The course aims to describe the power conversion topologies and related control strategies in energy harvesting applications from marine renewable sources. According to the reference applications, students will acquire the skills necessary to address the problems for the correct selection of architectures for conversion and transmission of electric power in marine generating systems from renewable sources.
teacher profile teaching materials
Wind energy: resource availability assessment, types of available machines, power production principles, performance evaluation, technical and installation issues, environmental impact.
Wave energy: oscillating water column systems, oscillating body systems, overtopping systems. Machines and other devices for power production: state of the art and future developments.
Tidal energy. Barrage based systems with single and double basin, types of available machines. Tidal current technologies: types of turbine, availale techologies and future developments.
Ocean Thermal Energy Conversion (OTEC): closed cycle systems, open systems, hybrid systems. Reference thermodynamic cycles and working fluids. State of the art and future development.
Osmotic Energy: Pressure-Retarded Osmosis (PRO) based systems, state of the art and expected development.
Biofuel from marine biomass.
Simon Neill, M Reza Hashem, “Fundamentals of Ocean Renewable Energy”, Elsevier Academic Press, 2018
Bernard Multon, “Marine Renewable Energy Handbook”, Wiley-ISTE, 2013
Daniele Cocco, Pierpaolo Puddu, “Tecnologie delle energie rinnovabili”, S.G.E., 2016
Programme
Analysis of marine renewable energy sources: description, availability, analysis of power collection systems.Wind energy: resource availability assessment, types of available machines, power production principles, performance evaluation, technical and installation issues, environmental impact.
Wave energy: oscillating water column systems, oscillating body systems, overtopping systems. Machines and other devices for power production: state of the art and future developments.
Tidal energy. Barrage based systems with single and double basin, types of available machines. Tidal current technologies: types of turbine, availale techologies and future developments.
Ocean Thermal Energy Conversion (OTEC): closed cycle systems, open systems, hybrid systems. Reference thermodynamic cycles and working fluids. State of the art and future development.
Osmotic Energy: Pressure-Retarded Osmosis (PRO) based systems, state of the art and expected development.
Biofuel from marine biomass.
Core Documentation
Domenico Coiro; Tonio Sant, “Renewable Energy from the Oceans: From wave, tidal and gradient systems to offshore wind and solar”, IET Digital Library, 2019Simon Neill, M Reza Hashem, “Fundamentals of Ocean Renewable Energy”, Elsevier Academic Press, 2018
Bernard Multon, “Marine Renewable Energy Handbook”, Wiley-ISTE, 2013
Daniele Cocco, Pierpaolo Puddu, “Tecnologie delle energie rinnovabili”, S.G.E., 2016
Type of delivery of the course
Teaching is organized with lectures. Some lessons are dedicated to practical insights of what learned during the theoretical lessons, through exercises guided by the teacher.Type of evaluation
The verification of the learning takes place through an oral test in which questions are proposed in order to verify the understanding of the concepts and the ability of the student to apply them in real contexts.