System for impressed current cathodic protection

1 . A system for impressed current cathodic protection of a marine structure, the system comprising a power source, wherein the power source is arranged to provide a supply current, wherein the supply current is arranged to generate an electrical potential of the marine structure with respect to water; and a load arrangement, the load arrangement comprising: at least one electrode, wherein the at least one electrode is arranged to extend from the load arrangement into the water, wherein the at least one electrode is arranged to transfer the supply current via the water, at least one power node; and at least one load, wherein the at least one load is electrically coupled between the electrode and the power node, wherein the load is arranged to get a load current, wherein the power source has a first pole and a second pole, wherein the first pole is connected to the marine structure, wherein the second pole is connected to the power node, wherein the load arrangement is arranged to use the supply current to provide the load current, wherein the load structure is arranged on the marine structure, wherein the load structure is in contact with the water. 2 . The system as claimed in claim 1 , wherein the load arrangement has a front surface, wherein the front surface is in contact with the water, wherein the at least one electrode is a plurality of electrodes distributed across the front surface. 3 . The system as claimed in claim 1 , wherein the at least one load is a plurality of loads, wherein the plurality of loads are coupled to the at least one electrode, wherein the plurality of loads are distributed across the load arrangement. 4 . The system as claimed in claim 1 , wherein the power source is arranged to provide the supply current, the supply current comprising: a DC component, wherein the DC component generates the electrical potential of the marine structure with respect to the water; and an alternating component, wherein the alternating component is arranged to provide at least part of the load current, wherein the alternating component alternates at a high frequency such that the alternating component avoids a net contribution to electro-chemistry at the at least one electrode. 5 . The system as claimed in claim 4 , wherein the alternating component comprises pulses, wherein the DC component comprises a DC offset, wherein the DC offset is provided by adjusting a pulse width of the pulses. 6 . The system as claimed in claim 1 , wherein the power source is arranged to provide an alternating component, wherein the alternating component has a frequency in the range of 20 kHz to 200 kHz. 7 . The system as claimed in claim 4 , wherein the power source is arranged to disable the DC component, 8 . The system as claimed in claim 1 , wherein the load arrangement comprises a supply circuit, wherein the supply circuit is arranged to transfer the supply current between the electrode and the power node, wherein the supply circuit is arranged to conduct at least part of the supply current via the load to provide the load current. 9 . The system as claimed in claim 8 , wherein the supply circuit comprises a zener diode, wherein the zener diode is arranged to transfer a portion of the supply current between the electrode and the power node. 10 . The system according to claim 1 , wherein the load comprises an UV light source, wherein the UV light source is arranged to emit anti-fouling light for anti-fouling of the load arrangement 11 . A load arrangement for use in a system for impressed current cathodic protection (ICCP) of a marine structure the system comprising: a power source, wherein the power source is arranged to provide a supply current, wherein the supply current is arranged to generate an electrical potential of the marine structure with respect to water; wherein the power source has a first pole and a second, wherein the first pole is connected to the marine structure, wherein the second pole is connected to a power node of the load arrangement, wherein the load arrangement is arranged on the marine structure and is in contact with the water; the load arrangement comprising: at least one electrode, wherein the at least one electrode is arranged to extend from the load arrangement into the water, wherein the at least one electrode is arranged to transfer the supply current via the water, at least one power node; at least one load, wherein the at least one load is electrically coupled between the electrode and the power node, wherein the load is arranged to get a load current; and a carrier sheet, wherein the carrier sheet carries a plurality of the electrodes and a plurality of loads that are interconnected, wherein the load arrangement is arranged to use the supply current to provide the load current. 12 . The load arrangement as claimed in claim 11 , wherein the load arrangement comprises multiple carrier sheets, wherein each sheet has at least one connector element, wherein the at least one connecter is arrange to connect the power nodes of neighboring sheets. 13 . A marine structure the marine structure comprising: the system as claimed in claim 1 , wherein the marine structure has a first surface, wherein the load arrangement is arranged on the first surface, wherein the first pole of the power source is connected to the marine structure, wherein the first pole of the power source is arranged to transfer the supply current from the power source to the load arrangement, wherein the first surface is exposed to the water, the second pole of the power source is galvanically connected to the at least one power node. 14 . (canceled) 15 . (canceled) 16 . The system as claimed in claim 4 , wherein the alternating component comprises pulses, wherein the DC component comprises a DC offset, wherein the DC component is provided by adjusting a pulse width of the pulses. 17 . The system as claimed in claim 4 , wherein the power source is arranged to disable the alternating component. 18 . A method of enabling a measurement of the electrical potential of a marine structure, the marine structure comprising: a power source, wherein the power source is arranged to provide a supply current, wherein the supply current is arranged to generate an electrical potential of the marine structure with respect to water; and a load arrangement, the load arrangement comprising: at least one electrode, wherein the at least one electrode is arranged to extend from the load arrangement into the water, wherein the at least one electrode is arranged to transfer the supply current via the water, at least one power node; and at least one load, wherein the at least one load is electrically coupled between the electrode and the power node, wherein the load is arranged to get a load current, wherein the power source has a first pole and a second pole, wherein the first pole is connected to the marine structure, wherein the second pole is connected to the power node, wherein the load arrangement is arranged to use the supply current to provide the load current, wherein the load structure is arranged on the marine structure, wherein the load structure is in contact with the water. wherein the marine structure has a first surface, wherein the load arrangement is arranged on the first surface, wherein the first pole of the power source is connected to the marine structure, wherein the first pole of the power s