Energy Management

Year
2
Academic year
2023-2024
Code
02031288
Subject Area
Mechanical Engineering
Language of Instruction
Portuguese
Mode of Delivery
Face-to-face
Duration
SEMESTRIAL
ECTS Credits
6.0
Type
Compulsory
Level
2nd Cycle Studies - Mestrado

Recommended Prerequisites

Termodynamics and Electricity.

Teaching Methods

The teaching methodology involves lectures for the presentation and development of concepts and/or tools, using slides and, often, the illustration with real situations; Exercise classes for the practice of application of concepts and tools to concrete situations.

The teaching methodology involves also a significant tutorial support during the conducting of a group work energy analysis and optimization of an industrial process.

Learning Outcomes

The purpose of this curricular unit is to provide the students with knowledge and tools to allow them to realize the economic and environmental importance of the rational use of energy and to enable the analysis and optimization of the energy production or consuming systems.

LO1 Provide students contact and familiarity with the mandatory aspects, rules and directives applicable in the context of energy management and energy efficiency;

LO2 Promoting the ability to develop, determine and analyze energy performance indicators;

LO3 Develop the ability to evaluate in detail, by performing mass and energy balances with chemical reaction, for example, the operating conditions of the main energy consumers in a particular installation;

LO4 Develop the ability to propose measures to improve energy efficiency;

LO5 Provide students familiarity with the concept of exergy and promote its use in the analysis of the energy performance of complex systems.

Work Placement(s)

No

Syllabus

Regulations and normative aspects. PNAEE. ISO 50001 and EN 166001. SGCIE. Energy audits, PREn.

Energy accounting. Types of energy. Breakdown of consumption. Main indicators and benchmarking.

Thermal energy production. Combustion and thermochemical. Mass and energy balances with reaction. Ovens. Systems of production and distribution of steam.

Cold production. Cooling technologies and factors affecting their performance. Typical losses in refrigeration systems.

Process integration. Cogeneration: i) associated advantages ii) typical configurations and technological solutions; iii) basic tools of project. Heat Recovery

Concept of Exergy: Exergy, availability and energy quality. Exergy analysis of systems.

Understanding electrical energy use. Single phase systems; power factor and compensation.

Driving force. Electric motors. Pumps and fans. Losses, energy balances and efficiency.

Lighting. Lighting technology. Optimization of lighting systems.

Head Lecturer(s)

José Manuel Baranda Moreira da Silva Ribeiro

Assessment Methods

Assessment
Project: 20.0%
Exam: 80.0%

Bibliography

Guia de Aplicações de Gestão de Energia e Eficiência Energética, André Fernando Ribeiro de Sá, Publindústria

Resolução do Conselho de Ministros n.º 80/2008 (PNAEE)

Decreto-Lei n.º 71/2008 (SGCIE)

Despacho n.º 17313/2008 (PCI e factores de redução a TOE)

Despacho n.º 17449/2008 (Auditorias e PREn)

NP EN 16001 Sistemas de Gestão de Energia

DIN EN 16001 Guide for companies and organizations

IPPC – Reference document on Best Available Technologies for Energy Efficiency, European Commission, Joint Reseach Centre, Institute for Prospective Technological Studies

Medidas de Eficiência Energética Aplicáveis à Indústria Portuguesa: Um Enquadramento Tecnológico Sucinto. Vitor Magueijo e outros. ADENE e DGEG

Termodinâmica, Çengel and Boles. McGraw-Hill.

Circuitos Eléctricos, Vitor Cancela Meireles, LIDEL, 4ª ed. 2007

Documento de apoio às aulas teóricas, Ricardo Mendes, DEM-2011

Energy Management Handbook, 6th edition, editors W. Turner and S. Doty, The Fairmont Press, 2006.