Circuit interruption apparatuses

The invention claimed is: 1. A circuit interruption apparatus, for an electrical network, comprising: a circuit interruption device operatively connectable at a source side to a source of the electrical network and at a back side to a load of an electrical network, the circuit interruption device when closed permitting current to flow between the source side and the back side, and the circuit interruption device when open inhibiting current from flowing between the source side and the back side, wherein the circuit interruption device is configured to open when a current flowing therethrough meets or exceeds a fault current threshold; and a fault current level determination unit configured to determine a predicted fault current level as a function of measured current and voltage values at the circuit interruption device before and after a variation in the current and voltage values at the circuit interruption device resulting from a change of load at the back side of the circuit interruption device. 2. The circuit interruption apparatus according to claim 1 wherein the fault current level determination unit is configured to determine each of an equivalent voltage source value of an electrical network on the back side of the circuit interruption device and an equivalent impedance value of the electrical network on the back side of the circuit interruption device from the measured current and voltage values at the circuit interruption device, and to use the equivalent voltage source value and the equivalent impedance value to determine the predicted fault current level. 3. The circuit interruption apparatus according to claim 2 wherein the fault current level determination unit is configured to calculate a current phasor from the measured current value at the circuit interruption device and a voltage phasor from the measured voltage value at the circuit interruption device, and to use the calculated current and voltage phasors to determine the equivalent voltage source value and the equivalent impedance value. 4. The circuit interruption apparatus according to claim 3 wherein the fault current level determination unit is configured to: measure first current and voltage values at the circuit interruption device at a first time and thereafter calculate first current and voltage phasors; measure second current and voltage values at the circuit interruption device at a second time after the first time and thereafter calculate second current and voltage phasors; determine the equivalent impedance value according to: wherein: Z eq = arg ⁢ U . 1 - U . 2 I . 1 - I . 2 Z eq is the determined equivalent impedance value; U 1 is the first voltage phasor; U 2 is the second voltage phasor; I 1 is the first current phasor; and I 2 is the second current phasor and determine the equivalent voltage source value according to: E eq =√{square root over ( U 2 2 +( I 2 Z eq ) 2 −2 U 2 I 2 Z eq cos(θ U1 −θ I1 +θ Z ))} wherein: E eq is the determined equivalent voltage source value; U 2 is the magnitude of the second voltage phasor; I 2 is the magnitude of the second current phasor; θ U1 is the angle of the first voltage phasor; θ I1 is the angle of the first current phasor; and θ z the angle of the determined equivalent impedance value. 5. The circuit interruption apparatus according to claim 2 wherein prior to determining each of an equivalent voltage source value and an equivalent impedance value the fault current level determination unit is additionally configured to assess the nature of any variation in the measured current value at the circuit interruption device. 6. The circuit interruption apparatus according to claim 5 wherein the fault current level determination unit is configured to assess the nature of any variation in the measured current value of the circuit interruption device by detecting whether a predetermined degree of current variation takes place. 7. The circuit interruption apparatus according to claim 5 wherein the fault current level determination unit is configured to assess the nature of any variation in the measured current value at the circuit interruption device by identifying whether the current variation takes place on the back side of the circuit interruption device. 8. The circuit interruption apparatus according to claim 2 wherein after determining each of an equivalent voltage source value and an equivalent impedance value the fault current level determination unit is additionally configured to filter each of the determined equivalent voltage source value and the determined equivalent impedance value. 9. The circuit interruption apparatus according to claim 8 wherein the fault current level determination unit is configured to filter each of the determined equivalent voltage source value and the determined equivalent impedance value by calculating an average of each of the determined equivalent voltage source value and the determined equivalent impedance value over a predetermined number of iterations. 10. The circuit interruption apparatus according to claim 8 wherein the fault current level determination unit is configured to filter each of the determined equivalent voltage source value and the determined equivalent impedance value by comparing the fluctuation in each of the determined equivalent voltage source value and the determined equivalent impedance value with a predetermined threshold and discarding the or each of the corresponding determined equivalent voltage source value and the corresponding determined equivalent impedance value when the fluctuation is greater than the predetermined threshold. 11. The circuit interruption apparatus according to claim 1 wherein the fault current level determination unit is further configured to compare the determined predicted fault current level with at least one setting threshold and to issue an alarm depending on the outcome of the comparison.