DE20122457U1 - Electrode in water supply creates alkaline medium of limestone nanocrystals continually inoculating water supply - Google Patents

Abstract

In a process to minimise the deposit of limestone scale on the pipes and component parts forming a water system, a cathode electrode located within the flow of water generates an alkaline medium resulting in spontaneous generation of limestone nanocrystals. The nanocrystals act as inoculation crystals around which further limestone deposits take place. Also claimed is a suitable electrode (12) assembly connected to an electrical power source. The electrode rests on a support made of a water-porous material.

Description

The Innovation relates to a device according to the preamble protection claim 1.

Known are devices for the prevention of Formation of waterstone, d. H. Limescale protection devices in the form of water softening systems, based on ion exchange or reverse osmosis.

Farther Dosing systems are known with which the water crystallization-inhibiting chemical substances are added. Disadvantage of these devices or procedure is, however, that they to permanently change the water chemically, including in the case of deficient ones Care during the operation consequential problems, for example in the form of corrosion, Germination and other, goodness or the use of water affecting factors occur can. In the case of drinking water there is also the risk of damage to health. Further Disadvantages are the permanent use of chemicals in the dosage of water or for the regeneration of the facilities as well as the partial high technical effort, for example, in reverse osmosis systems consists. Overall, these known devices and Process also adversely affecting the environment and those worthy of protection Water resources.

Known are also electrolysis systems using internal electrodes Water or watery solutions of salts decompose. However, these facilities will be less in the water treatment and water treatment, but preferred in used in the chemical industry, for example as a process for chlor-alkali electrolysis of saline solutions for the production of caustic soda and chlorine. The production of chlorine in saline water is also used in electrolytic disinfection of water, e.g. In swimming pools, exploited.

Known is also that calcareous water for the formation of scale deposits on walls of water-bearing Leads, etc. leads and these limestone deposits cause considerable damage to aquifers Cause devices that impair their use or even their destruction to lead.

task The innovation is to show a device with or with the prevention of limestone in aquatic in a simple way Systems is achieved, without the use of chemical Means.

to solution This object is a device according to the protection claim 1 formed.

Of the substantial advantage of the innovation over the prior art that an effective Prevention of scale deposits without significant chemical change water and without the use of chemicals.

Of the Innovation is based on the knowledge that the calcareous Water-containing lime preferably only from the chemically dissolved, ionic state attached to foreign body surfaces and then the hard, hard to remove deposits or encrustations forms. In doing so, lime can, however, follow the rules of thermodynamics only leave as long as he is in the so-called oversaturated State is. This means that never the whole, amount of lime present in the water, but only the supersaturated part excretes. Due to the kinetic inhibition but lime falls in low supersaturated Condition does not spontaneously in the water volume, but stores (energetically favors) prefers to foreign body surfaces, what then the above-mentioned scale deposits, hard difficult to remove deposits or encrustations with the mentioned Disadvantages conditionally.

at The innovation will now be in the calcium carbonate-containing water temporary and local changes of the PH value electrolytically produces calcium carbonate nanocrystals, namely by the fact that at the electrolysis in the region of at least one connected as a cathode or acting electrode of the electrode assembly an alkaline Environment in the calcium carbonate water is created and this Milieu the spontaneous crystallization of lime to form the nanocrystals causes. These are then in the water as seed crystals for binding of the whole, in the supersaturation state lime available, as a result of further crystallization of the seed crystals formed lime crystals over long time floating in the water are and in particular superficially insufficient binding forces have one another and / or to foreign surfaces, so that hard Deposits or deposits that lead to disturbances in the water Systems could not occur, but the dissolved water, the excess lime is removed from the water.

The Innovation will be described below with reference to the figures of embodiments explained in more detail. It demonstrate:

1 in a simplified representation of a section through a device according to the innovation;

2 in a simplified representation of a section corresponding to the line II of 1 ;

3 in an enlarged view a partial section through the tubular electrode assembly of the device of 1 ;

4 in a simplified representation of an electrode unit in a further possible embodiment of the innovation.

The in the figures generally with 1 designated device for the prevention of water stone in water-bearing systems has a housing which is similar to the known housings of domestic water filters, ie, the housing consists essentially of an upper housing part 2 and a lower, designed as an elongated, closed cap housing part 3 , soft with its open side over a screw connection 4 at the lower, open end of the housing part 2 can be tightly fastened. The housing part 2 has a connection 5 , which forms the water inlet, as well as a connection 6 which forms the water outlet. The lower housing part 3 , but also the upper housing part 2 (in the connection area with the housing part 3 ) are circularly cylindrical, concentric with a central axis M perpendicular to the axes of the terminals 5 and 6 lies. The connections 5 and 6 are arranged coaxially.

