Integrated Flicker Control For Arc Furnace

1 . A control device for an arc furnace, the control device comprising: a flicker module for determining a flicker value in a grid supplying the arc furnace; an arc furnace control module for controlling the arc furnace based on the flicker value; wherein the arc furnace control module and the flicker module are integrated into one structural component; wherein the flicker module is adapted for providing a short-term flicker value to the arc furnace control module, the short-term flicker value being based on voltage measurements in the grid in an interval of 10 min; and/or wherein the flicker module is adapted for providing a long-term flicker value to the arc furnace control module, the long-term flicker value being based on voltage measurements in the grid in an interval of 2 h; wherein the flicker module is adapted for providing an instantaneous flicker value to the arc furnace control module, the instantaneous flicker value being based on voltage measurements in the grid in an interval of less than 10 s; wherein the arc furnace control module is adapted for controlling an arc voltage and/or an arc current of the arc furnace based on the instantaneous flicker value and is adapted for controlling a converter for generating the arc current for the arc furnace. 2 . The control device of claim 1 , wherein the arc furnace control module and the flicker module are software modules executable in the control device in the same computing device. 3 . The control device of claim 1 , wherein the arc furnace control module and the flicker module are implemented in a programmable logic controller. 4 . The control device of claim 1 , wherein the arc furnace control module is adapted for controlling an electrical power supplied to the arc furnace dependent on the flicker value; and/or wherein the arc furnace control module is adapted for reducing the electrical power supplied to the arc furnace, when the flicker value is higher than a threshold value. 5 . An arc furnace system, comprising: an arc furnace with at least one electrode for generating an arc with electrical energy; a control device for controlling an arc voltage and/or an arc current of an arc furnace according to one of the previous claims; a transformer for transforming a voltage from the grid into a voltage to be supplied to the arc furnace; a converter for converting the voltage from the transformer or from the grid into a voltage to be supplied to the electrode of the arc furnace or to the transformer. 6 . A method for controlling an arc furnace, the method comprising: receiving grid voltage measurements from a grid supplying the arc furnace with electrical energy; determining a short-term flicker value to the arc furnace control module, the short-term flicker value being based on voltage measurements in the grid in an interval of 10 min; determining a long-term flicker value to the arc furnace control module, the long-term flicker value being based on voltage measurements in the grid in an interval of 2 h; determining an instantaneous flicker value from the grid voltage measurements, the instantaneous flicker value being based on grid voltage measurements in an interval of less than 10 s; controlling an arc current and/or an arc voltage of the arc furnace based on the instantaneous flicker value and controlling a converter for generating the arc current for the arc furnace. 7 . The method of claim 6 , further comprising: controlling an electrical power supplied to the arc furnace dependent on the instantaneous flicker value. 8 . The method of claim 6 , reducing an electrical power supplied to the arc furnace, when the instantaneous flicker value is higher than a threshold value. 9 . The method of claim 6 , further comprising: wherein arc furnace voltage and current measurements for controlling the arc furnace are measured between a transformer, which is adapted for transforming a grid voltage into a voltage to be supplied to the arc furnace, and the arc furnace; wherein grid voltage measurements for determining the instantaneous flicker value are performed directly at the grid. 10 . The control device of claim 2 , wherein the arc furnace control module and the flicker module are implemented in a programmable logic controller. 11 . The control device of claim 2 , wherein the arc furnace control module is adapted for controlling an electrical power supplied to the arc furnace dependent on the flicker value; and/or wherein the arc furnace control module is adapted for reducing the electrical power supplied to the arc furnace, when the flicker value is higher than a threshold value. 12 . The method of claim 7 , reducing an electrical power supplied to the arc furnace, when the instantaneous flicker value is higher than a threshold value. 13 . The method of claim 7 , further comprising: wherein arc furnace voltage and current measurements for controlling the arc furnace are measured between a transformer, which is adapted for transforming a grid voltage into a voltage to be supplied to the arc furnace, and the arc furnace; wherein grid voltage measurements for determining the instantaneous flicker value are performed directly at the grid.