Materials for Energy Technology (MET)
This topic has as main objectives the acquisition of knowledge in the field of technology associated to most important materials used in power energy systems, in order to become able to select and/or design the most adequate systems and materials for a specific electric application. The students should acquire scientific knowledge in electric, magnetic and superconductor materials and associated common corrosion processes. In the end, they should be able to understand manufacturer’s technical information, to select adequate materials for a specific application and to design more efficient and reliable power systems. Students should also develop soft skills such as: ability to categorize priorities during the analysis of a technical problem, ability to make choices and take decisions and improvement of written and oral communication skills. The final objective is to contribute to a more interdisciplinary profile, in order to improve employability.
Anabela Monteiro Gonçalves Pronto
Weekly - 4
Total - 58
The students should have solid knowledge in eletrotechnical fundamentals.
• Pronto, Gonçalves A., Análise de perdas em sistemas de energia que empregam materiais supercondutores de alta temperatura, Tese de Doutoramento, Ed. FCT, 2010.
• Pronto, Gonçalves A., Diapositivos de Tecnologia de Materiais para a Energia, FCT, Caparica, 2021.
• Jones, Ian P., Materials Science for Electrical and Electronic Engineers, Oxford University Press, UK, 2001.
• Bolton, W., Electrical and Magnetic Properties of Materials, Longman Scientific & Technical, UK, 1992.
• Xavier Moya, David Muñoz-Rojas, Materials for Sustainable Energy Applications, Taylor & Francis Group, LLC, 2016.
• Christopher Rey, Superconductors in the Power Grid, Materials and Applications, Woodhead Publishing Series in Energy, Number 65, Elsevier Ltd, 2015.
• Hall, Matthew R., Materials for energy efficiency and thermal comfort in buildings, Woodhead Publishing Limited, 2010.
This subject will be presented in theoretical and theoretical-pratical classes. The participation of experts in a specific topic could also happen.
This subject will be evaluated according to one of the following methods:
a) 2 Tests (MT) + Research Work (RW)
Final Classification (FC) = 0,70*MT Media + 0,30*TP
com MT Media >= 9,5 val and RW >= 9,5 val.
b) Final Exam (Ex) + Research Work (RW)
Final Classification (FC) = 0,70*Ex + 0,30*RW
with Final Exam >= 9,5 val. and RW >= 9,5 val.
In both cases, the student will be approved only if his/her final mark will be equal or higher 9,5 values (in a 0-20 scale).
If necessary, the teacher responsible for the subject can require an oral exam to evaluate (or, re-evaluate) the theoretical and/or the practical component of the subject.
Programs where the course is taught: