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Alcorn R., O'Sullivan D. (Eds.) Electrical Design for Ocean Wave and Tidal Energy Systems

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Alcorn R., O'Sullivan D. (Eds.) Electrical Design for Ocean Wave and Tidal Energy Systems
The Institution of Engineering and Technology, 2014. — 400 p.
Electrical Design for Ocean Wave and Tidal Energy Systems provides an electrical engineering perspective on offshore power stations and their integration to the grid. With contributions from a panel of leading international experts, this book is essential reading for those working in ocean energy development and renewable energy.
Wave and tidal energy engineering has developed strongly in the past decade, with hundred-MW arrays of full scale grid connected wave and tidal devices planned for the next few years. Electrical Design for Ocean Wave and Tidal Energy Systems provides an electrical engineering perspective on these offshore power stations and their integration to the grid. Topics covered include: the selection and sizing of generators and their interaction with power electronics, power cables, connectors and umbilicals; grid integration and power quality issues; energy storage; the implementation of control systems in ocean energy devices modelling and simulation; the relative costings of various systems; and the influence of electrical design on overall project lifetime cost.
With contributions from a panel of leading international experts, Electrical Design for Ocean Wave and Tidal Energy Systems is essential reading for electrical design engineers, researchers and students working in ocean energy development and renewable energy.
Introduction
Electrical generators in ocean energy converters
Overview of generator drive train options
Overview of generator functionality in ocean energy converters
Generators in wave energy systems
Generators in tidal energy systems
Power electronics for generator control in ocean energy converters
Cabling umbilical and array layout
Definition of grid connection layout
Engineering of grid connection infrastructures
Dynamic cable and connector design
Grid integration: part I – power system interactions of wave energy generators
Interaction of wave energy generation with the electrical grid
Off-grid operation of ocean energy systems
Grid integration: part II – power quality issues
Power quality of waveform
Power quality of supply
Guidelines and standards
Grid integration: part III – case studies
Case study: tidal energy – SeaGen
Case study: wave energy
Capacity value of wave energy
Electrical energy storage systems
Motivations for energy storage
Approaches to implementation of energy storage
Electrical energy storage – technology description
EES case studies
Issues associated with electrical energy storage
Sizing of the capacity according to performance criterions
Control systems – design and implementation
Overview of control scheme
Implications of control schemes for electrical system design in tidal energy converters
Implications of control schemes for electrical system design in wave energy converters
Modelling and simulation techniques
Resource to wire modelling for tidal turbines
Resource to wire modelling techniques for wave energy converters
Power system dynamic models
Economics of ocean energy electrical systems
Economic challenges and optimization of ocean energy electrical systems
Ocean energy system economics and cost of electricity
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