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Industrial Control

Code: MEBQ007     Sigla: CI

Áreas Científicas
Classificação Área Científica
OFICIAL Engenharia Química e Industrial

Ocorrência: 2018/2019 - 2S

Ativa? Yes
Página Web: https://www.estbarreiro.ips.pt/files/Cursos/UCsMestrado/MEBQ/1A2S_comum_Controlo%20Industrial.pdf
Unidade Responsável: Engenharia Química Industrial
Curso/CE Responsável: Master in Biological and Chemical Engineering

Ciclos de Estudo/Cursos

Sigla Nº de Estudantes Plano de Estudos Anos Curriculares Créditos UCN Créditos ECTS Horas de Contacto Horas Totais
MEBQ 15 Study Plan 1 - 5 30 135

Docência - Responsabilidades

Docente Responsabilidade
Paulo Fernando Martins de Magalhães Correia

Docência - Horas

Theorethical and Practical : 2,00
Type Docente Turmas Horas
Theorethical and Practical Totais 1 2,00
Paulo Fernando Martins de Magalhães Correia 2,00

Língua de trabalho

Portuguese - Suitable for English-speaking students

Objetivos

It is intended that students would be able to:

  • Understand the differences between open and closed loop control systems and to identify the sevreal components that may compose a control loop.
  • Know the instrumentation used to control the most common process variables in biotechnological and chemical processes.
  • Know the symbology used and know how to interpret process and instrumentation diagrams (P&ID).
  • Analyze and characterize systems, based on their response in Laplace space and time.
  • Understand the notions of stability of control systems.
  • Understand the basic actions of Proportional (P), Integral (I) and Derivative (D) control and their influential performance and stability of a control chain.
  • Know strategies of anticipatory control, ratio control, cascade control.
  • Analyze systems and design controllers, using PID controller tuning rules.

Resultados de aprendizagem e competências

The syllabus of the curricular unit will be operated mainly by an expository methodology (theoretical classes) supported by problem-solving classes that allow to obtain skills about the basic concepts of Control Systems. The acquired knowledge must be consolidated by solving a relevant amount of exercises and practical problems, either by the teacher or by the student.The student assessment was designed to measure the extent to which competencies were acquired.

Modo de trabalho

Presencial

Pré-requisitos (conhecimentos prévios) e co-requisitos (conhecimentos simultâneos)

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Programa

1. Typical instrumentation in biotechnological and chemical processes. P&I diagrams.
2. Mathematical modeling of physical systems: Differential equations. Examples of mathematical
models for chemical processes. Transfer function. Block diagram reduction techniques.
3.Dynamic behaviour: time response of first order systems.
4.Scope of control, parts of a control system: the process, sensors, transmitters, controller and final control element.
5.Control system stability
6. PID Controllers: proportional, integral and differential elements. Effects on system response.

Bibliografia Obrigatória

Paulo Correia; Controlo Industrial - Apontamentos, 2017

Bibliografia Complementar

D. R. Coughanowr, S. E. LeBlanc; Process Systems Analysis and Control, McGraw-Hill, 2009. ISBN: ISBN: 978–0–07–339789–4
B.W. Bequette; Process Control - Modeling, Design and Simulation, Prentice Hall , 2003. ISBN: ISBN: 0-13-353640-8
Dale E. Seborg, Duncan A. Mellichamp, Thomas F. Edgar, Francis J. Doyle; Process Dynamic and Control, John Wiley & Sons, 2010. ISBN: ISBN: 0470128674
Curtis D. Johnson; Process Control Instrumentation Technology, Pearson Education Ltd., 2014. ISBN: ISBN: 978-0131194571

Métodos de ensino e atividades de aprendizagem

In the classes, fundamental concepts are exposed, using audio-visual techniques. Illustrative applications of these concepts are solved, stimulating rational thinking and fostering a more critical spirit amongst students. In these same classes the students also solve application exercises, individually and independently.

Software

Octave

Palavras Chave

Technological sciences > Engineering > Chemical engineering

Tipo de avaliação

Distributed evaluation with final exam

Componentes de Avaliação

Designation Peso (%)
Teste 100,00
Total: 100,00

Componentes de Ocupação

Designation Tempo (Horas)
Estudo autónomo 105,00
Frequência das aulas 30,00
Total: 135,00

Obtenção de frequência

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Fórmula de cálculo da classificação final

Evaluation:

a) Continuous
2 tests with 1.5hduration each and with minimum of 9.5 values (0 to 20 values). Each test has a 50% weight in the final evaluation.

b)
By exam
Final exam with a minimum of 9.5 values (0 to 20 values) and 100% weight in the final evaluation.

Provas e trabalhos especiais

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Trabalho de estágio/projeto

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Avaliação especial (TE, DA, ...)

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Melhoria de classificação

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Observações

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