Prevention or reduction of scaling on a heater element of a water heater

The invention claimed is: 1. A method of using a water heater arranged for heating an aqueous liquid wherein the water heater comprises a heating element to heat aqueous liquid in the water heater, the method comprising: a. heating aqueous liquid in the water heater with the heating element, wherein the heating element is in contact with the aqueous liquid; and b. applying a first AC voltage between the heating element and a counter electrode, and applying a DC voltage between the heating element and the counter electrode, wherein the DC voltage is at least 0.5 V, and wherein the heating element is chosen as a positive electrode. 2. The method according to claim 1 , wherein the first AC voltage has a first AC frequency of at least 0.1 Hz. 3. The method according to claim 1 , further comprising applying a second AC voltage, wherein the second AC voltage comprises one or more further AC voltages in addition to the first AC voltage, between the heating element and the counter electrode, wherein the second AC voltage has a second AC frequency selected from the range of 0.02 Hz-5 Hz and wherein the ratio between the first AC frequency and the second AC frequency is 2 or more. 4. The method according to claim 3 , wherein the counter electrode comprises a plurality of counter electrodes, and wherein the first AC voltage is applied between the heating element and a first counter electrode, and wherein the DC voltage is applied between the heating element and a further counter electrode or wherein the second AC voltage is applied between the heating element and the further counter electrode. 5. The method according to claim 4 , wherein at least one of the first AC voltage, the DC voltage, and the second AC voltage is applied during heating of the aqueous liquid in the water heater with the heating element. 6. The method according to claim 1 , comprising heating aqueous liquid in the water heater to a temperature of at least 85 ° C. 7. The method according to claim 1 , wherein the first AC voltage has a triangular wave shape, and wherein the triangular wave shape is symmetrical. 8. The method according to claim 3 , wherein the first AC voltage has a triangular wave shape, and wherein the second AC voltage also has a triangular wave shape, and wherein the triangular wave shapes are symmetrical. 9. The method according to claim 3 , wherein the method further includes a measurement of a conductivity of the aqueous liquid, and controlling the first AC voltage and one or more of (i) the second AC voltage and (ii) the DC voltage in dependence of the measurement and predefined relations between the conductivity, and the first AC voltage and one or more of (i) the second AC voltage and (ii) the DC voltage. 10. The method according to claim 3 , wherein the method further includes a measurement of a conductivity of the aqueous liquid and of other parameters selected from the group consisting of a temperature of the aqueous liquid, a pH of the aqueous liquid, a current that is running between the heating element and the counter electrode, a voltage drop in response to connecting the heating element and the counter electrode, and controlling the first AC voltage and one or more of (i) the second AC voltage and (ii) the DC voltage in dependence of the measurement and predefined relations between the conductivity, and the other parameters, and the first AC voltage and one or more of (i) the second AC voltage and (ii) the DC voltage. 11. A water heater arrangement comprising: a heating element to heat an aqueous liquid in a water container, the heating element arranged to be in contact with the aqueous liquid, and an electrical power supply, arranged to apply a first AC voltage between the heating element and a counter electrode, wherein the electrical power supply is further arranged to apply a DC voltage between the heating element and the counter electrode, wherein the DC voltage is at least 0.5 V, and wherein the heating element is arranged as a positive electrode. 12. The water heater arrangement according to claim 11 , wherein the first AC voltage has a first AC frequency of at least 1 Hz. 13. The water heater arrangement according to claim 11 , wherein the electrical power supply is further arranged to apply a second AC voltage, wherein the second AC voltage comprises one or more further AC voltages in addition to the first AC voltage, between the heating element and the counter electrode, wherein the second AC voltage has a second AC frequency selected from the range of 0.02 Hz -5 Hz, and wherein the ratio between the first AC frequency and the second AC frequency is 2 or more. 14. The water heater arrangement according to claim 11 , wherein the counter electrode comprises a plurality of counter electrodes, and wherein the electrical power supply and the plurality of counter electrodes are arranged to apply the first AC voltage between the heating element and a first counter electrode, and to apply the DC voltage between the heating element and a further counter electrode or to apply the second AC voltage between the heating element and a further counter electrode. 15. An electronic device comprising a water heater arrangement according to claim 11 , wherein the electronic device is arranged to produce one or more of heated water and steam. 16. The electronic device according to claim 15 , wherein the electronic device is selected from the group consisting of an iron, a pressurized steam generator, a non-pressurized steam generator, a hot liquid vending machine, an electric kettle, a coffee maker, an espresso machine, a washing machine, a dish washer, and a hot-water based weed killing device. 17. The method of claim 1 , further comprising: using a combination of (i) the first AC voltage, (ii) the DC voltage, and (iii) one or more second AC voltage applied to the heating element of the water heater arranged for heating the aqueous liquid, wherein the combination is operable to prevent or reduce scaling of the water heater.