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Introduction to Chemical Engineering Analysis Using Mathematica.
This book provides an introduction to chemical engineering analysis- which reviews the processes and designs used to manufacture, use, and dispose of chemical products-and to Mathematica, one of the most powerful mathematical software tools available for symbolic, numerical, and graphical computing....
| Clasificación: | Libro Electrónico |
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| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Burlington :
Elsevier Science,
2002.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Introduction to Chemical Engineering Analysis Using Mathematica®; Copyright Page; Contents; Preface for an Instructor; Preface for the Student; Acknowledgment; Chapter 1 . A Primer of Mathematica; 1.1 Getting Started in Mathematica; 1.2 Basics of the Language; 1.3 Simple Commands; 1.4 Table, Plot, Map, and Plot3D; 1.5 Lists and ListPlot, Fit, and Show; 1.6 Solve and NSolve; 1.7 Differentiate and Integrate; 1.8 DSolve; 1.9 NDSolve; 1.10 Units Interconversion; 1.11 Summary; Chapter 2. Elementary-Single-Component Systems.
- 2.1 The Conservation of Mass Principle and the Concept of a Control Volume2.2 Geometry and the Left-Hand Side of the Mass Balance Equation; 2.3 Summary; Chapter 3. The Draining Tank and Related Systems; 3.1 The Right-Hand Side of the Mass Balance Equation; 3.2 Mechanism of Water Flow from Tank-Torricelli's Law, A Constitutive Relationship; 3.3 Experiment and the Constitutive Equation; 3.4 Solving for Level as a Function of Time; 3.5 Mass Input, Output, and Control; 3.6 Control; 3.7 Summary; Chapter 4. Multiple-Component Systems; 4.1 The Concept of the Component Balance.
- 4.2 Concentration versus Density 4.3 The Well-Mixed System; 4.4 Multicomponent Systems; 4.5 Liquid and Soluble Solid; 4.6 Washing a Salt Solution from a Vessel; 4.7 The Pulse Input Tracer Experiment and Analysis; 4.8 Mixing; 4.9 Summary; Chapter 5. Multiple Phases-Mass Transfer; 5.1 Mass Transfer versus Diffusion; 5.2 Salt Dissolution; 5.3 Batch; 5.4 Fit to the Batch Data ; 5.5 Semicontinuous: Pseudo Steady State; 5.6 Full Solution; 5.7 Liquid-Liquid System; 5.8 Summary; Chapter 6. Adsorption and Permeation; 6.1 Adsorption; 6.2 Permeation; 6.3 Permeation-Adsorption and Diffusion.
- 6.4 Expanding Cell6.5 Summary; Chapter 7. Reacting Systems-Kinetics and Batch Reactors; 7.1 How Chemical Reactions Take Place; 7.2 No-Flow/Batch System; 7.3 Simple Irreversible Reactions-Zeroth to Nth Order; 7.4 Reversible Reactions-Chemical Equilibrium; 7.5 Complex Reactions; 7.6 Summary; Chapter 8. Semi-Continuous Flow Reactors; 8.1 Introduction to Flow Reactors; 8.2 Semicontinuous Systems; 8.3 Negligible Volume Change; 8.4 Large Volume Change; 8.5 Pseudo-Steady State; 8.6 Summary; Chapter 9. Continuous Stirred Tank and the Plug Flow Reactors; 9.1 Continuous Flow-Stirred Tank Reactor.
- 9.2 Steady-State CSTR with Higher-Order, Reversible Kinetics9.3 Time Dependence-The Transient Approach to Steady-State and Saturation Kinetics ; 9.4 The Design of an Optimal CSTR; 9.5 Plug Flow Reactor; 9.6 Solution of the Steady-State PFR; 9.7 Mixing Effects on Selectivities-Series and Series-Parallel with CSTR and RFR ; 9.8 PFR as a Series of CSTRs; 9.9 Residence Time Distribution ; 9.10 Time-Dependent PFR-Complete and Numerical Solutions; 9.11 Transient PFR; 9.12 Equations, Initial Conditions, and Boundary Conditions ; 9.13 Summary; Chapter I 0. Worked Problems.