Title :
Q-V curve interpretations of energy measures for voltage security
Author :
Overbye, Thomas J. ; Dobson, Ian ; DeMarco, Christopher L.
Author_Institution :
Dept. of Electr. & Comput. Eng., Illinois Univ., Urbana, IL, USA
fDate :
2/1/1994 12:00:00 AM
Abstract :
Energy methods have shown promise as measures for quantifying the vulnerability of power systems to problems of voltage instability and collapse. However, to make such measures more useful as a security assessment tool in an operational environment. It is important to provide physical interpretations of the quantitative measure. This paper demonstrates that for certain basic load models, the energy based security measure is equal to the area enclosed by a familiar Q-V curve, with a change of scale on the voltage axis. This interpretation has the added benefit of providing easily computed approximations to the maximum real and reactive power loadability both at individual buses and for the system as a whole. Results are demonstrated in detail on the IEEE 118 bus system, with additional tests on a 415 bus sample system
Keywords :
approximation theory; power system analysis computing; power system control; power system protection; power system stability; reactive power; transmission networks; Q-V curve interpretations; approximations; buses; energy methods; load models; power systems; reactive power loadability; real power loadability; security assessment; transmission networks; voltage collapse; voltage instability; voltage security; Area measurement; Energy measurement; Load modeling; Power measurement; Power system measurements; Power system modeling; Power system security; Reactive power; System testing; Voltage measurement;
Journal_Title :
Power Systems, IEEE Transactions on
