| Course Curriculum |
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| Day 1 |
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| Lecture |
Demonstration |
Workshop |
- Fundamentals of Process Dynamics and Control
- Proportional Control
- Integral Action and PI Control
- A Formal Approach to Controller Design Using Design Tools
- Controller Performance Criteria
- Derivative Mode and PID Control
- PID Control with Derivative Filter
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- Modeling Process
Dynamics Using Control Station
- Implementation of
P-Only Controllers
- Adaptive PI Control of Nonlinear Processes
- PID Control of Tank Level
- PID with Filter Control of Heat Exchanger Temperature
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- Exploring Dynamics of the Gravity Drained Tanks
- P-Only Control of Tank Level
- The Hazard of Tuning PI Controllers by Trial and Error
- PI Control of Heat Exchanger Temperature
- PID Control of Heat Exchanger Temperature
- PID with Filter and Control of the Multi-Tanks Process
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| Day 2 |
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| Lecture |
Demonstration |
Workshop |
- Using Control Station with Real Processes
- Cascade Control
- Feed Forward Control
- Dynamics of Non-Self Regulating (Integrating) Processes
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- Simulation and Control of Heat Exchanger using Custom Process
- Single Loop Control of the Jacketed Reactor
- Feed Forward Control of an Ideal Process
- Controlling a Non-Self Regulating (Integrating) Custom Process
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- Modeling and Simulation of Single Loop Processes
- Cascade Control of the Jacketed Reactor
- Feed Forward Control of the Jacketed Reactor
- Modeling and Control of the Pumped Tank Process
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