Fundamentals of Combustion Engineering (Hardcover, 1)

· 제목 : Fundamentals of Combustion Engineering (Hardcover, 1) 
· 분류 : 외국도서 > 과학/수학/생태 > 과학 > 에너지
· ISBN : 9781482233308
· 쪽수 : 335쪽
· 출판일 : 2019-03-08

Chapter 1: Introduction

1.1 Introduction to Combustion

1.2 Applications of Combustion

1.3 Approaches to Combustion Study

1.4 Types of Combustion

References

Chapter 2: Thermodynamics of Reacting Systems

2.1 Review of Thermodynamics

2.2 Fuels

2.3 Stoichiometry

2.4 First Law for Reacting Systems

2.5 Chemical Equilibrium

2.6 Applications/ Case Studies

Exercise

References

Chapter 3: Chemical Kinetics

3.1 Introduction

3.2 Global and Elementary Reactions

3.3 Bimolecular Reactions

3.4 Collision Theory of Reaction Rates

3.5 Unimolecular Reactions

3.6 Termolecular Reaction

3.7 Chain Reactions

3.8 Chemical Time Scales

3.9 Relation between kinetic rate coefficients and equilibrium constants

3.10 Multistep Mechanism

3.11 Steady State Approximation

3.12 Partial Equilibrium Approximation

Exercise

References

　

Chapter 4: Simple Reactor Models

4.1 Constant Pressure Reactors

4.2 Constant Volume Reactor

4.3 Well-Stirred Reactor

4.4 Plug Flow Reactor

Exercise

References

　

Chapter-5: Conservation Equations

5.1 Reynolds Transport Theorem

5.2 Conservation of Mass

5.3 Conservation of Species

5.4 Conservation of Momentum

5.5 Conservation of Energy

5.6 Entropy Balance Equation

References

Chapter 6: Laminar Premixed Flames

6.1 Physical Description

6.2 Rankine-Hugoniot Relations

6.3 Flame Propagation and Flame Speed

6.4 Determination of Flame Speed

6.5 Simplified Analysis

6.6 Factors Affecting Flame Speed

6.7 Flame Quenching and Ignition

6.8 Flame Propagation in Microscale Combustors

6.9 Flame Stability, Lift-off, Blowout and Flashback

6.10 Flame Stretch

Exercise

References

Chapter-7: Laminar Non-premixed Flames

7.1 Physical Description

7.2 Simplified Analysis of Diffusion Controlled Systems

7.3 Conserved Scalar Formulation

7.4 Shvab- Zeldovich Formulation

7.5 Analysis of Typical Flame Configurations

7.6 Partially Premixed Flame

7.7 Soot Generation

7.8 Effect of Exit Velocity on Jet Flames

Exercise

References

Chapter 8: Droplet and Spray Combustion

8.1 Spray Formation

8.2 Evaporation of Single Droplet

8.3 Combustion of Single Droplet

8.4 Multicomponent, High Pressure Convective Effects

8.5 Physical Description of Spray Combustion

8.6 Simplified Analysis of Spray Combustion

Exercise

References

Chapter 9: Modelling of Turbulent Combustion

9.1 Turbulent Flows

9.2 Modelling approaches for turbulence

9.3 Need for Combustion modelling

9.4 Turbulent Premixed Combustion

9.5 Turbulent Non-premixed Combustion

9.6 Turbulent Partially-premixed Combustion

Exercise

References

　

Chapter-10: Combustion of Solid Fuels and Surface Reactions

10.1 Heterogeneous Combustion

10.2 Burning of Coal

10.3 Combustion of Coal

10.4 Combustion of Solid Propellants

10.5 Catalytic Reaction

Exercise

References

Chapter 11: Combustion Emission

11.1 Introduction

11.2 Emission of Pollutant Gases

11.3 Emission of Greenhouse Gases

11.4 Emission of Particulate Matter

11.5 Abatement of Emission

11.6 Emission Quantification

Exercise

References

Chapter 12: Combustion Diagnostics

12.1 Overview

12.2 Flow Field Measurement

12.3 Temperature Measurement

12.4 Species and Concentration Measurement

12.5 Pressure Measurement

12.6 Soot Measurement

12.7 Droplet and Spray Measurement

References

Appendix