NL8503310A - Electrolytic system to produce free ions in water or conducting liq. - for sterilisation, has electrodes of different materials with digital control of constant DC currents with variable-amplitude pulsations - Google Patents

Abstract

The system is intended for introducing free ions into water or another conducting liq. by means of electrolysis using the principle of oligodynamics. It comprises an electronic digital control unit to apply an accurately pre-determined d.c. voltage with variable amplitudes to the electrodes (10) whilst maintaining constant currents whereby the said amplitudes pref. vary by at least 20% every 10 msec. The different electrodes (10.1, 10.2......10.n) (e.g. Cu and Ag) are pref. completely separately arranged within the liq. circuit and independently controlled.

Description

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Device for adding free ions to water and other liquids; method of controlling this device; products manufactured with this device, as well as applications of this device and products.

The invention relates to a device through which water or another conductive liquid is passed for the purpose of cleaning and sterilizing this water or liquid by adding free ions; a method of controlling and operating this device; as well as a product which is manufactured by the device, in concentrated form or otherwise, for the purpose of sterilizing water and other substances with this product or making it suitable for certain applications.

The invention is based on the known principle of oligodynamics, in which small quantities of free positive copper and silver ions, by means of already available devices, are provided by means of electrolysis or by adding water-soluble metal salts to water for the purpose of rendering this water sterile and sterilizing, in particular for use in swimming and bathing establishments.

The disadvantages of the existing electrolysis devices for the application of oligodynamics are the inadequate controllability of the metal ion delivery and the mutual negative influence of the various metal ions that are delivered in the existing devices by a combined electrode, consisting of a mixture or alloy of 20 copper and silver.

The object of the invention is to provide a device which does not have these drawbacks, and to create applications which are not known or impossible to date.

The lack of controllability is, among other things, a result of contamination of the electrodes, which can be prevented by applying a precisely determined voltage with a variable amplitude to the electrode, while the strength of the current through the electrodes is kept constant, which is possible by choosing a digital instead of the usual analog control.

The mutual negative influence of the different ions to be introduced can be prevented by placing the various electrodes completely separately in the liquid cycle and also driving them separately.

Due to the better control, the release of various ions can be within -V ~ jO.

---— jü »· * -2- η very wide limits are precisely controlled, so that the process can also be used for hitherto not possible applications, such as sterilization and providing trace elements with water, with or without fertilizers, intended for irrigation of flowers and plants. In this way, ions can also be added to drinking water for humans and animals, as well as breeding tanks for fish and other aquatic animals.

The invention also makes it possible to extend the application of electrolysis by choosing other metals, while the introduction of negative ions is also possible. A number of chemically stable liquids can be manufactured with this, which cannot be obtained in any other way.

The invention will be explained in more detail with reference to the annexed drawings, in which an embodiment is presented.

15 Water will be used as an example.

Fig. 1 shows a sand filter (1) made from a non-conductive plastic. This filter is half filled with sand or another filter medium. In the bottom there is a filter tube (2) in which slots are provided, which allow liquid to pass through but not sand. The water inlet (3) is located at the top and has a widening (4) at the top such that an electrode (5) can be accommodated therein. This electrode is attached to a cover (6), which can be screwed at the top of the filter. Between the top of the flare (4) and the lid (6), a space is saved such that a strong flow is created along the top filter wall (7). Further electrodes (8) can be placed in this flow in a circular arrangement around the lid. If the electrodes (5) and (8) consist of metals and a pulsating DC voltage is added, free ions are added to the water. Some of these ions can react with the water to form hydrates or hydroxides, which act as floccules and greatly improve the filter fineness of the mechanical filter.

Fig. 2 shows a schematic diagram of the control. This consists of an oscillator (1) that controls a number of dividers (2).

Pulse trains are generated at the outputs of these dividers and are added to an adder circuit (3), the output of which can be varied depending on the data measured by a sensor (4), respectively. be adjusted by a controller (5). This causes * 'A Λ

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Π, -3- are at the output of the summing pulse trains of a variable length adapted to the need, which can be adjusted by means of a gate circuit (6) controls the main current, which is supplied via a current stabilizer (7), which serves to keep the current constant, to a distribution circuit (8), which is operated on the basis of sensor (9) and control member (5) supplies this current to one or more of the electrodes (10).

The pulsating DC voltage has a variable amplitude, which is obtained by rectifying an AC voltage with an asymmetric sine shape, or by mixing a pure DC voltage with an AC voltage. This is necessary to keep the electrodes clean.

In the distribution circuit (8) there is a fixed polarity reversal polarity mechanism, which reverses the voltage at regular intervals to prevent polarization effects on the electrodes.

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Claims (6)

1. An establishment for the dm.v. electrolysis adding free ions to water and other conductive liquids according to the principle of oligodynamics, characterized in that the electrolysis is digitally controlled by an electronic circuit according to fig. 2. The device according to claim 1, characterized in that the average current through the electrodes is constant, while the amplitude of the applied direct voltage varies every 10 msec, at least 20%. 3. A device according to claim 1, characterized in that the electrodes are built into a plastic sand filter in such a way that a uniform flow between the electrodes is obtained, the speed of passage of the liquid between the electrodes in m / sec. is equal to the current density at the electrode surface in mA / cm2; while the distance between the electrodes, measured in mm, is 1/10 part of the atomic or molecular weight of the electrode material. A liquid manufactured by an apparatus according to claim 1, characterized in that this liquid contains free ions for the purpose of using them for sterilizing or adding elements to water or other substances. 5. The use of a device according to claim 1 or a liquid according to claim 4. for the treatment of: - Bathing and swimming water - Irrigation and irrigation water for agriculture and horticulture - Drinking water for humans and animals - Water for growing aquatic animals 25. Water for the preservation of products stored in or under water - Liquids from which certain substances have to be removed, respectively. to which substances must be added. ..¾ "r * cv» / * \ V V Ó Ó 1 U