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Fundamentals of Ocean Renewable Energy: Generating Electricity from the Sea presents the basic concepts of mechanics and introduces the various technical aspects of ocean renewable energy. Contents follow a logical sequence, starting with hydrodynamics and then separately examining each conversion technology, with special focus on tidal energy, offshore wind and wave energy, as well as current and ocean thermal energy conversion (OTEC). The authors explore key topics for resource characterization and optimization, such as monitoring and measurement methods and ocean modeling. They also discuss the sustainability, planning, integration and distribution challenges for the implementation of these technologies, including co-location with other systems. Finally, case studies of ocean energy sites and devices allow for a better understanding of how ocean energy conversion works in real-world settings. This book is an invaluable resource for students at graduate and senior undergraduate level engineering (ocean, mechanical, and civil) and oceanography with prior knowledge of fluid mechanics and mechanics of materials. Presents the fundamental physics and theory behind ocean energy systems, covering both oceanographic and engineering aspects of ocean energy Explores the most widely adopted conversion technologies, including tidal, wave, offshore wind, ocean thermal and currents
One of the main challenges of our time is to be able to guarantee energy supply at a reasonable price. Policy makers, international institutions and the private sector increasingly look to the oceans as a significant source of energy. The Law of the Sea provides the legal framework within which any maritime activity is performed and strikes a balance between the multiple activities that can take place simultaneously in the same maritime zone. This volume addresses some of the main legal challenges raised by the expansion of the ocean energy sector and its consequences for the relevant international normative and institutional framework. Some of the major themes explored include energy sources and the competition for marine space, energy security, private actors and corporate social responsibility, fragmentation or integration, evolution and reinforcement of international law and liability.
Photographs, illustrations, and text introduce readers to energy conservation and the power of water as an energy source.
Purification, regeneration, transformation . . . the ocean has long been known for its extraordinary powers. Sandra Kynes invites you to explore the sea's mystical energies. This spiritual voyage can help you find balance in your life or guide you toward a "sea change" of your own. "Sea Magic" is for everyone. You don't have to live on the coast or follow any specific spiritual path to tap into the unique energy of the ocean. Kynes offers meditations and exercises to help you center yourself, explore emotions, and find your place in the vast web of life. Dive into inner worlds of imagination and creativity. Choose a sea fetch (totem animal) to take you on a shamanic journey. Build an altar to focus your intentions and learn the rhythms of the moon. From working with sea deities to divining with seashells, "Sea Magic "offers ample ways to enhance your life and open up to divine guidance.
Engineers’ dreams and fossil energy replacement schemes can come true. Man has been tapping the energy of the sea to provide power for his industries for centuries. Tidal energy combined with that of waves and marine winds rank among those most successfully put the work. Large scale plants are capital intensive but smaller ones, particularly built in China, have proven profitable. Since the initiation of the St Malo project in France, similar projects have gone into active service where methods have been devised to cut down on costs, new types of turbines developed and cost competitiveness considerably improved. Tidal power has enormous potential. The book reviews recent progress in extracting power from the ocean, surveys the history of tidal power harnessing and updates a prior publication by the author.
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"Maynard Murray was a medical doctor who researched the crucial importance of minerals - especially trace elements - to plants and animals. Beginning in 1938 and continuing through the 1950s, Dr. Murray used sea solids - mineral salts remaining after water is evaporated from ocean water - as fertilizer on a variety of vegetables, fruits and grains. His extensive experiments demonstrated repeatedly and conclusively that plants fertilized with sea solids and animals fed sea-solid-fertilized feeds grow stronger and more resistant to disease. Sea Energy Agriculture recounts Murray's experiments and presents his astounding conclusions. The work of this eco-pioneer was largely ignored during his lifetime, and his book became a lost classic - out-of-print for more than 25 years. Now this rare volume is once again available, with a new foreward and afterword by the founder of Acres U.S.A., Charles Walters."--Publisher description.
Energy and Sea Power: Challenge for the Decade is a collection of essays, which were presented as lectures at the Eighth Annual Pacific Coast Sea Power Forum, held at the U. S. Navy Postgraduate School at Monterey, California, in October 1980, covering the topic of energy and sea power. The book contains papers on world energy availability, its use and economic impact, and on more specialized topic areas such as environmental protection, ship construction for energy efficiency, and the question of renewable ocean energy resources. The text also presents papers on the regulatory and environmental aspects of ocean energy activities; the directions over old sea lanes; and marine transportation needs for U.S. energy supply; energy. The military applications and implications of ocean thermal energy conversion systems; the ocean engineering needs for U.S. energy supply; and the energy-efficient ship design are also considered. The further presents a paper on the shipbuilding needs for support of ocean-energy development.
This book analyses the potential for active stakeholder engagement in the energy transition in the Baltic Sea Region (BSR) in order to foster clean energy deployment. Public acceptability and bottom-up activities can be critical for enduring outcomes to an energy transition. As a result, it is vital to understand how to unlock the potential for public, community and prosumer participation to facilitate renewable energy deployment and a clean energy transition – and, consequently, to examine the factors influencing social acceptability. Focussing on the diverse BSR, this book draws on expert contributions to consider a range of different topics, including the challenges of social acceptance and its policy implications; strategies to address challenges of acceptability among stakeholders; and community engagement in clean energy production. Overall, the authors examine the practical implications of current policy measures and provide recommendations on how lessons learnt from this ‘energy lab region’ may be applied to other regions. Reflecting an interdisciplinary approach in the social sciences, this book is an essential resource for scholars, students and policymakers researching and working in the areas of renewable energy, energy policy and citizen engagement, and interested in understanding the potential for bottom-up, grassroots activities and social acceptability to expedite the energy transition and reanimate democracies. The Open Access version of this book, available at www.taylorfrancis.com, has been made available under a Creative Commons Attribution-Non Commercial-No Derivatives 4.0 license.
Fundamentals of Ocean Renewable Energy: Generating Electricity from the Sea presents the basic concepts of mechanics and introduces the various technical aspects of ocean renewable energy. Contents follow a logical sequence, starting with hydrodynamics and then separately examining each conversion technology, with special focus on tidal energy, offshore wind and wave energy, as well as current and ocean thermal energy conversion (OTEC). The authors explore key topics for resource characterization and optimization, such as monitoring and measurement methods and ocean modeling. They also discuss the sustainability, planning, integration and distribution challenges for the implementation of these technologies, including co-location with other systems. Finally, case studies of ocean energy sites and devices allow for a better understanding of how ocean energy conversion works in real-world settings. This book is an invaluable resource for students at graduate and senior undergraduate level engineering (ocean, mechanical, and civil) and oceanography with prior knowledge of fluid mechanics and mechanics of materials. Presents the fundamental physics and theory behind ocean energy systems, covering both oceanographic and engineering aspects of ocean energy Explores the most widely adopted conversion technologies, including tidal, wave, offshore wind, ocean thermal and currents.