device according to claim 8, characterized in that that the first treatment device is a source of Contains laser light, UV light, microwaves, X-rays, ^ rays or electrons. 10) Device according to claim 8, characterized in that the first treatment device is a device to acidify the water to be treated. M) Device according to one of claims 7 to 10, characterized in that means for generating an electric or magnetic field are provided for separating the ions in a & r further treatment device. 12) Device according to claim 11, characterized in that a line section leading the water to be treated (1) is arranged between two plates (2,3) generating an electric field. 13) Device according to claim 12, characterized in that the Lei ^ line section (1) from the electrical Field does not affect material and that two approximately perpendicular to the electric field lines arranged wall areas (8, 12) are provided, of which one (8) is made of electrically conductive, the other (12) made of electrically non-conductive material stands. -L- 3308021 . S- 14) Device according to claim 11, characterized in that a line section (1) carrying the water to be treated between the poles of one or more Magnet is arranged. 15) Apparatus according to claim 14, characterized in that the magnet is designed as a horseshoe magnet (14) and that the line section leading to the water to be treated (1) is arranged between its poles. t & ^ device according to Au & pruch 15, characterized in that the line section (1) is straight or curved is and that several horseshoe magnets (13, 14, 15) are arranged next to one another. 17) Device according to one of claims 14, 15 or 16, characterized in that the to be processed Water-conducting line section (1) consists of the magnetic field not influencing material and that two Wall areas arranged approximately parallel to the field lines are provided, one of which is electrical conductive, the other is made of electrically non-conductive material. COPY j r- 18) Device according to claim 17, characterized in that the line section is designed rectangular or square in cross section and that a wall area lying parallel to the field lines made of aluminum and the rest
Wall areas consist of plastic. 19) Apparatus according to claim 14, characterized in that the pipe section carrying the water to be processed Magnets, preferably
is arranged between the poles of two / electromagnets and that the water in this area is helically or spirally geiunrt. 20) Device according to claim 19, characterized in that a cylindrical chamber (25) with a rotor (29) rotatably mounted parallel to the magnetic field lines is arranged between the poles of the magnets, in which
the water is forcibly guided in a helical manner. 21) Apparatus according to claim 20, characterized in that the jacket of the chamber is equipped on its inside with a helically extending web (28) and that the Rotor has blades (32) aligned parallel to the axis of rotation up to in front of the web. 303021 22) Device according to claim 21, characterized in that the water inlet and outlet are arranged tangentially. 23) Device according to claim 21, characterized in that the rotor from the water inlet to the water outlet conically tapered and that the water outlet is located near the center of the chamber. 24) Device according to one of claims 20 to 23, characterized in that the rotor has a shaft which passes through the ax end faces uer chamber and is mounted in the pole cores (34, 35) of the electromagnets. 25) Device according to one of claims 20 to 24, characterized in that the end faces of the chamber (25) the heads of approximately mushroom-shaped pole cores are assigned and that Helmholz coils on the stems are arranged. 26) Device according to claim 4, characterized in that that a Tesla coil is provided for generating electrical high-voltage pulses, which is in the immediate vicinity an electrically insulated line section is arranged.