DK178413B1 - Device for treating liquid in a liquid flow system, method and use thereof - Google Patents

Abstract

The invention relates to a device for treatment of a liquid in a liquid flow system. The device comprises a housing with at least a liquid inlet and outlet for accompanying a liquid flow through the housing, at least one AC voltage source alternating at a switch frequency, at least a first and second electrode with electric connections to said at least one AC voltage source and control means for controlling the level of treatment of the liquid. The at least a first and second electrode and control means are at least partly located in said liquid flow of said housing. The invention also relates to a method of treating a liquid in a liquid flow system and use of the device and method in a through-flow electric liquid heating system or a liquid purification system.

Description

Device for treatment of liquid in a liquid flow system, Method and Use

HEREOF

Background of the invention

The present invention relates to a device for treatment of liquid in a liquid flow system, method and use hereof

Devices for treading water in a through-flow application are known within the technical field e.g. electric water heaters for instantly heating water as it flows through the heaters.

The known electric water heaters may use different electric principles for agitating positive and negative ions in the water of the water flow such as capacitive or inductive means.

Fig. 1 illustrates an embodiment of an electric water heater using capacitive means by applying an AC voltage to two electrodes located in the water flow. The AC voltage alternates with a switch frequency agitating the positive and negative ions of the water to move toward the positive and negative electrodes, respectively. The ions will alter direction with the change in electrode polarities from the switch frequency.

The resulting friction of the moving ions will heat the water wherein the heating process may be controlled by changing one or more electric values such as the value of the AC voltage and/or the switch frequency.

Patnet application US 2003/185548 discloses an-line water heater utilizing electrically conductive polymer structures for electrodes. The area of electrodes that confront one another can be varied, and thereby the temperature to which the water is heated can be variably adjusted. While the electrodes can be moved relative to one another, preferably they will be fixed, and a non-electrically conductive current gating plate can adjustably be placed between them to variably adjust the amount of confronting areas. The adjustment of the electrode or the current gating plate inside the housing is obtained by turning of a knob on the outside of the housing, which is connected to the electrode or the current gating plate, respectively, by means of a connecting rod.

A problem with the known electric water heaters is the complexity of the system necessary for controlling the heating process in the water heaters e.g. a control system for a water heater involving controllers for changing the voltage and/or frequency values in response to detected water values.

The complexity of the control system will also affect the size and cost of the electric water heater.

An object of the invention is to provide a device for treatment of liquid in a liquid flow without the above problems or disadvantages.

The invention

The invention relates to a device for treatment of a liquid in a liquid flow system, said device comprising a housing with at least a liquid inlet and outlet for accompanying a liquid flow through the housing, at least one AC voltage source alternating at a switch frequency, at least a first and second electrode for treatment of said liquid and with electric connections to said at least one AC voltage source, and moveable control means for controlling the level of liquid treatment wherein said at least a first and second electrode and control means are at least partly located in said liquid flow.

The control means comprises a control rod or similar mechanical device extending out of the housing for controlling the position of a dividing element. Hereby is achieved a simple and reliable control of the liquid treatment. A user can easily perform the control of the device by moving the control rod and dividing element to a new position and instantly - for example - detect a temperature change in a flow of drinking water.

One electrode of said at least a first and second electrode is hollow and holding said control rod for interaction with said dividing element via permanent magnets on the rod and/or element. The hollow structure allows a device with a thin and compact design by the efficient use of the space. Further, the use of permanent magnets in establishing a contactless connection between the different means ensures a more durable device by reducing the number of mechanical interactions in the flowing liquid.

Hereby is obtained a device which controls the level of liquid treatment by directly changing the interaction between the electrodes via the flowing liquid instead of an indirect control of electric values applied to the electrodes.

The interaction between the control rod and the dividing element is hereby obtained without providing an opening in the housing for a movable control rod, whereby sealing of such opening and possible risk of leakage of the liquid is eliminated.

The liquid may be water in a drinking water system but may also be contaminated or infected water e.g. in ballast tanks of a ship. The liquid treatment of the latter type of water may for example be necessary according to national or international conventions in order to discharge the water into the sea.

Further, the liquid may be different types of oil e.g. edible oils which need treatment for removing any contaminations or heavy fuel / bunker oils which need treatment to increase the oil temperature to make it more flowable.

Even further types of liquid may be used in the device according to the invention such as organic liquids, i.e. blood, meet in pulp form etc. as long as the liquid is electrically conductive.

