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Chemical Reactor Modeling: Multiphase Reactive Flows
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Vorliegende Sprache
eng
ISBN
978-3-319-05091-1
Name
Jakobsen, Hugo A.
T I T E L
Chemical Reactor Modeling
Zusatz zum Titel
Multiphase Reactive Flows
Auflage
2nd ed. 2014
Verlagsort
Cham
Verlag
Springer International Publishing
Erscheinungsjahr
2014
2014
Umfang
Online-Ressource (LXIX, 1535 p. 175 illus., 34 illus. in color, online resource)
Reihe
SpringerLink. Bücher
Notiz / Fußnoten
Description based upon print version of record
Weiterer Inhalt
Preface; Contents; Nomenclature; Part ISingle Phase Fundamentals; 1 Single Phase Flow; 1.1 Basic Principles of Fluid Mechanics; 1.2 Equations of Change for Multi-Component Mixtures; 1.2.1 Conservation of Mass; 1.2.2 Transport of Species Mass; 1.2.3 Conservation of Momentum; 1.2.4 Conservation of Total Energy; 1.2.5 Some Useful Simplifications of the Governing Equations; 1.2.6 Gross Scale Average Forms of the Governing Equations; 1.2.7 Dispersion Models; 1.3 Application of the Governing Equations to Turbulent Flow; 1.3.1 Origin and Characteristics of Turbulence. 1.3.2 Statistical Turbulence Theory1.3.3 Reynolds Equations and Statistics; 1.3.4 Semi-Empirical Flow Analysis; 1.3.5 Reynolds Averaged Models; 1.3.6 Large Eddy Simulation; References; 2 Elementary Kinetic Theory of Gases; 2.1 Introduction; 2.2 Elementary Concepts in Classical Mechanics; 2.2.1 Newtonian Mechanics; 2.2.2 Lagrangian Mechanics; 2.2.3 Hamiltonian Mechanics; 2.3 Basic Concepts of Kinetic Theory; 2.3.1 Potential Energy of Molecular Interactions; 2.3.2 Phase Space, Distribution Function, Means and Moments; 2.4 The Boltzmann Equation. 2.4.1 The Boltzmann Equation in the Limit of No Collisions2.4.2 The Boltzmann Equation Collision Term Approximation; 2.5 Flux Vectors; 2.5.1 Transport of Mass; 2.5.2 Transport of Momentum; 2.5.3 Transport of Kinetic Energy; 2.6 The Equation of Change in Terms of Mean Molecular Properties; 2.6.1 The Governing Equations of Gas Dynamics; 2.7 The Boltzmann H-Theorem; 2.7.1 The H-Theorem Formulation; 2.7.2 The Maxwellian Velocity Distribution; 2.7.3 The H-Theorem and Entropy; 2.8 Solving the Boltzmann Equation; 2.8.1 Equilibrium Flow: The Euler Equations. 2.8.2 Gradient Perturbations: Navier Stokes Equations2.9 Multicomponent Mixtures; 2.9.1 The Boltzmann Equations for a Mixture of Chemical Species; 2.9.2 The Diffusive Flux Vectors for a Mixture of Chemical Species; 2.9.3 The Enskog's Equation for a Mixture of Chemical Species; 2.9.4 The Equation of Change for a Mixture of Chemical Species; 2.9.5 Mass Diffusion Fluxes for Mixtures of Chemical Species; 2.9.6 Polyatomic Reactive Systems; 2.10 Mean Free Path Concept; 2.10.1 Transport Properties; 2.10.2 Mean Free Path; 2.10.3 Transport Coefficients; 2.10.4 Dilute Gas Hypothesis. 2.10.5 Continuum Hypothesis2.11 Ideal Gas Law; 2.11.1 Non-Ideal Gases; 2.12 Extending the Kinetic Theory to Denser Gases; 2.12.1 Boltzmann Equation Collision Frequency Reformulation; 2.12.2 Enskog's Equation; 2.12.3 Flux Vectors; 2.12.4 Enskog's Macroscopic Equations of Change; 2.13 Governing Equations for Polydispersed Multiphase Systems; 2.14 Multifluid Models with Granular Flow Closures; References; Part IIMultiphase Fundamentals; 3 Multiphase Flow; 3.1 Introduction; 3.2 Chemical Reactor Flow Structure Characteristics; 3.3 Modeling Concepts for Multiphase Flow; 3.3.1 Averaged Models. 3.3.2 High Resolution Methods
Titelhinweis
Druckausg.ISBN: 978-331-90509-1-1
ISBN
ISBN 978-3-319-05092-8
Klassifikation
TGMF
TGMF1
TEC009070
SCI085000
620.1064
660.2832
TA357-359
Kurzbeschreibung
Chemical Reactor Modeling closes the gap between Chemical Reaction Engineering and Fluid Mechanics. The second edition consists of two volumes: Volume 1: Fundamentals., Volume 2: Chemical Engineering Applications. In volume 1 most of the fundamental theory is presented. A few numerical model simulation application examples are given to elucidate the link between theory and applications. In volume 2 the chemical reactor equipment to be modeled are described. Several engineering models are introduced and discussed.A survey of the frequently used numerical methods, algorithms and schemes is provided. A few practical engineering applications of the modeling tools are presented and discussed. The working principles of several experimental techniques employed in order to get data for model validation are outlined.The monograph is based on lectures regularly taught in the fourth and fifth years graduate courses in transport phenomena and chemical reactor modeling and in a post graduate course in modern reactor modeling at the Norwegian University of Science and Technology, Department of Chemical Engineering, Trondheim, Norway. The objective of the book is to present the fundamentals of the single-fluid and multi-fluid models for the analysis of single and multiphase reactive flows in chemical reactors with a chemical reactor engineering rather than mathematical bias. Organized into 13 chapters, it combines theoretical aspects and practical applications and covers some of the recent research in several areas of chemical reactor engineering. This book contains a survey of the modern literature in the field of chemical reactor modeling.
1. Schlagwortkette
Chemischer Reaktor
Einphasenströmung
Reagierende Strömung
Mathematisches Modell
ANZEIGE DER KETTE
Chemischer Reaktor -- Einphasenströmung -- Reagierende Strömung -- Mathematisches Modell
2. Schlagwortkette
Chemischer Reaktor
Mehrphasenströmung
Reagierende Strömung
Mathematisches Modell
ANZEIGE DER KETTE
Chemischer Reaktor -- Mehrphasenströmung -- Reagierende Strömung -- Mathematisches Modell
SWB-Titel-Idn
405478860
Signatur
Springer E-Book
Bemerkungen
Elektronischer Volltext - Campuslizenz
Elektronische Adresse
$uhttp://dx.doi.org/10.1007/978-3-319-05092-8
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