Proceedings of The 3rd International Conference on Climate Change and Ocean Renewable Energy

This book promotes policy frameworks and economic models facilitating large-scale ocean renewable energy deployment. Renewable energy refers to power generated from naturally replenished resources like sunlight, wind, rain, tides, waves, and geothermal heat. These sources are abundant and sustainable on a human timescale, making them crucial in addressing global energy needs. According to BP's 2018 Energy Outlook, renewable energy is set to grow fivefold by 2040, contributing about 14% of global primary energy. This growth is pivotal as climate change, driven by rising global temperatures, poses severe risks to humans and ecosystems. The transition to renewable energy, including biofuels, offers a critical solution to mitigate these impacts. By reducing reliance on fossil fuels, we can help slow the progression of climate change. In the past, renewables were seen as costly, but advancements in clean energy technology are making them more affordable. This cost reduction is accelerating the global shift toward renewable energy, promoting sustainable economic growth, and reducing environmental harm caused by fossil fuel dependency. The future of energy lies in harnessing these renewable resources.

Presents cutting-edge technologies like tidal, wave, and offshore wind energy to drive innovation Promotes policy frameworks and economic models facilitating large-scale ocean renewable energy deployment Discusses the potential of untapped ocean resources to create sustainable, renewable energy solutions

Autorentext

Dr. Joan Cecilia C. Casila is Associate Professor in the Land and Water Resources Engineering Division at the University of the Philippines, Los Baños (UPLB), with over a decade of experience. She earned her Ph.D. in civil and environmental engineering from Tokyo Metropolitan University. Recently, she was awarded the One UP Professorial Chair for outstanding teaching and research. Dr. Casila actively represents the Philippines in global organizations such as the United Nations Industrial Development Organization and has facilitated collaborations between UPLB and international institutions like Tokyo Metropolitan University, TKM College of Engineering Kollam India, and Indian Institute of Technology (IIT)-Roorkee. Her dedication to research is reflected in her projects, publications in prestigious international journals, and her involvement in organizing special sessions and international conferences.

Dr. Anupam Khajuria is working as Research Fellow and Academic Associate at the United Nations University, Institute for the Advanced Study of Sustainability (UNU-IAS), Tokyo, Japan. Prior to joining UNU, Dr. Khajuria worked as Researcher at the United Nations Centre for Regional Development in Nagoya, Japan, for almost a decade. Her expertise lies in the realm of environmental research with an emphasis on waste and water management, circular economy, and education for sustainable development. She worked as Post-Doctoral Fellow at the Indian Institute of Science (IISc), Bangalore, India, and Tokyo Institute of Technology (TIT), Tokyo, Japan. She has been associated with several environmental/scientific societies and contributes to the editorial boards of a few journals, such as Circular Economy, International Journal of Development and Sustainability, and Circular Economy of Frontier in Sustainability.

Prof. Saim Memon is CEO and Industrial Professor of renewable energy engineering. He built his academic research career in the UK, earning a Ph.D. in mechanical, electrical & manufacturing engineering, a PGCert in teaching qualification, an M.Sc. in mechatronics, and a B.Eng. (Hons) in electrical engineering. Prof. Memon is Chartered Engineer and Fellow of the Higher Education Academy, holding qualified teacher status granted by the General Teaching Council for Scotland in the UK. With multidisciplinary expertise in electrical, mechanical, and renewable energy engineering, Prof. Memon ranks in the top 0.96% of researchers worldwide in the field of energy over the past five years (ScholarGPS). He has published over 140 research papers, delivered more than 100 invited talks, and engaged in collaborative research across 40+ countries. He has taught 41 academic modules and supervised numerous Ph.D. and M.Sc./M.Eng. projects. His specialised teaching of AI in Renewable Energy and Power Engineering Materials Innovation attracted worldwide participation.

Inhalt

Introduction to Climate Change and Ocean Renewable Energy.- The Science of Climate Change and its Oceanic Impacts.- Tidal Energy Harnessing Ocean Tides.- Wave Energy Capturing the Power of Ocean Waves.- Offshore Wind Energy Expanding Beyond Land.- Ocean Thermal Energy Conversion OTEC.- Marine Current Energy.- Energy Storage and Grid Integration for Ocean Renewable Energy.- Environmental Impacts and Sustainability of Ocean Renewable Energy.- Policy Economics and Global Cooperation.- Case Studies and Real-World Applications.- Future Perspectives in Ocean Renewable Energy.