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Simulaton and Energy Efficency

Code: LEM31134     Sigla: SEE

Áreas Científicas
Classificação Área Científica
OFICIAL Applied Thermodynamics

Ocorrência: 2021/2022 - 1S

Ativa? Yes
Unidade Responsável: Departamento de Engenharia Mecânica
Curso/CE Responsável:

Ciclos de Estudo/Cursos

Sigla Nº de Estudantes Plano de Estudos Anos Curriculares Créditos UCN Créditos ECTS Horas de Contacto Horas Totais
EM 7 Plano de Estudos 3 - 6 75 162

Docência - Responsabilidades

Docente Responsabilidade
Luís Manuel Rodrigues Coelho

Docência - Horas

Theorethical and Practical : 3,00
Practical and Laboratory: 2,00
Type Docente Turmas Horas
Theorethical and Practical Totais 1 3,00
Luís Manuel Rodrigues Coelho 3,00
Practical and Laboratory Totais 1 2,00
Luís Manuel Rodrigues Coelho 2,00

Língua de trabalho

Portuguese
Obs.: Caso haja alunos de Erasmus será dado apoio em Inglês

Objetivos

Provide students with knowledge of the importance of the building sector in energy consumption with their national and Community legislation;

Knowledge about passive air conditioning. Provide students with knowledge about building energy simulation using simulation programs, understanding the bases of their calculation algorithms and learning how to use them for different purposes, namely for calculating thermal loads in the design of HVAC systems, for calculating the energy consumption and studies of energy efficiency measures and for energy certification of buildings. Knowledge of Energy regulation of buildings, Energy Certification System of buildings, application of Regulation of Energy Performance of Commercial Buildings and Services.) Knowledge of passive and active measures to increase the energy efficiency of buildings.

Resultados de aprendizagem e competências

Know and know how to apply passive air conditioning measures in buildings; 

Know active energy efficiency measures in buildings;

Know the various types of software of energy simulation of buildings;

Know how to work with at least one dynamic building simulation program;

Apply the dynamic building simulation program for the purposes of system design and air conditioning and for estimating the building's energy consumption;

Know how to apply the national energy performance regulation of commercial and service buildings;

Know how to use the dynamic building simulation program to determine the energy efficiency class of a building.

Modo de trabalho

Presencial

Programa

Chapter 1 - General principles: Building sector and energy consumption; Energy regulation, types of energy simulation of buildings. Energy Certification System of Buildings and Regulations.

Chapter 2 - Passive Climate: Techniques. Bioclimatic architecture. Passive solar acclimatization. Thermal inertia. Natural ventilation. Evaporative cooling. Double facade

Chapter 3 - Energy simulation of buildings. Models and algorithms and clima. Calculation of thermal loads. Fresh air. Design Conditions; thermal loads. Simulation for determination of energy consumption. Onezone and multizone simulation. Estimation of consumption and costs of energy and CO2 emissions.

Chapter 4 - RECS.– General aspects. Design Requirements. Determination of energy performance indicators. New and existing buildings. Regulatory verification and energy classification.

Chapter 5 - Energy Efficiency. Energy efficiency measures. Audits. Energy Management Systems.

Bibliografia Obrigatória

Direção-Geral de Energia e Geologia; Manuel SCE

Bibliografia Complementar

Jan L.M., Hensen, Roberto Lamberts; BUILDING PERFORMANCE SIMULATION FOR DESIGN AND OPERATION, Taylor & Francis Group
Vishal Garg et al; ook Review - Building Energy Simulation, A Workbook Using DesignBuilder, CRC Press, 2017. ISBN: ISBN 9781498744515

Métodos de ensino e atividades de aprendizagem

Expositive and participative with predominance of practical applications. Distributed assessment with development of works and one test. The teaching methodology will focus on the use of a case study that will be developed in an energy simulation program in which all the subjects taught will be exemplified.

There will be four works developed in groups of  of 2-4 students, each of which will have a report and a presentation. Final work will also be done based on the resolution of a case study (energy certification, energy efficiency improvement measures or other that is being developed at IPS and which has been requested by an external entity). Reports and presentations will be made in English.

The evaluation will be based on an individual evaluation base in a test a weight of 50% an evaluation of the works carried out with a weight of 50%.

Software

DesignBuilder Software, versão 7
DIALux evo
Ventilação Rph (SCE)
CLIMAS_SCE
Qventila (SCE)

Tipo de avaliação

Distributed evaluation with final exam

Componentes de Avaliação

Designation Peso (%)
Teste 50,00
Trabalho escrito 50,00
Total: 100,00

Componentes de Ocupação

Designation Tempo (Horas)
Trabalho escrito 30,00
Total: 30,00

Obtenção de frequência

The evaluation will be based on an individual evaluation base in a test a weight of 50% an evaluation of the works carried out with a weight of 50%.

Component A: A mini-test and a test (continuous assessment), with the possibility of recovery through the exam of the normal season, recovery season or special season.
Component B: Practical Work with 2 assessment phases (mandatory)
Final Grade Calculation = 50% (Component A) + 50% (Component B).

Minimum grade in the mini-test and in the test: 7 values

Fórmula de cálculo da classificação final

Final Score = 50% average of the 2 tests + 50% work
Minimum grade in the mini-test and in the test: 7 values

Provas e trabalhos especiais

n.a.

Trabalho de estágio/projeto

n.a.

Avaliação especial (TE, DA, ...)

n.a.

Melhoria de classificação

In appeal season exam.
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