∗ MATLAB function codes to aid the development of harmonic software and provide a hands–on approach to the theory presented.
∗ Insight into the use of alternative, increased efficiency, harmonic domain techniques.
∗ Examination of the harmonic modelling and analysis of FACTS, along with conventional and custom power plant equipment.
∗ Clear presentation of the basic analytical approaches to harmonic theory and techniques for the resolution of harmonic distortion.
Advanced undergraduate and postgraduate students in electrical engineering will benefit from the unique combination of practical examples and theoretical grounding. Practising power engineers, managers and consultants will appreciate the detailed coverage of engineering practice and power networks world–wide.
Orthogonal Series Expansions.
Electric Circuit Analysis Under Non–sinusodal Conditions.
Harmonic Evaluation of Non–linear Functions.
Linearisation in Harmonic Domain.
Real Fourier Harmonic Domain.
Hartley Harmonic Domain.
Iterative Solutions of Non–linear Power Plant Components.
CONVENTIONAL POWER PLANT EQUIPMENT.
POWER ELECTRONICS EQUIPMENT.
Static VAR Compensator.
Thyristor–controlled Series Compensator.
Three–phase, Six–pulse Rectifier.
Static Compensator with PWM Converters.