CE20236: Process dynamics, modelling and control
[Page last updated: 15 May 2025]
| Academic Year: | 2025/26 |
| Owning Department/School: | Department of Chemical Engineering |
| Credits: | 10 [equivalent to 20 CATS credits] |
| Notional Study Hours: | 200 |
| Level: | Intermediate (FHEQ level 5) |
| Period: |
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| Assessment Summary: | CWPI 100% |
| Assessment Detail: |
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| Supplementary Assessment: |
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| Requisites: | |
| Learning Outcomes: |
After successfully completing this unit, you will be able to:
* Choose the appropriate mathematical models to solve chemical engineering principles and processes (A1b, A2.3a) [CLO: K1; I1] * Implement appropriate numerical, computational methods, and digital techniques to solve chemical engineering problems (A2.3b, A2.5d) [CLO K1, I1, I2] * Interpret a chemical engineering scenario to predict the response to changes in a dynamic system (A2.5c) [CLO: P1] * Design a control system for chemical engineering process with given product specifications (A2.5c) [CLO: P2] |
| Synopsis: | Explore chemical engineering concepts and processes using modelling. You'll learn how to build mathematical models and the numerical methods to solve and analyse them. You'll also describe the changeable behaviour of processes and their control for consistent, sustainable, and safe production. |
| Content: | * Introduction to transient bevahour of processes * Introduction to formulation of mathematical models * Application of numerical methods * Model, analyse and predict response of dynamic systems * Design measurement systems and control functions. |
| Skills: | * Analysis [T,F,A] * Problem solving [T,F,A] |
| Aims: | This unit will introduce you to the transient behaviour of processes, and the mathematical models and numerical methods by which this behaviour can be described, analysed and controlled. |
| Course availability: |
CE20236 is a Must Pass Unit on the following courses:Department of Chemical Engineering
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Notes:
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