Fault detection in electric power delivery systems using underreach, directional, and traveling wave elements

What is claimed is: 1. A system configured to detect a fault in an electric power delivery system, comprising: a data acquisition subsystem configured to receive a plurality of representations of electrical conditions associated with at least a portion of the electric power delivery system; an incremental quantities subsystem configured to calculate an incremental current quantity and an incremental voltage quantity based on the plurality of representations of electrical conditions associated with the at least a portion of the electric power delivery system; a fault detection subsystem configured to: determine a fault type based on the incremental current quantity and the incremental voltage quantity; select an applicable loop quantity based on the fault type; declare a fault based on the applicable loop quantity, the incremental voltage quantity, and the incremental current quantity; and a protective action subsystem configured to implement a protective action based on the declaration of the fault; a directional subsystem configured to determine a direction to the fault; wherein the direction subsystem is configured to determine the direction to the fault based on a resistive behavior of the electric power delivery system during a window of time following the fault and to determine the direction to the fault based on a resistive-inductive behavior of the electric power delivery system after the window of time following the fault. 2. The system of claim 1 , wherein the direction to the fault is determined based on an operating signal determined based on the product of the incremental voltage quantity, and the incremental current quantity. 3. The system of claim 2 , further comprising determining an adaptive threshold based on the incremental current quantity and a predetermined setting; wherein the fault detection subsystem is further configured to declare the fault based on a comparison of the adaptive threshold and the operating signal. 4. The system of claim 3 , wherein the adaptive threshold comprises a forward adaptive threshold calculated as the product of a negative predetermined setting and the incremental current quantity squared. 5. The system of claim 4 , wherein the adaptive threshold comprises a reverse adaptive threshold calculated as the product of a positive predetermined setting and the incremental current quantity squared. 6. The system of claim 5 , wherein a forward fault is declared when the forward adaptive threshold is greater than the operating signal and a reverse fault is declared when the operating signal is greater than the reverse fault threshold. 7. The system of claim 6 , wherein the fault detection subsystem is further configured to average at least one of an operating quantity, the forward fault threshold, and the reverse fault threshold over a data window. 8. The system of claim 1 , wherein the direction subsystem is further configured to determine the direction of the fault based on a polarity of an incremental replica current and a time elapsed since the fault. 9. The system of claim 8 , wherein the direction subsystem is further configured to determine a time-domain loop current, i AG , as follows: i AG = f IZ ⁡ ( i A , R 1 , L 1 ) - f IZ ⁡ ( i 0 , R 1 , L 1 ) +  Z 0   Z 1  ⁢ f IZ ⁡ ( i 0 , R 0 , L 0 ) where R 1 and R 0 represent a positive- and zero-sequence line resistance, respectively, L 1 and L 0 represent a positive- and a zero-sequence line inductance, respectively, Z 0 and Z 1 represent a zero- and positive-sequence line impedances, respectively, I A is the A-phase current, and I 0 is the zero-sequence current. 10. The system of claim 1 , further comprising an underreach element configured to permit the protective action when the fault is within a zone of protection and to inhibit the protective action when the fault is beyond the zone of protection. 11. The system of claim 1 , wherein the plurality of representations of electrical conditions represent time-domain quantities. 12. The system of claim 1 , wherein the type of fault comprises one of a single-phase-to-ground fault, a phase-to-phase fault, a phase-to-phase-to-ground fault, and a three-phase fault. 13. A method for detecting a fault in an electric power delivery system, comprising: receiving a plurality of representations of electrical conditions associated with at least a portion of the electric power delivery system; calculating an incremental current quantity based on the plurality of representations of electrical conditions associated with the at least a portion of the electric power delivery system; calculating an incremental voltage quantity based on the plurality of representations of electrical conditions associated with the at least a portion of the electric power delivery system; determining a fault type based on the incremental current quantity and the incremental voltage quantity; selecting an applicable loop quantity based on the fault type; declaring a fault based on the applicable loop quantity, the incremental voltage quantity, and the incrementa