The term “treatment of liquid” should be understood as changing a value of the liquid in order to makes the liquid more acceptable and useful for an end-user of the liquid. The liquid treatment may for example include an increase of a temperature value or a reduction of a liquid contaminant value of the liquid flowing through the device.

In an aspect of the invention, said control means comprises at least one dividing element made in an electrically isolating material. The dividing element or elements will restrict the flow of ions or move away the ions from the flowing liquid when the dividing element is located fully or partially between the electrodes. Hereby it is possible to control the treatment of the liquid flowing through the device e.g. controlling the degree of liquid heating.

Alternatively, the dividing element is made in an electrically conductive material and is applied to enhance the flow of ions in the flowing liquid when the dividing element is located fully or partially between the electrodes.

In another aspect of the invention, said dividing element is concentrically surrounding at least a part of one electrode of said at least a first and second electrode. Hereby is achieved a compact and thin design of the housing and control means.

In an aspect of the invention, said moveable control means comprises said at least first electrode and/or said second electrode displaceable in relation to each other. The displacement of one electrode in relation to the other stationary electrode or displacement of both electrodes ensures a direct, simple and swift control.

In an aspect of the invention, said housing is at least separated in a treatment part and a control means part. The separation in parts allows the device to be built with a slim housing design as well as ensures that the control means do not interfere with the liquid flow and treatment in the treatment part when retracted into the control means part.

In an aspect of the invention, said control means performs linearly or circularly motions e.g. a linear sliding motion of said dividing element and/or a circular displacement of said at least a first and second electrode. The linear motion allows the device to be built with a slim housing design as mentioned above. A circular motion by control means ensures a direct and swift control e.g. if one or both electrodes are rotated in order to overlap more or less.

In an aspect of the invention, said switch frequency is a value of at least 10 kHz such as approx. 30 kHz. The exposure of the liquid to an electrode voltage with a significantly high switch frequency ensures that liquid containment such as any volumes of virus, bacteria and/or amoeba or any other organic matter carrying a DNA in the liquid flow may be reduced or even removed. Possible causes of diseases will hereby also be reduced in - for example - drinking water by killing dangerous virus, bacteria and/or amoebas in the water with the electric liquid treatment. Furthermore, unwanted organic material in ballast water can be eliminated in an efficient manner. An effective liquid treatment only requires a minor electric energy supply from the electrodes of the device in order to reduce liquid containment and the resulting heating of the flowing liquid may hereby be insignificantly such as less than 5 °C and preferably less than 2 to 3 °C.

The invention also relates to a method of treating liquid in a liquid flow system with a device for treatment of liquid according to any of claims 1 to 9, said method comprises the steps of: providing a path for a liquid flow in the housing of the device via at least a liquid inlet and outlet of the housing, connecting at least one AC voltage source to at least a first and second electrode for treatment of the liquid in said device, and controlling the level of liquid treatment with control means, wherein said at least a first and second electrode and control means are at least partly located in the liquid flow of said housing.

Hereby is achieved an advantageous method according to the invention of treating a liquid.

Further, the invention relates to use of a device for treatment of a liquid according to any of claims 1 to 9 and/or a method of treating liquid according to claim 10 in a through-flow electric liquid heating system or liquid purification system.

The two preferred systems allow for advantageous uses of the claimed device and/or method for treatment of a liquid such as drinking water.

Figures

The invention will be described in the following with reference to the figures in which fig. 1 illustrates a well-known device for treading water in a water flow system including an enlargement of a water flow, fig. 2 illustrates an embodiment of a device according to the invention for treatment of liquid, fig. 3 illustrates an enlargement of the control means in the device of fig.

2, figs. 4a and 4b illustrate different positions of the control means in fig. 2 in relation to the electrodes of the device, fig. 5 illustrates a 3D cross sectional view of an embodiment of the device according to the invention for treatment of liquid with control means, and fig. 6 illustrates an alternative embodiment of the device according to the invention for treatment of liquid.

Detailed description of the invention

Fig. 1 illustrates a well-known device 1 for heating water in a water flow system including an enlargement of a water flow.

The electric water heater 1 comprises a housing 5 with a water inlet and outlet 9, 11 for connection to a supply pipe 10 and discharge pipe 12 of a water flow system (not illustrated) e.g. a system for supplying a flow of drinking water.

