Introductory systems analysis for process engineers /

Introductory Systems Analysis for Process Engineers places an emphasis on dynamic models derived using unsteady-state material and energy balances. Examples include chemical reactions, heat and mass transfer, and residence time distributions in flow systems. This book is intended as an undergraduate...

Descripción completa

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Nauman, E. B.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Boston : Butterworth-Heinemann, �1990.
Colección:Butterworth-Heinemann series in chemical engineering.
Temas:
Chemical process control.
System analysis.
Systems Analysis
Proc�ed�es chimiques > Contr�ole.
Analyse de syst�emes.
systems analysis.
SCIENCE > Chemistry > Industrial & Technical.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Chemical process control
System analysis
Systems analysis
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Introductory Systems Analysis for Process Engineers; Copyright Page; Table of Contents; Preface; CHAPTER 1. SETS OF ORDINARY DIFFERENTIAL EQUATIONS; 1.1 The Canonical Problem; 1.2 A Numerical Solution Technique; 1.3 Dimensional Consistency; 1.4 Scaling; Problems; CHAPTER 2. SOME SYSTEM MODELS; 2.1 Total and Component Balances; 2.2 Steady State Operation; 2.3 Batch Reactors; 2.4 Transients in Continuous Flow Stirred Tanks; 2.5 Reactor Startups and Shutdowns; Problems; CHAPTER 3. SOLUTION TECHNIQUES; 3.1 Linearity; 3.2 Linear, First Order ODEs
  • 3.3 Homogeneous, Linear ODEs with Constant Coefficients3.4 Nonhomogeneous Linear ODEs with Constant Coefficients; 3.5 Reduction of a Set to a Single ODE; 3.6 Linearization; 3.7 Numerical Solutions; Problems; CHAPTER 4. LAPLACE TRANSFORMS; 4.1 The Transformation; 4.2 Transforms of Functions; 4.3 General Transform Properties; 4.4 Inversion; Problems; CHAPTER 5. LAPLACE TRANSFORM SOLUTIONS TO DIFFERENTIAL EQUATIONS; 5.1 First Order Systems; 5.2 Second Order Systems; 5.3 Third and Higher Order Systems; 5.4 Simultaneous, First Order ODEs; 5.5 Partial Differential Equations; Problems
  • CHAPTER 6. LINEAR ELECTICAL CIRCUITS6.1 Eirchoff 's Rules; 6.2 Alternating Currents; Problems; CHAPTER 7. HEAT AND MASS TRANSFER; 7.1 Convective Heat Transfer; 7.2 Convective Mass Transfer; 7.3 Steady State Conduction and Diffusion; Problems; CHAPTER 8. ELEMENTARY MECHANICAL SYSTEMS; 8.1 Newton's Second Law; 8.2 Conservation of Mechanical Energy; Problems; CHAPTER 9. TRANSFER FUNCTIONS AND NETWORKANALYSIS; 9.1 Transfer Functions; 9.2 Network Analysis for Electrical Systems; 9.3 Network Analysis for Flow Systems; Problems; CHAPTER 10. RESIDENCE TIME DISTRIBUTIONS
  • 10.1 Stimulus-Response Techniques10.2 Means and Moments; 10.3 Residence Times in Ideal Systems; 10.4 Residence Times in Complex Flow Systems; 10.5 Uses of Residence Time Distributions; Problems; CHAPTER 11. MATRIX DIFFERENTIAL EQUATIONS; 11.1 Matrix Formulation; 11.2 A General Solution; 11.3 Transfer Functions; 11.4 Characteristic Equations and Stability; Problems; CHAPTER 12. SIMULATION TECHNIQUES; 12.1 ODE Solvers; 12.2 Monte Carlo Techniques; Problems; INDEX

Ejemplares similares