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Praktisk regulering og instrumentering

Course manager

Simon Craige

Semester schedule

Autumn (13-week period)

ECTS

5

Language of instruction

English - Praktical control and instrumentation

Course type

Compulsory

Qualifications

For students at biotechnology: Project 1, 2 and 3, Chemical engineering, and Chemical unit operations

For students at mechanical engineering: competences corresponding to participation in the courses Mathematics 1 and Mathematical modeling are recommended.

Objectives

There is practically no production that is not monitored, controlled and regulated. The main objective of a control system is to secure optimal operation and provide constant and reliable product quality. The course provides basic proficiencies in the theory behind process control and automation systems, and the practical application of this knowledge. Experience will be gained in common control techniques and the application of simulation models to describe the dynamic response and behaviour of system.

Content

  • Presentation of relevant theory and selected basic knowledge in analogue and digital signal data transmission.
  • The principles and design of common instrumentation components (e.g. thermometers, pressuregauges and control valves)
  • Introduction to different control techniques (e.g. Onn-Off, FF & FB, PID, and multi-stage control)
  • Evaluating system response to changes in operational parameters and process disturbances
  • Practical equipment control via automated controllers
  • An introduction to the mathematics of control systems, and it´s use in complex system control 
  • Setting up control flow charts (block diagrams) and the simplification of complex systems
  • The use of computational based process simulation models
  • Introduction to more advanced control principles, such as statistical process control (SPC) and machine learning control (MLC)
  • Introduction to robotics control

The purpose of the practical  elements of the course will be to illustrate, explicate and entrench the theoretic principles through practical exercises comprising e.g. selected control techniques, data collection, and process modelling and simulation.

Learning targets

On completion of the course, the student is expected to be able to:

Knowledge

  • Understand the fundaments of common equipment used in process instrumentation
  • Understand and explain the principles of  control flow-charts.
  • Understand and explain the theory of selected control techniques (e.g. PID regulation)
  • Understand and explain the design and application of control circuits

Skills

  • Set up the necessary differential equations (e.g. FOPDT equations) in order to simulate the dynamics of a system
  • Apply simulation tools in the prediction of a system's response when subject to change
  • Specify relevant control settings for a simple control system (PID and On-Off)
  • Apply simple forms of control and adjustment in practice

Competences

  • Be able to determine whether a process is in control or not
  • Assess operational process data in connection with analysis
  • Be able to tune a PID control system to achieve response specifications

Teaching method

Lectures, problem solution, case studies and exercises in practical application

Qualifications for examination participation

  • Participation in assignments, practical exercises and acceptance of mandatory papers in connection with these.

All course work shall be executed and submitted pursuant to guidelines set out by the course manager

Examination and aids

Written examination. Duration of the examination: 2 hours.

Permitted aids: Textbook, notes, laboratory reports and mathematical programs/spreadsheets applied in the course. No access to the internet.

Marking 

Internal

Grading

The 7-point grading scale