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Significant changes over the past decade in computing technology, along with widespread deregulation of electricity industries, have impacted on power plant operations while affording engineers the opportunity to introduce monitoring and plant-wide control schemes that were previously unfeasible. Contributors of world-class excellence are brought together in Thermal Power Plant Simulation and Control to illustrate how current areas of research can be applied to power plant operation, leading to enhanced unit performance, asset management and plant competitiveness through intelligent monitoring and control strategies.
Damian Flynn is a lecturer in power engineering in the School of Electrical and Electronic Engineering at The Queen's University of Belfast. A Chartered Engineer and member of the IET, his research interests lie in power plant advanced monitoring and control, power system stability and wind power integration.
Chapter 1: Advances in power plant technologyPart 1: Modelling and simulationChapter 2: Modelling of power plantsPart 2: ControlChapter 3: Modelling and control of pulverised fuel coal millsChapter 4: Generator excitation control using local model networksChapter 5: Steam temperature controlChapter 6: Supervisory predictive control of a combined cycle thermal power plantChapter 7: Multivariable power plant controlPart 3: Monitoring, optimisation and supervisionChapter 8: Extending plant load-following capabilitiesChapter 9: Modelling of NOx emissions in coal-fired plantChapter 10: Model-based fault detection in a high-pressure heater lineChapter 11: Data mining for performance monitoring and optimisationChapter 12: Advanced plant management systemsPart 4: The futureChapter 13: Physical model-based coordinated power plant controlChapter 14: Management and integration of power plant operations