Coastal Hydrodynamics and Wave Energy Generation
AvMohammad R. Nikoo,Amir H. Gandomi
Inbunden, Engelska, 2027
1 433 kr
Kommande
Beskrivning
Connect coastal hydrodynamics to wave energy conversion in seven chapters Coastal Hydrodynamics and Wave Energy Generation unifies two domains often treated separately: nearshore wave physics and wave energy converter engineering. Across seven chapters, this text examines fundamental coastal principles, advanced coastal processes, wave dynamics, converter design and implementation, and wave generation models. It also addresses how climate change affects coastal processes and long-term energy yield from ocean waves. Case studies from Oman and California Bay illustrate how wave generation models perform under distinct regional conditions. Detailed treatment of wave theory, coastal structures, and hydrodynamic modeling provides the analytical foundation for evaluating converter performance. Multiple-choice quizzes and extended case study explorations for classroom or self-directed study. Readers will also find: Analysis of how storm surges, tidal flows, and coastal erosion interact with wave energy harvesting infrastructure at site-specific locations.In-depth examination of wave energy converter (WEC) mechanics, from structural and mechanical design to localized deployment and performance optimization strategies.Comprehensive coverage of continental shelf morphodynamics and their direct influence on nearshore energy potential across diverse geographic regions.Actionable guidance on wave generation model setups and the engineering design considerations for commercial-scale wave farms.Instructional support tools, including targeted quizzes and problem sets, tailored for advanced undergraduate and graduate-level courses.Designed for graduate and advanced undergraduate students in wave energy conversion and renewable energy courses, this text also serves professionals and scientists in coastal engineering, oceanography, maritime transportation, marine biology, and urban planning who require rigorous treatment of hydrodynamic processes and their energy applications.