The electric water heater 1 use capacitive means by applying an AC voltage 4 to two concentric electrodes 2, 3 located in the water flow 13 via electric connections 6-8. The concentric electrodes have different radius and the electrode 2 with the larger radius surrounds the smaller electrode 3 in a part of the housing.

The AC voltage may alternate with a switch frequency agitating the positive and negative ions 14 of the water to move toward the positive and negative electrodes, respectively, as schematically illustrated in the figure enlargement. The ions will alter direction with the change in electrode polarities from the switch frequency. The AC voltage 4 is illustrates in the figure as at least a variable voltage source.

The water flow 13 is directed through the housing 5 of the electric water heater 1 from inlet 9, between the two electrodes 2, 3 wherein the ions 14 are agitated to achieve heating of the flowing water, and finally to the outlet 11.

Fig. 2 illustrates a cross sectional view of an embodiment of a device 15 according to the invention for treatment of liquid.

The device 15 is illustrated with a first and second part inside the housing 5 - a treatment part I and a control means part II. The device comprises liquid inlet and outlet 9, 11 as well as an AC voltage 4 connected to the electrodes 2, 3. The AC voltage is illustrated in the figure as a non-variable voltage source.

Further, the device 15 is illustrated with control means 16 partly located inside the housing in the liquid flow If and partly located outside the housing as one end of a control rod 17. The control rod continues into the device 5 via a housing opening in proximity of the electric connection 7 for the concentric electrode 3. The electrode 3 is of a hollow construction and the control rod 17 extends in the space inside the electrode. The part of the control rod 17 located inside the electrode 3 is provided with sets of permanent magnets 20 (illustrated in further details in Fig. 3).

Fig. 2 also illustrates a concentric dividing element 18 located on the outside of the electrode 3. The element is provided with sets of permanent magnets 19 and will slide on the electrode 3 in response to movement of the control rod and the accompanying permanent magnets 20 (described in further details in connection with Fig. 3).

The dividing element 18 may slide into the overlapping area between the concentric electrodes 2, 3.

The dividing element 18 is made in an electrically isolating material. The choice of material ensures that the dividing element 18 restricts the ion movement when the element enters into the overlapping area between the concentric electrodes 2, 3 i.e. controls the treatment of the liquid in response to the position of the dividing element 18 and the control rod 17.

In an alternative embodiment, the dividing element 18 is made in an electrically conductive material connected to one side of the AC voltage source 4 and the electrodes 2, 3 are both connected to the other side of the AC voltage source 4. In such embodiment, the dividing element 18 will enhance the ion movement in the liquid instead of restricting the ion movement.

Fig. 3 illustrates enlargements of the control means 16 in the device 15 of fig. 2.

The upper enlargement of the figure especially illustrates - in a cross sectional view -the part of the control rod 17 inside the hollow electrode 3 and especially illustrates the two sets of permanent magnets 20. On the outside of the electrode 3 is the dividing element 18 located with two sets of permanent magnets 19. The dividing element 18 may slide on the electrode 3 as the element is concentric with a larger radius than the electrode. The difference in radius is illustrated with a displacement space 21 between the dividing element 18 and the surrounded electrode 3.

The lower enlargement further details the relationship between the sets of permanent magnets 19, 20 on the control rod 17 and the dividing element 18. The arrows exemplifies that a movement in or out of the control rod 17 will result in a corresponding sliding movement of the dividing element 18 due to the magnetic field interaction.

Figs. 4a and 4b illustrate different positions of the control means in fig. 2 in relation to the electrodes of the device.

Fig. 4a illustrates the control rod moved from a fully retracted position (illustrated in Fig. 2) to a half entered position wherein the dividing element 18 partly divides/isolates the first electrode 2 from the second electrode 3. Hereby is the control means altered from a position of no control and restriction on the liquid treatment by the device (Fig. 2) to a position of some control and restriction on the liquid treatment (Fig. 4a).

Fig. 4b illustrates the control rod moved to a fully entered position wherein the dividing element 16 totally divides/isolates the first electrode 2 from the second electrode 3. All liquid treatment is stopped by the control means and the liquid will flow untreated through the device until the control rod is more or less retracted again by a user.

Fig. 5 illustrates a 3D cross sectional view of an embodiment of the device according to the invention for treatment of liquid with control means.

The figure especially illustrates the concentric nature of the electrodes 2, 3 and control means 16 with different radiuses in order to be located inside each other.

