CSTR Modeling and Control Case Study

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CSTR MATLAB / Simulink Linear vs. Nonlinear Comparison

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CSTR Simulink Linear vs. Nonlinear Comparison

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CSTR Simulation Resources

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CSTR Simulation

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CSTR Parameter Estimation Resources

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CSTR MATLAB / Simulink Linear vs. Nonlinear Comparison
- Model in State Space Form
- Model in Transfer Function Form
- Model in Nonlinear Form (S-Function)

CSTR Parameter Estimation

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CSTR Linearization Resources

CSTR MATLAB / Simulink Linearization Comparison

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Click "View Solution" and Navigate to Dashboard
View Solution Trends

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Run step_test.m or gen_data.m
Edit cstr1.m to view CSTR equations

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Run Simulink file
Change cooling jacket temperature
Observe changes in the concentration and temperature

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CSTR APM Online Simulator, Select Sequential Simulate and Run (Green Arrow)

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CSTR APM Online Simulator
- Change Optimize to Sequential Simulate
- Select Run (Green Arrow)

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CSTR APM Online Simulator

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CSTR APM Online Simulator, Select Sequential Simulate and Run (Green Arrow)

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Continuously Stirred Tank Reactor (CSTR)

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Continuously Stirred Tank Reactor (CSTR)

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Case Study Tutorials

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Case Study Tutorials

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CSTR Control Resources

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CSTR Linearization Resources

CSTR MATLAB / Simulink Linearization Comparison

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CSTR Case Study

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Case Study Tutorials

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CSTR Modeling Resources

CSTR Empirical Modeling with a First Order Plus Dead-time (FOPDT) equation in Excel

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CSTR Parameter Estimation Resources

CSTR Empirical Modeling with a First Order Plus Dead-time (FOPDT) in Excel

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CSTR Modeling Resources

CSTR Empirical Modeling with a First Order Plus Dead-time (FOPDT) equation in Excel

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CSTR MATLAB / Simulink PID Control

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CSTR MATLAB / Simulink PID Control

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CSTR MATLAB Simulink Simulation

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CSTR MATLAB / Simulink Simulation

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Attach: CSTR_Simulink_PID.png

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Continuously Stirred Tank Reactor (CSTR)

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CSTR Simulation Resources

CSTR Control Resources

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(:title ChE 436: CSTR Case Study:)

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(:title CSTR Modeling and Control Case Study:)

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(:title ChE 436: CSTR Case Study:) (:keywords nonlinear, model, predictive control, first principles, empirical, differential, algebraic, modeling language, process control course, continuously stirred tank reactor:) (:description Continuously stirred tank reactor example for Process Control and Dynamics in Chemical Engineering at Brigham Young University:)

Continuously Stirred Tank Reactor (CSTR)

A reactor is used to convert a hazardous chemical A to an acceptable chemical B in waste stream before entering a nearby lake. This particular reactor is dynamically modeled as a Continuously Stirred Tank Reactor (CSTR) with a simplified kinetic mechanism that describes the conversion of reactant A to product B with an irreversible and exothermic reaction. It is desired to maintain the temperature at a constant setpoint that maximizes the destruction of A (highest possible temperature).

(:html:) <iframe width="560" height="315" src="//www.youtube.com/embed/dJuD2wiQbts?rel=0" frameborder="0" allowfullscreen></iframe> (:htmlend:)

Dynamics and Control