Preface

1. An Introduction to Hypersonic Heat-transfer Problems.

2. The Boundary-layer Equations.

3. Surface-material-Boundary-layer Interactions

4, The Dissociated Laminar Boundary Layer

5. Mass Transfer and Chemical Reactions in the Laminar Boundary Layer.

6. Leading-edge Bluntness, Shock-wave Interaction, and Vorticity Effects

7. The Dissociated Turbulent Boundary Layer

8. Mass Transfer and Chemical Reactions in the Turbulent Boundary Layer

9. Thermodynamic Properties of Dilute Gas Mixtures

10. Transport Coefficients of Dilute Gas Mixtures

Appendix: Symbols and Nomenclature

Name Index

Subject Index

This frequently cited text addresses theories for treating the laminar and turbulent boundary layers of reacting gas mixtures. The theories are developed from fundamentals, and all related chemical, thermodynamic, and physical concepts are described in a fashion that provides a self-contained treatment. In addition, the book presents useful equations for calculating heat transfer between reacting gas boundary layers and reacting, melting, sublimating, and otherwise decomposing surfaces.
Designed for advanced undergraduate and graduate engineering courses in modern boundary-layer theory, this volume also serves as a valuable reference for professionals. Along with its thorough coverage of the theories for treating reacting laminar and turbulent boundary layers, the text also describes the underlying theories and methods of calculating transport and thermodynamic properties for dilute gas mixtures. Certain useful concepts from thermochemistry are also examined in detail. All theories are developed from the fundamentals, with a focus on the basic physics of interactions between like and unlike particles and the roles these interactions play in determining the transport properties of reacting gas mixtures.
Dover (2017) republication of the McGraw-Hill, New York, 1962 edition.
www.doverpublications.com

William H. Dorrance was Senior Staff Scientist at the Convair Scientific Research Laboratory and Head of the Gas Dynamics Department of the Aerospace Corporation.