Mathematical Modelling in Chemical Engineering
- Concepts and steps of modeling
- The overall conservation of mass- control volume approach
-Simple flow
- Complex flow
- Newton second low of motion – control volume approach (overall momentum balance)
- Integral relation for linear momentum
- Integral relation for moment of momentum
- The overall conservation of energy – control volume approach
- Total energy balance
- Mechanical energy balance/Bernoulli equation
- transport equation (mass, momentum and energy) – control volume approach
- (The general property balance (GPB
- 7- (Differential form of mass balance ( GPB
- Simple Flow
- Complex Flow
- Differential form of momentum balance – GPB
- Differential form of energy balance – GPB
- Review of first order differential equations- analytical method
- Review of first order differential equations- numerical method
- Transport equation of mass, momentum and heat in 1D, 2D, 3D,different coordinate systems
- Review of Partial differential equations analytical methods
- Review of Partial differential equations numerical methods
- Unsteady state modeling of mass, momentum and heat transport in 1D, 2D & 3D
- (Population balance equations (GPB
- Statistical analysis, linear and nonlinear regression