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The equal area criterion is a mathematical relation within engineering of a power system that definies the limits of stability of changes in the power of a synchronous machine
.[1][2] The criterion is useful for defining the critical limits of stability of AC power system.
It is based on mathematical function on how the electric power, Pel depends on the load angle, δ, by Pel=Pmaxsin(δ). With the load angle, δ as the angle between the stator reference frame and the rotor reference frame. As described by the Swing equation. The areas in the equal area criterion refer to acceration caused by the difference between a mechanical power Pmech and the electrical system given by Pel=Pmaxsin(δ).
Sudden change of load
[edit]Consider a synchroncous machine described by the intial mechanical power Pmech0 and the electrical system Pel=Pmaxsin(δ)[1]. A sudden change of the mechanical power from Pmech0 to Pmech1 will move the new stable opertion point from point (0) at δ0 to point (1) at δcr. This does not happend at an instant, and the load angle will accelerate and move from point (0) to point (1). But the angle δ does not stop at point (1), the load angle will continue further beyond point (1) and deaccelerate to point (2) at δmax. The system will then swing between point (0) and point (2), around point (1). Damping will decrease the occilation and move it closer to the final point (1).
Any movement further than the maxmimum angle δmax, would lead to instability. Stability is definied by the equal area criterion. That the area (A1) during the acceleration of the load angle that store kinetic energy
should be equal to the area (A2) of the already stored kinetic area.
Meaning that both areas are equal as
Fault and clearance of fault
[edit]A common application of the criterion is for stability of fault clearance. Consider an electrical system described by the curve Ppre=Pmax1sin(δ), and the mechanical power Pmech[1]. The operation point of the system (before the fault) is by point (0) where Ppre=Pmech.
The first area (A1) is definied by the acceleration during the fault (definied by the fault curve, Pfault=Pmax2sin(δ)), from point (0) to point (1), by
this area should be equal to the area (A2) after the the fault is cleared (definied by the post-fault curve Ppost=Pmax3sin(δ)), from point (1) to point (2), by
Meaning that both areas are equal as
usually solved by finding the critircal angle δcr when the fault must be cleared (or a the corresponding time tcr of this angle).
See also
[edit]References
[edit]- ^ a b c "Equal Area Criterion in Power System". EEEguide – Online Electrical and Electronics Learning Site. 31 December 2016. Retrieved 2024-12-02.
- ^ "Equal Area Criterion". electrical4u Learn Electrical Engineering. 21 June 2024. Retrieved 2024-12-02.