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  Lecturer : Dr. Mohd Kamaruddin bin Abd Hamid Semester : Semester 2 2012/13
  Synopsis: This course covers the fundamentals of dynamic process modelling, dynamic process process behaviours and process control. In this course, more concentration will be given to lumped parameter systems modelling. Process will be modelled using first principles and Laplace transform will be used to solve the linear differential equations to analyze the dynamic behaviour of the systems. Learning Outcomes: At the end of this course, you will be able to: Identify manual, feedback, feedforward and cascade control systems for commonly controlled process variables. Derive time domain dynamic models and Laplace domain input-output models for chemical processes. Analyze the dynamic behaviours of first order, second order and higher order systems.
  This work, SKF3143 Process Control & Dynamics by MOHD KAMARUDDIN ABD HAMID is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 3.0 Unported License
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  Topic 1
  Lecture 1: Introduction to Process Control
  
  At the end of this lecture, you will be able to:
  

  1. explain the function and importance of process control in chemical plants.
  2. identify and describe simple control systems used in every day life and in a chemical plant.
  3. demonstrate understanding of a process and instrumentation diagram.

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    Lecture 1: Introduction to Process Control File
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  Topic 2
  Lecture 2: Control of Chemical Processes
  
  At the end of this lecture, you will be able to:
  

  1. Identify main control variables and the application.
  2. Classify type of variables in chemical processes.
     

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    Lecture 2: Control of Chemical Processes File
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  Topic 3
  Lecture 3: Development of Mathematical Model
  
  At the end of this lecture, you will be able to:
  

  1. Model process control using mathematical approach.
     

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    Lecture 3: Development of Mathematical Model File
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  Topic 4
  Lecture 4: Laplace Transform
  
  At the end of this lecture, you will be able to:
  

  1. Solve linear differential equation using Laplace Transform.
     

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    Lecture 4: Laplace Transform File
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  Topic 5
  Lecture 5: Transfer Function
  
  At the end of this lecture, you will be able to:
  

  1. Develop transfer function of process control.
     

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    Lecture 5: Transfer Function File
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  Topic 6
  Lecture 6: Response of First Order Systems
  
  At the end of this lecture, you will be able to:
  

  1. Analyze the response of the first order systems.
     

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    Lecture 6: Response of First Order Systems File
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  Topic 7
  Lecture 7: Response of Second Order Systems
  
  At the end of this lecture, you will be able to:
  

  1. Analyze the response of second order systems.
     

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    Lecture 7: Response of Second Order Systems File
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  Topic 8
  Lecture 8: Dynamic Response Characteristics of More Complicated Systems
  
  At the end of this lecture, you will be able to:
  

  1. Analyze the response of complex systems.
     

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    Lecture 8: Dynamic Response Characteristics of More Complicated Systems File