Special Topics (Introduction to Modeling & Simulation)
- Week 1: Introduction process Modeling Systems (Introduction process Modeling )
- Week 2: Introduction process Modeling Systems (Process Simulation, Development of Process Model, System Specification
- Week 3: Fundamental Relations (Basic Form, Mass Balance (Mole Balance), Energy Balance and Momentum Balance)
- Week 4: Fundamental Relations (Equation of Change for Kinetic and Potential Energy, Equation of Change for Temperature, Enthalpy Change from Thermodynamics, Equations of continuity in Cartesian, Cylindrical and Spherical )
- Week 5: Constitutive Relations (Diffusion, Viscous Motion, Thermal Conduction, Chemical Reaction, Interphase Transfer, Thermodynamic Relations)
- Week 6: Model Formulation (Lumped-Parameter Systems, Distributed-Parameter Systems)
- Week 7: Model Formulation (Fluxes along Non-Linear Directions, Initial and Boundary Conditions)
- Week 8: Model Transformation (Transformation between Orthogonal Coordinate Systems, Transformation between Arbitrary Coordinate Systems
- Week 9: Model Transformation (Laplace Transformation, Miscellaneous Transformations)
- Week 10: Model Simplification and Approximation (Model Simplification, Model Approximation, Linear Function)
- Week 11: Process Simulation (Algebraic Equations (Linear Algebraic Equations/ Non-Linear Algebraic Equations) Differential Equations, Partial Differential Equations)
- Week 12: Process Simulation (Differential Equations with Split Boundaries, Periodic Differential Equations, Programming of Derivatives, Integration of Discrete Data, Roots of Cubic Equations
- Week 13: Modeling and Simulation in Distillation Process
- Week 14: Modeling and Simulation in Absorption and Stripping Process
- Week 15: Modeling and Simulation in Reaction Process