Marine energy technologies harness the power of oceans, tides, and waves to generate renewable electricity. These technologies have the potential to significantly contribute to global energy demands by tapping into the vast and largely untapped energy resources of the seas. Marine energy systems, such as tidal turbines and wave energy converters, capture the consistent motion of the water to produce electricity in a highly predictable manner. Unlike other renewable energy sources, marine energy offers the advantage of a more constant energy flow, as tides and waves are less affected by seasonal or weather variations. With continued advancements in engineering and efficiency, marine energy technologies could become a critical part of the renewable energy landscape, supporting the transition to a cleaner and more sustainable energy system worldwide.
Title : Advances in plasma-based waste treatment for sustainable communities
Hossam A Gabbar, Ontario Tech University, Canada
Title : Empowering communities: Green chemistry and renewable energy for a sustainable development
Helena Belchior Rocha, ISCTE-Institituto Universitário de Lisboa, Portugal
Title : Using green chemistry routes to fabricate green n-type organic semiconductors for the transistor construction
Cristian Ravariu, Universitatea Politehnica Bucuresti, Romania
Title : Intensified microalgal biomass production in HRAP using nutrient-rich wastewater
Mauricio Orantes Montes, National Autonomous University of Mexico, Mexico
Title : An overview of Australia's sustainability opportunities and challenges
Tomayess Issa, Curtin University, Australia
Title : Functionalization of lignin-derived monomers for polyurethane production
Rachele Carafa, Toronto Metropolitan University, Canada
Title : Biobased specialty chemicals for the mineral industry
Louise McCulloch, Omya International AG, Switzerland
Title : Valorization of alginic acid from sargassum for bioplastics
Anthony Fasulo, Toronto Metropolitan University, Canada
Title : An overview of future nanotechnology
Yarub Al Douri, European Academy of Sciences, Belgium
Title : Natural Deep Eutectic Solvents (NADESs) deconstruction of advanced bioenergy crops to enhance recovery of lipids and sugars
Tirath Raj, University of Illinois Urbana Chaimpaign, United States