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OverviewDiscusses automatic reactive power control of autonomous hybrid power system modelling based on power equations. The modelling can be easily extendable to an autonomous hybrid power system having multi machines system. To test the proposed reactive power control system, state space models of wind-diesel, wind-multi-diesel, multi-wind-diesel, and wind-diesel-micro-hydro using the three different types of SVC models have been developed on the basis of small signal analysis. Simulation studies have been carried out on different examples of hybrid power systems for deterministic and realistic disturbances in load and/or input wind power. The book discusses optimum gain settings of the controllers for step disturbances in input wind and/or in reactive power load and observations obtained from the responses of the system considered under optimum gain settings. ANN models have been developed for different autonomous hybrid power system configurations for tuning the proportional-integral controller of SVC for optimum performance. Full Product DetailsAuthor: R.C. Bansal , T.S. BhattiPublisher: Alpha Science International Ltd Imprint: Alpha Science International Ltd ISBN: 9781842654804ISBN 10: 1842654802 Pages: 240 Publication Date: 30 January 2008 Audience: Primary & secondary/elementary & high school , Educational: Primary & Secondary Format: Hardback Publisher's Status: Active Availability: In Print  This item will be ordered in for you from one of our suppliers. Upon receipt, we will promptly dispatch it out to you. For in store availability, please contact us. Table of ContentsPreface Introduction State of the Art of Hybrid Systems Mathematical Modelling of an Isolated Hybrid Power System for Automatic Reactive Power Control Parameter Optimization and Dynamic Performance Study of Autonomous Hybrid Power Systems Simulation of Autonomous Hybrid Power Systems using Matlab/Simulink for Realistic Load Disturbances Optimum Selection of SVC Controller Gains using Artificial Neural Networks Load Frequency Control of Isolated Hybrid Power Systems Appendix I - III Index.ReviewsAuthor InformationR. C. Bansal.: Electrical & Electronics Engg. Division School of Engineering and Physics, The University of the South Pacific Private Mail Bag, Laucala Campus, Suva, Fiji T. S. Bhatti.: Centre for Energy Studies Indian Institute of Technology Delhi, New Delhi Tab Content 6Author Website:Countries AvailableAll regions |
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