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Expected by: 01 December 2024
Wave and Tidal Generation Devices, 2nd Edition

Wave and Tidal Generation Devices, 2nd Edition

Reliability and availability  

by Peter Tavner

The potential of wave power lies in waves' kinetic energy. Waves have a far greater energy density than wind or solar and can generate between 24-70 kW per meter of wave. The global tidal energy potential is estimated to be 3 TW, with approximately 1 TW in comparably shallow waters. The challenge for the development of marine energy converters (MEC) is to achieve an investment cost and rate of return that will make marine energy devices viable, compared to other sources of electrical power.

The first edition of this work provided a description of the reliability and availability issues facing new wave and tidal generation devices. Since publication, there has been growing activity world-wide. The 2nd edition brings this activity to light; chapters cover, after an overview, the principles, reliability in theory and practice, a range of devices and device taxonomy, availability, device layout and grid connection, design and testing for wave and tidal devices, monitoring, as well as operational experiences and lessons learnt from existing systems.

Wave and Tidal Generation Devices, 2nd Edition is a key resource for researchers and developers in industry and academia involved with wave or tidal energy devices, for experts responsible for operating and maintaining wave and tidal assets, as well as for advanced students involved with ocean energy technology engineering.

About the Author

Peter Tavner is an emeritus professor at Durham University, UK. He has held several senior research and technical positions in the UK electrical supply and manufacturing industries, including group head in a former CEGB research laboratory, technical director of Laurence, Scott & Electromotors (LSE) and Brush Electrical Machines (BEM), then group technical director of FKI. He was head of engineering at Durham University, 2006-2010, and president of the European Academy of Wind Energy from 2010-2012.



Item Subjects:
Energy Engineering

Publication Year: 2024

Pages: 336

ISBN-13: 978-1-83953-823-0

Format: HBK

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