Step by Step Approach to the Modeling of Chemical Engineering Processes
Step by Step Approach to the Modeling of Chemical Engineering Processes
Using Excel for simulation
Ferrareso Lona, Liliane Maria
Springer International Publishing AG
06/2019
173
Mole
Inglês
9783319881638
15 a 20 dias
454
1.1. The importance of Modelling and Simulation
1.2. Important Concepts
1.3. Structure of the book
2. The Recipe to build a mathematical model
2.1. Three fundamental concepts used for modeling
2.2. The recipe for the development of a model
2.3. Proposed problems
3. Lumped-parameters models
3.1. Some introductory examples
3.2. Some concepts about convective heat exchange
3.3. Some concepts about chemical kinetics and reactors
3.4. Proposed problems
4. Distributed-parameters models
4.1. Some introductory examples
4.2. Concepts about mas
s and energy diffusion
4.3. Variations in two and three dimensions
4.4. Proposed problems
5. Solving Algebraic Eq
uations Systems
5.1. Problems involving Linear Algebraic Equations
5.2. Problems involving Non-Linear Algebraic Equations
5.3. Numerical method for Linear and Non-Linear Equations Systems
5.4. Proposed problems
6. Solving Ordinary Differential Equations Systems
6.1. Concepts about Runge-Kutta Family
6.2. Different approaches to solve Ordinary Differential Equations using Excel (R)
6.3. Propos
ed problems
7. Solving Partial Differential Equations Systems &n
bsp;
7.1. Concepts about Finite Difference Method
7.2. Reducing a PDE system in an algebraic equation system
7.3. Reducing a PDE system in an ODE system
7.3. Proposed problems
8. Conclusions
8.1. Intro
duction
8.2. Special
Scenarios
8.3. Main Conclusions and tips
8.4. Proposed problems
1.1. The importance of Modelling and Simulation
1.2. Important Concepts
1.3. Structure of the book
2. The Recipe to build a mathematical model
2.1. Three fundamental concepts used for modeling
2.2. The recipe for the development of a model
2.3. Proposed problems
3. Lumped-parameters models
3.1. Some introductory examples
3.2. Some concepts about convective heat exchange
3.3. Some concepts about chemical kinetics and reactors
3.4. Proposed problems
4. Distributed-parameters models
4.1. Some introductory examples
4.2. Concepts about mas
s and energy diffusion
4.3. Variations in two and three dimensions
4.4. Proposed problems
5. Solving Algebraic Eq
uations Systems
5.1. Problems involving Linear Algebraic Equations
5.2. Problems involving Non-Linear Algebraic Equations
5.3. Numerical method for Linear and Non-Linear Equations Systems
5.4. Proposed problems
6. Solving Ordinary Differential Equations Systems
6.1. Concepts about Runge-Kutta Family
6.2. Different approaches to solve Ordinary Differential Equations using Excel (R)
6.3. Propos
ed problems
7. Solving Partial Differential Equations Systems &n
bsp;
7.1. Concepts about Finite Difference Method
7.2. Reducing a PDE system in an algebraic equation system
7.3. Reducing a PDE system in an ODE system
7.3. Proposed problems
8. Conclusions
8.1. Intro
duction
8.2. Special
Scenarios
8.3. Main Conclusions and tips
8.4. Proposed problems