Base Knowledge
Not applicable
Teaching Methodologies
Brainstorming, Work Grup, accompanied study tutorial guidance and oral exposure.
Learning Results
The main aims of this course unit are: Understanding modern energy paradigm; To be able select the best solutions for any situation.
Program
Module I
Teorical
A minimum of thermodynamics
The physical nature of energy
Principles of thermodynamics
Main variables and thermodynamic transformations
Thermal cycle performance
Pratctical termal cycles
Global renewable energy resources.
Module II
Theoretical
Conventional electricity generation
Mini-hydro plants
Wind Energy
Solar energy,
Photo-electricity.
Nuclear energy.
Energy biomass,
Geothermal energy,
Energy Sea Term (OTEC).
Tidal power.
Hydrogen and fuel cells.
Practical
Elaboration of practical exercises on an installation of a mini – hydro for energy production.
Elaboration of practical exercises on a wind farm for energy production.
Elaboration of practical exercises on solar energy for energy production.
The seminaire will take place in the week of 7 to 10 of June 2022
Curricular Unit Teachers
Internship(s)
NAO
Bibliography
Mandatory/Primary:
RENEWABLE ENERGY
TERMODINAMICAL
U. A. Kirillin, V. V. Sichev, A. E. Sheindlin. – Moscú Mir (1976), Termodinâmica Técnica
M. Moran and H. Shapiro,Fundamentals of Engineering Thermodynamics, John Wiley & Sons.
TEST – The Expert System for Thermodynamics, http://www.thermofluids.net/.
ENERGIA NUCLEAR
Ronald Allen Knief (1981), Nuclear energy technology: theory and practice of commercial nuclear power, Washington: Hemisphere Publishing Corporation,
Complementary:
Teacher Lecture Slides and Laboratory Papers
John Twidell, Anthony D. Weir, Tony Weir, Taylor & Francis (2006), Renewable energy resources, ISBN 0419253203, 9780419253204.
Godfrey Boyle Renewable Energy, Open University, Oxford University Press, ISBN 0199261784, 9780199261789.
Aldo Vieira Da Rosa (2005), Fundamentals of renewable energy processes, Academic Press, ISBN 0120885107, 9780120885107.
Martin Kaltschmitt, Wolfgang Streicher, Andreas Wiese (2007), Renewable energy: technology, economics, and environment, Springer, ISBN 3540709479, 9783540709473.
Bent Sørensen (2004), Renewable energy: its physics, engineering, use, environmental impacts, economy, and planning aspects, Academic Press, ISBN 0126561532, 9780126561531.
Frank Kreith, D. Yogi Goswami, (2007) Handbook of Energy Efficiency and Renewable Energy, CRC Press, ISBN 0849317304, 9780849317309.