IPT Logotipo do IPT

Ano Letivo: 2022/23

Engenharia Eletrotécnica

Power Generation and Storage

<< back to Curriculum Plan

Publication in the Diário da República: Despacho n.º 8500/2020 - 03/09/2020

6 ECTS; 1º Ano, 1º Semestre, 28,0 T + 28,0 TP + 5,0 OT + 2,0 O , Cód. 37785.

Lecturer
- José Filipe Correia Fernandes (2)
- Mário Helder Rodrigues Gomes (1)(2)

(1) Docente Responsável
(2) Docente que lecciona

Prerequisites
Not applicable.

Objectives
Students will learn about the generation of power through renewable sources, especially: mini-hydro, photovoltaic and wind systems as well as power storage systems.

Program
PV systems: characteristics, operation, assembly, sizing calculations, design and operation.
Wind Energy: conversion limits, performance, power regulation, conversion systems and their characteristics. Wind farms, sizing and production control of active and reactive power.
Energy storage systems: batteries, supercapacitors, flywheels, fuel cells, pumping ...

Evaluation Methodology
Written test: theoretical (40%) Practical (60%).

Bibliography
- Castro, R. (2011). Uma Introdução às Energias Renováveis: Eólica, Fotovoltaica e mini-hídrica. Lisboa: IST Press
- Europeia, C. (0). Manual de Análise de Custos e Benefícios dos Projectos de Investimento. Acedido em 22 de setembro de 2017 em ec.europa.eu/regional_policy/sources/docgener/guides/.../guide02_pt.pdf
- Fernandes, J. e Gomes, M. (0). Material de apoio fornecido pelos docentes. Acedido em 25 de setembro de 2019 em http://www.e-learning.ipt.pt
- Ter-Gazarian, A. (1994). Energy Storage for Power Systems. .: Peter Peregrinus

Teaching Method
Lectures supported by class debates.
Practical sessions focused on problem solving and laboratory demonstrations.

Software used in class

 

 

 


<< back to Curriculum Plan
NP4552
Financiamento
KreativEu
erasmus
catedra
b-on
portugal2020
centro2020
compete2020
crusoe
fct
feder
fse
poch
portugal2030
poseur
prr
santander
republica
UE next generation
Centro 2030
Lisboa 2020
Compete 2030
co-financiado