In the housing part 2 is also a water guide formed by a tubular section 7 provided so that this water supply or this channel 7 on the one hand the connection 6 forms, on the other hand, however, inside the housing an internal connection 8th with an opening which is arranged with its axis coaxially with the central axis M and lies in a plane perpendicular to this central axis.

In the area of the connection 8th is a flow sensor 9 provided in the illustrated embodiment of a in the water supply 7 arranged and at the same time serving as a check valve sensor element 10 and from an outer coil 11 whose inductance depends on the position of the sensor body 10 changed and thus allows a dependent on the implementation amount sensor signal. The position of the sensor body 10 depends on the water supply 7 flowing amount of water.

Below the sensor body 10 or the flow meter 9 is at the terminal 8th a tubular or hollow cylindrical electrode unit 12 connected with its one open end. The other end of the electrode unit 12 rests against the inside of the bottom of the housing part 3 and is sealed there.

Between the outer surface of the electrode unit 12 and the inner surface of the cylindrical circumferential turn of the housing parts 2 and 3 is a ring channel 13 formed with the connection 5 communicates, so that the connection 5 to the connection 6 towards a water flow is possible, through the annular channel 13 , through the wall of the electrode unit 12 into the interior of the electrode unit and from there via the channel 7 to the connection 6 ,

The electrode unit 12 consists of a cylindrical support body 14 from a porous, water-permeable, electrically insulating material, for example made of sintered plastic. On the outer and inner surface is the support body 14 each with an electrically conductive or electrode-forming layer 15 respectively. 16 Mistake. In the illustrated embodiment, these layers consist of a carbon fiber fleece.

The flow sensor 9 is via a sensor line 17 to an electronic control system 18 connected, among other things, to control the electrode unit 12 serves and over a supply line 19 with the electrodes 15 and 16 connected is.

To quickly replace the electrode unit 12 to enable is the connection 8th designed so that after attaching the electrode unit 12 at this connection at the same time the electrical connection between the at least two conductors of the supply line 19 and the respective electrode 15 respectively. 16 is made.

On the one hand, the electrode unit serves 12 as a conventional filter. This is the porosity of the support body 14 chosen appropriately. The electrode unit 12 But in particular also serves for an electrolytic treatment of the water flowing through the housing in such a way that achieved by a in the electrolysis, ie in the region of acting as a cathode electrode local change in the pH value, the kinetic inhibition of crystallization of existing in the water Lime is removed and it comes to the formation of so-called nanocrystals in the water volume, which are then available due to their large specific surface area as seed crystals for the binding of the entire, in the supersaturation state lime. At these nanocrystals or seed crystals then the further crystallization and thereby the deposition of further, dissolved in water lime amounts, so that the water is removed as much lime that lime is not on foreign body surfaces such. B. on surfaces of water pipes, in boilers, etc. can deposit. The crystals formed by crystallization of the seed crystals are hoverable for hours to days in the water and have upper There is insufficient bonding forces between them or to surfaces, so that no hard deposits on surfaces or lime deposits disturbing the water flow can occur.

The control electronics 18 supplies a DC voltage to the electrodes for the electrolytic, local change of the PH value 15 and 16 with different polarity, for example, a DC voltage in the low voltage range between 2 - 24 volts. This DC voltage is, for example, in dependence on that of the flow sensor 9 determined water flow controlled or switched, for example, clocked or in the form of DC pulses whose number per unit time is proportional to the water flow. If there is no water flow, the voltage at the electrodes is switched off.

In principle, there is also the possibility of the control electronics 18 form so that between the electrodes 15 and 16 applied voltage is composed of a DC component and at least one superimposed AC voltage and / or superimposed pulses. Furthermore, there is the possibility that the at the electrodes 15 and 16 voltage or their polarity is changed after a certain time program.

The 4 shows in simplified representation and in section an electrode unit 12a instead of the electrode unit in the device 1 can be used.

The electrode unit 12a consists in turn of the two tubular, concentrically arranged electrodes 15a and 16a , which in this embodiment are each made of a sieve-like electrically conductive material, for example of a wire mesh made of metal, preferably made of titanium. At the top and at the bottom of the electrode unit 12a is between the electrodes 15a and 16a a ring 20 made of an electrically insulating material, for example made of ceramic, which keeps the electrodes at a distance. To achieve a sterilizing effect, the electrodes are 15a and 16a preferably coated with a noble metal mixed oxide, for example with iridium oxide.

When using the electrode assembly 12a in turn, a driving of the electrodes 15a and 16a with different polarity, for example with a DC voltage using the control electronics 18 , Again, the DC voltage in turn depending on the with the flow sensor 9 measured or switched water flow, for example, clocked or in the form of DC pulses whose number per unit time is proportional to the water flow. If there is no water flow, the voltage at the electrodes is switched off. Furthermore, there is also when using the electrode assembly 12a the possibility of superposing an alternating voltage on the DC voltage applied to the electrodes and / or of changing the polarity of the applied DC voltage according to a specific time program.

Regardless of the specific electrode unit, the operation of the device is based on the fact that electrolytically so-called seed crystals (CaCO ₃ crystals) are formed, which can then preferentially accumulate excess lime present in the water, so that lime deposits on the walls of the water-bearing, on the device following water-bearing system can be avoided.

The Innovation is described above in exemplary embodiments. It is understood that many changes as well as modifications possible are without it The innovation underlying the invention is abandoned.

1

contraption

2, 3

housing part

4

screw

5, 6

Connection

7

channel

8th

internal Connection

9

flow sensor

10

Sensorelemet

11

Kitchen sink

12 12a

electrode unit

13

annular channel

14

support body

15 16, 15a, 16a

electrode

17

sensor line

18

control electronics

19

supply line

20

insulating ring

Claims (8)

A device for preventing scale formation in systems containing calcium carbonate-containing water, characterized by at least one in a housing through which water flows ( 2 . 3 ) arranged electrode arrangement, which to a voltage source ( 18 ) is connected in such a way that generates an alkaline medium in the water at least one cathode of this arrangement and thereby produced by spontaneous crystallization of lime nanocrystals, which then as seed crystals in the water be available for the binding of the entire, in the supersaturation state lime. Device according to claim 1, characterized by at least one electrode unit ( 12 ) consisting of a porous, water-permeable carrier ( 14 ) on which at least one electrode ( 15 . 16 ), which forms the electrode arrangement with a further counter-electrode disposed in the water, and / or by at least one electrode unit which is attached to the porous, water-permeable carrier, preferably on different sides of this carrier ( 14 ) the at least two, the electrode assembly forming electrodes ( 15 . 16 ) having. Device according to claim 1 or 2, characterized by at least one electrode unit ( 12 ) with a tubular or hollow cylindrical or annular support body ( 14 ). Device according to one of the preceding claims, characterized by at least one electrode unit ( 12 ) with a support body formed by a rotationally symmetrical hollow body Device according to one of the preceding claims, characterized by at least one electrode arrangement with at least one electrode formed by a carbon fiber fleece ( 15 . 16 ). Device according to one of the preceding claims, characterized by control electronics ( 18 ), which are connected to the at least two electrodes ( 15 . 16 ) voltage applied to the electrode assembly at predetermined or arbitrarily selected time intervals, and / or by an electronic control unit ( 18 ), which are connected to the at least two electrodes ( 15 . 16 ) the voltage applied to the electrode assembly and / or the current flowing between these electrodes current in predetermined or preselected limits keeps constant, and / or by the use of a DC voltage at the electrodes ( 15 . 16 ); and / or by the use of a DC voltage superimposed on the electrodes by an AC voltage and / or voltage pulses ( 15 . 16 ). Device according to one of the preceding claims, characterized by control electronics ( 18 ), which are connected to the at least two electrodes ( 15 . 16 ) controls the voltage applied to the electrode arrangement as a function of the quantity of water to be treated and / or as a function of the flow of water, and / or by an electronic control unit ( 18 ), which are connected to the at least two electrodes ( 15 . 16 ) the voltage applied to the electrode assembly voltage in the absence of water flow turns off. Device according to one of the preceding claims, characterized in that the electrode arrangement ( 12a ) forming electrodes ( 15a . 16a ) perforated or grid-like electrodes made of metal, for example of titanium, and / or that the electrodes ( 15a . 16a ) by an insulating body ( 20 ) are kept at a distance.