Fig. 6 illustrates an alternative embodiment of the device according to the invention for treatment of liquid.

The first electrode 2 is illustrated as stationary in relation to the second electrode 3 which is moveable inside the housing 5 of the device 15. The figure illustrates schematically how the position of the second electrode 3 is altered by control means 16 attached at one end of the electrode. The control means include a rod which extends out of the housing 5 in order to allow a user to change the position of the electrode 3 in relation to the stationary electrode 2 and hereby control the level of liquid treatment.

The above-mentioned embodiment involves one electrode performing a linear motion in relation to the stationary electrode. However, it should be understood that the invention may also include examples wherein both electrodes are moved in relation to each other in order to control the level of liquid treatment. Further, the electrode may perform a circular motion in relation to each other in order to control the level of liquid treatment in a instead of a linear motion.

Even further, the number of electrodes may be altered from a first and second electrode to a higher number of electrodes e.g. a number of concentric electrodes positioned side by side.

It will also be understood that the invention is not limited to the particular examples described above but may be designed in a multitude of varieties within the scope of the invention, as specified in the claims.

List of reference numerals 1. Water treating device 2. First electrode 3. Second electrode 4. AC voltage source 5. Device housing 6-8. Electric connections such as a first and second electric cable / electrode connection and accompanying electric cables 9. Liquid inlet of the device 10. Supply pipe for a device for liquid treatment 11. Liquid outlet of the device 12. Discharge pipe of a device for liquid treatment 13. Liquid in the device housing such as water 14. Electrically charged ions in the liquid 15. Device for liquid treatment 16. Control means 17. Control rod 18. Dividing element 19. Permanent magnets on dividing element 20. Permanent magnets on control rod 21. Displacement between the dividing element and surrounded electrode If. Liquid flow in the housing of the device e.g. a drinking water flow I. Treatment part II. Control means part

Claims (10)

A device (15) for treating a liquid in a liquid flow system, comprising a housing (5) having at least one liquid inlet and outlet (9, 11) for accompanying a liquid flow (If) through the housing, at least one AC voltage source ( 4) alternating at a contact frequency, at least one first and second electrodes (2, 3) for treating the liquid and with electrical connections (6-8) to the at least one alternating voltage source (4) and movable control means (16) for controlling the liquid treatment level, wherein the at least first and second electrodes (2, 3) and the control means (16) are at least partially arranged in the fluid flow (If), wherein the control means (16) comprises a separating element (18) and a control rod. (17) extending from the housing (5) for controlling the position of the separating element (18), wherein at least one of the first and second electrodes (2, 3) is hollow and holding the guide rod (17) on such a way that the interaction between the handlebars the bar (17) and the separator (18) via permanent magnets (19, 20) on the guide bar (17) and / or the separator (18) are possible. Apparatus for treating a liquid according to claim 1, wherein the separating element (18) is made of an electrically insulating material. Apparatus for treating a liquid according to claim 1, wherein the separating element (18) is made of an electrically conductive material. Apparatus for treating a liquid according to claim 2 or 3, wherein the separating element (18) concentrically surrounds at least a portion of an electrode (3) of the at least first and second electrode (2, 3). Device for treating a liquid according to claim 1, wherein the movable guide means (16) comprises the at least first and second electrodes (2, 3) which are displaceable relative to each other. Apparatus for treating a liquid according to one of claims 1 to 5, wherein the housing (5) is at least divided into a treatment part (I) and a control means part (II). Apparatus for treating a liquid according to any one of claims 1 to 6, wherein the guide means (16) performs linear or circular motions, e.g. a linear sliding motion of the separator (18) and / or a circular displacement of the at least first and second electrodes (2, 3). Apparatus for treating a liquid according to any one of claims 1 to 7, wherein the contact frequency is a value of at least 10 kHz, e.g. approximately 30 kHz. A method of treating a liquid in a liquid flow system with a liquid treating device according to any one of claims 1 to 8, comprising the steps of: providing a passage for a liquid flow in the housing of the device via at least one liquid inlet and outlet of the housing, connecting at least one alternating current voltage source to at least one first and second electrodes for treating the liquid in the device and controlling the liquid treatment level with a movable guide means, wherein at least the first and second electrodes and the control means are at least partially arranged in the fluid flow. Use of a liquid treatment device according to any one of claims 1 to 8 and / or a method for treating liquid according to claim 9 in an electric flow liquid heating system or a liquid cleaning system.