Knowledge-based assessment and enhancement of voltage stability

朱太秀, Zhu, Tai-xiu.

January 1996

published_or_final_version / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy

Electric power system stability.

Design of power system stabilizers based on modal and eigenvalue sensitivity analyses

謝志棠, Tse, Chi-tong.

January 1990

published_or_final_version / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy

Electric power system stability.

Analysis of power system aperiodic and oscillatory stabilities

Smart-Yeboah, N. K.

January 1982

No description available.

621.31042

Power system stability

Robust control of flexible AC transmission systems for damping power system oscillations

Farsangi, Malihe Maghfouri

January 2002

No description available.

621

Power system stability

Prediction and Control of Transient Instability Using Wide Area Phasor Measurements

Gomez Lezama, Francisco Ramon

26 October 2011

This thesis presents a novel technique for prediction of the transient stability status of a power system following a large disturbance such as a fault, and application of the tech-nique for subsequent emergency control. The prediction is made based on the synchro-nously measured samples of the magnitudes of fundamental frequency voltage phasors at major generation/load centers. The voltage samples are taken immediately after a fault is cleared and used as inputs to a binary classifier based on support vector machines to iden-tify the transient stability condition. The classifier is trained using examples of the post-fault recovery voltages (inputs) obtained through simulations and the corresponding sta-bility status (output) determined using a power angle-based stability index. Studies with the New England 39-bus test system indicate that the proposed algorithm can correctly recognize when the power system is approaching transient instability. The proposed sys-tem is then applied to Venezuelan power system and Manitoba Hydro power grid to demonstrate the applicability for large practical power systems. Performance of the pro-posed transient stability prediction scheme under the presence of asymmetrical faults, voltage sensitive loads, unlearned network topologies and measurement noise was found to be satisfactory. Once an impending transient instability situation has been detected, appropriate emer-gency control strategies are triggered to minimize the impact of this on the safe operation of the network and reduce the possibility of a blackout. This thesis examines two differ-ent emergency control schemes: a) A fuzzy logic based emergency load and generator shedding scheme and b) A high voltage direct current (HVdc) power order reduction scheme based on synchronized phasors measurements. These strategies were developed for two power systems with contrasting characteristics: one for the Venezuelan power system which is a conventional power system completely based on alternating current (AC) transmission, and the other for the Manitoba Hydro network which heavily depend on long HVdc transmission for power transfer. The proposed wide area control systems demonstrated good performance on the Venezuelan and Manitoba Hydro power grids.

Power System Stability and Control

Prediction and Control of Transient Instability Using Wide Area Phasor Measurements

Gomez Lezama, Francisco Ramon

26 October 2011

This thesis presents a novel technique for prediction of the transient stability status of a power system following a large disturbance such as a fault, and application of the tech-nique for subsequent emergency control. The prediction is made based on the synchro-nously measured samples of the magnitudes of fundamental frequency voltage phasors at major generation/load centers. The voltage samples are taken immediately after a fault is cleared and used as inputs to a binary classifier based on support vector machines to iden-tify the transient stability condition. The classifier is trained using examples of the post-fault recovery voltages (inputs) obtained through simulations and the corresponding sta-bility status (output) determined using a power angle-based stability index. Studies with the New England 39-bus test system indicate that the proposed algorithm can correctly recognize when the power system is approaching transient instability. The proposed sys-tem is then applied to Venezuelan power system and Manitoba Hydro power grid to demonstrate the applicability for large practical power systems. Performance of the pro-posed transient stability prediction scheme under the presence of asymmetrical faults, voltage sensitive loads, unlearned network topologies and measurement noise was found to be satisfactory. Once an impending transient instability situation has been detected, appropriate emer-gency control strategies are triggered to minimize the impact of this on the safe operation of the network and reduce the possibility of a blackout. This thesis examines two differ-ent emergency control schemes: a) A fuzzy logic based emergency load and generator shedding scheme and b) A high voltage direct current (HVdc) power order reduction scheme based on synchronized phasors measurements. These strategies were developed for two power systems with contrasting characteristics: one for the Venezuelan power system which is a conventional power system completely based on alternating current (AC) transmission, and the other for the Manitoba Hydro network which heavily depend on long HVdc transmission for power transfer. The proposed wide area control systems demonstrated good performance on the Venezuelan and Manitoba Hydro power grids.

Power System Stability and Control

The identification of electric power system dynamic equivalents from on-line measurements /

Morris, Timothy John.

January 1978

Thesis (M.E.) -- University of Adelaide, Dept. of Electrical Engineering, 1980. / Typescript (photocopy).

Electric power system stability

A real-time wide-area control for mitigating small-signal instability in large electric power systems

Restrepo, Jaime Quintero,

January 2005

Thesis (Ph. D.)--Washington State University. / Includes bibliographical references.

Electric power system stability.

Design of power system stabilizers based on modal and eigenvalue sensitivity analyses /

Tse, Chi-tong.

January 1990

Thesis (Ph. D.)--University of Hong Kong, 1990.

Electric power system stability.

Knowledge-based assessment and enhancement of voltage stability /

Zhu, Tai-xiu.

January 1996

Thesis (Ph. D.)--University of Hong Kong, 1997. / Includes bibliographical references.

Electric power system stability.