| Description |
1 online resource (442 pages) |
| Contents |
Cover; Reviews; Half-title; Title page; Copyright information; Dedication; Contents; Preface; I. Basic Components of Chemical Nonequilibrium Models: Chapters 1-3; II. Mathematical Modeling of Selected Typical Modes of Combustion: Chapters 4-6; III. Simulation of Combustion and Nonequilibrium Flows in Propulsion and Power Generation Systems: Chapters 7-10; Acknowledgments; Nomenclature; Latin Letters; Greek Letters; Acronyms; Part I Basic Components of Chemical Nonequilibrium Models; 1 Approaches to Combustion Simulation: Patterns, Models, and Main Equations; 1.1 Standard Combustion Patterns |
|
Multiphase Combustion1.2 Basic Characteristics of Working Medium; 1.3 Models of Chemical Equilibrium and Detailed Chemical Kinetics; 1.3.1 Chemical Equilibrium Models.; Basic Equations; Method of Solving the Equations; Simulation of Condensed Phase; 1.3.2 Formal Chemical Kinetics; Basic Concepts and Laws; 1.4 Models of Instant Response, Global Kinetic Models, and Models of Nonequilibrium Chemical Kinetics; 1.4.1 Models of Instant Response without Dissociation; 1.4.2 Global Chemical Kinetics; 1.4.3 Nonequilibrium Chemical Kinetics |
|
1.5 Application of Reactor Approach to the Simulation of Combustion and Reactive Flows2 Governing Equations of Chemical Kinetics and Specific Features of Their Solution; 2.1 Governing Equations of Chemical Kinetics and Accompanying Processes in the Reactors; 2.2 Adaptation of Combustion Model to Heterogeneous Systems and Mass Exchange Reactions; 2.2.1 Adaptation of Combustion Model to Heterogeneous Systems; 2.2.2 Simulation of Mass Exchange Processes; 2.3 Numerical Methods for Solving Reactor Model Equations; 2.3.1 Description of Reactor Model Equations |
|
2.3.2 Application of Explicit Methods for Solution of Stiff Differential Equations2.3.3 Implicit Method for Solving Stiff Differential Equations; 2.4 Structure and Main Stages of the Algorithm for Solving Reactor Model Equations; 2.4.1 Structure of Files and Governing Matrices; 2.4.2 Representation of Enthalpy, Entropy, and Equilibrium Constants; 2.4.3 Determination of Jacobian Matrix Partial Derivatives; 2.4.4 Selection of Integration Step; 2.4.5 Scheme of Calculation Algorithm for Reactor Analysis; 2.5 Verification of Single Reactor Models |
|
3 Software Tools for the Support of Calculation of Combustion and Reacting Flows3.1 Review of Features of Software Tools; 3.1.1 Problems of Simulation and Relevance of Software Tools Development; 3.1.2 Databases of Thermodynamic Properties of Individual Substances; 3.1.3 Methods of Analysis and Calculation of Sensitivity Coefficients; 3.1.4 Application of Eigenvalues to Combustion Problems and Procedure of Their Calculation; Chemical Oscillation: Brusselator; Auto-Oscillations in a Flow Reactor with Two-Step Sequential Reaction; Brief Data on the Procedure of Eigenvalue Calculations |
| Summary |
Following elucidation of the basics of thermodynamics and detailed explanation of chemical kinetics of reactive mixtures, readers are introduced to unique and effective mathematical tools for the modeling, simulation and analysis of chemical non-equilibrium phenomena in combustion and flows. The reactor approach is presented considering thermochemical reactors as the focal points. Novel equations of chemical kinetics compiling chemical thermodynamic and transport processes make reactor models universal and easily applicable to the simulation of combustion and flow in a variety of propulsion and energy generation units. Readers will find balanced coverage of both fundamental material on chemical kinetics and thermodynamics, and detailed description of mathematical models and algorithms, along with examples of their application. Researchers, practitioners, lecturers, and graduate students will all find this work valuable |
| Notes |
Title from publisher's bibliographic system (viewed on 30 Aug 2019) |
| Bibliography |
Includes bibliographical references and index |
| Subject |
Mechanics.
|
|
Fluids.
|
|
Fluid dynamics.
|
|
Engineering.
|
|
Mathematics.
|
|
Mechanics
|
|
Hydrodynamics
|
|
Engineering
|
|
Mathematics
|
|
mechanics (physics)
|
|
engineering.
|
|
Mecánica de fluidos
|
|
Dinámica de fluidos
|
|
Engineering
|
|
Fluid dynamics
|
|
Fluids
|
|
Mathematics
|
|
Mechanics
|
| Form |
Electronic book
|
| Author |
Krioukov, V. G., author
|
|
Abdullin, A. L., author
|
|
Demin, A. V., author
|
| ISBN |
9781108581714 |
|
1108581714 |
|
