Type of Document Dissertation Author Rosado, Sebastian Pedro Author's Email Address email@example.com URN etd-11162007-141350 Title Voltage Stability and Control in Autonomous Electric Power Systems with Variable Frequency Degree PhD Department Electrical and Computer Engineering Advisory Committee
Advisor Name Title Boroyevich, Dushan Committee Co-Chair Wang, Fei Fred Committee Co-Chair Burgos, Rolando Committee Member Centeno, Virgilio A. Committee Member Kohler, Werner E. Committee Member Liu, Yilu Committee Member Keywords
- multi-pulse transformer rectifier
- stand-alone power systems
- synchronous generator excitation
- lyapunov methods
- voltage stability
- large-signal stability
Date of Defense 2007-09-21 Availability unrestricted AbstractThis work focuses on the safe and stable operation of an autonomous power system interconnecting an AC source with various types of power electronic loads. The stability of these systems is a challenge due to the inherent nonlinearity of the circuits involved. Traditionally, the stability analysis in this type of power systems has been approached by means of small-signal methodology derived from the Nyquist stability criterion. The small-signal analysis combined with physical insight and the adoption of safety margins is sufficient, in many cases, to achieve a stable operation with an acceptable system performance. Nonetheless, in many cases, the margins adopted result in conservative measures and consequent system over designs.
This work studies the system stability under large-perturbations by means of three different tools, namely parameter space mapping, energy functions, and time domain simulations. The developed parameters space mapping determines the region of the state and parameter space where the system operation is locally stable. In this way stability margins in terms of physical parameters can be established. Moreover, the boundaries of the identified stability region represent bifurcations of the system where typical nonlinear behavior appears. The second approach, based on the Lyapunov direct method, attempts to determine the region of attraction of an equilibrium point, defined by an operation condition. For this a Lyapunov function based on linear matrix inequalities was constructed and tested on a simplified autonomous system model. In Addition, the third approach simulates the system behavior on a computer using a detailed system model. The higher level of model detail allows identifying unstable behavior difficult to observe when simpler models are used.
Because the stability of the autonomous power system is strongly associated with the characteristics of the energy source, an improved voltage controller for the generator is also presented. The generator of an autonomous power system must provide a good performance under a wide variety of regimes. Under these conditions a model based controller is a good solution because it naturally adapts to the changing requirements. To this extent a controller based on the model of a variable frequency synchronous generator has been developed and tested. The results obtained show a considerable improvement performance when compared to previous practices.
Filename Size Approximate Download Time (Hours:Minutes:Seconds)
28.8 Modem 56K Modem ISDN (64 Kb) ISDN (128 Kb) Higher-speed Access SRosado_dissertation.pdf 7.98 Mb 00:36:56 00:18:59 00:16:37 00:08:18 00:00:42
If you have questions or technical problems, please Contact DLA.