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CHEE 222 Process Dynamics and Numerical Methods Units: 3.50
Time-varying operation of chemical and biochemical processes is introduced. Dynamic mathematical models are formulated using material and energy balances. Effects of operational and design parameters on steady-state and dynamic operations are investigated. Numerical techniques are introduced to solve systems of algebraic and differential equations. Numerical and symbolic computation tools are used to analyze dynamic and steady-state process behaviour.
(Lec: 3, Lab: 0, Tut: 0.5)
(Lec: 3, Lab: 0, Tut: 0.5)
Requirements: Prerequisites: APSC 142 or APSC 143 or MNTC 313, CHEE 221, MTHE 225 or permission of the department
Corequisites:
Exclusions:
Offering Term: W
CEAB Units:
Mathematics 22
Natural Sciences 0
Complementary Studies 0
Engineering Science 20
Engineering Design 0
Offering Faculty: Smith Engineering
Course Learning Outcomes:
- Develop dynamic and steady-state models of chemical processes using mass balance, energy balance and constitutive relationships.
- Calculate states, inputs or parameters at steady states via solving relevant algebraic equations.
- Analyze process dynamics via solving relevant ordinary differential equations.
- Develop linearized models with deviation variables and solve using Laplace transforms.
- Solve complex algebraic and ordinary differential equations using MATLAB built-in functions, and implement classical numerical methods on MATLAB.