Adaptive/optimal neurocontrol based on adaptive critic designs for synchronous generators and facts devices in power systems using artificial neural networks

Park, Jung Wook

08 1900

No description available.

Electric power systems Control

Neural networks (Computer science)

Artificial intelligence

Wavelet-based transient analysis

Lee, Chien-Hsing

08 1900

No description available.

Wavelets (Mathematics)

Electric power systems Analysis

Transients (Electricity)

New methodology for power system modeling and its application in machine modeling and simulation

Gao, Wenzhong

05 1900

No description available.

Time-domain analysis

Robust output feedback controllers for power system stabilization

Falkner, Catherine M.

12 1900

No description available.

Electric power system stability

Electric power systems Control

Automatic control

Nondivergent and optimal power flow : a unified approach

Chao, Xingyong H.

12 1900

No description available.

Electric power systems

Power-plants

Electric power distribution

Robust control strategies for the transient control of interconnected power systems

Jiang, Haibo

05 1900

No description available.

Interconnected electric utility systems

Electric power systems Control

An analytical study of the power flow equations with applications to systems with multiple close solutions

Ebrahimpour, Mohammad Reza

12 1900

No description available.

Electric power systems

Electric power system stability

Power (Mechanics)

On-line digital signal processing methods for the correction of errors in high voltage power waveform measurements

Hamrita, Takoi K.

12 1900

No description available.

Electric power systems

Harmonics (Electric waves)

Electric transformers

A methodology for determining the effects of non-utility generation on inter-area oscillations in electric power systems

McCalley, James D.

05 1900

No description available.

Electric power systems

Power-plants

Electric power distribution

Hybrid simulation of AC-DC power systems

Anderson, Glenn Warwick Jan

January 1995

Transient stability studies are primarily concerned with the generator response of ac power systems and use only steady state type equations to model HVdc converter terminals. These equations are adequate for small disturbances at the converter terminals but cannot accurately represent a converters behaviour during, and through its recovery of, a significant transient disturbance. A detailed three phase electromagnetic analysis is necessary to describe the converters correct behaviour. This thesis describes an accurate and effective hybrid method combining these two types of studies, for analyzing dynamically fast devices such as HVdc converters within ac power systems. Firstly, conventional techniques are reviewed for both a transient stability analysis of power systems and for an electromagnetic transient analysis of HVdc converters. This review deals in particular with the two programs that constitute the hybrid developed in this thesis. Various techniques are then examined to efficiently and accurately pass the dynamic effects of an HVdc link to an ac system stability study, and the dynamic effects of an ac system to a detailed HVdc link study. An optimal solution is derived to maximise the inherent advantages of a hybrid. Finally, the hybrid is applied to a test system and its effectiveness in performing its task is shown.

HVdc converters

AC-DC power systems

transients

hybrid simulation