Thermal protection modeling of hypersonic flying apparatus /
[Book]
A.S. Yakimov.
Cham, Switzerland :
Springer,
2018.
1 online resource
Innovation and discovery in Russian science and engineering,
2520-8047
Includes bibliographical references and index.
Intro; Preface; Contents; About the Author; Introduction; 1 Passive Thermal Protection; 1.1 Thermochemical Destruction of Carbon Phenolic Composites in the High-Enthalpy Pulsing Gas Flow; 1.2 Mathematical Modeling of Heat and Mass Transfer in Thermal Protective Coatings with Gas Flow Pulsation; 1.3 Mathematical Modeling of Surface Roughness and Ablation Effects on Thermal Protection; 1.4 Thermal Protection of Multilayer Structure Under Fire Exposure; 2 Active Thermal Protection; 2.1 Mathematical Modeling of Heat and Mass Exchange Process in Heat Shielding Material.
2.2 Modeling of Heat and Mass Exchange Process in Transpiration Cooling System with Gas Flow Pulsation2.3 Modeling of Heat and Mass Transfer Process of Transpiration Cooling Systems Under Exposure to Small Energy Perturbations; 2.4 Modeling of Heat and Mass Transfer of Process of Systems Porous Cooling with Phase Transitions; 2.5 Modeling of Two-Phase Porous Cooling Process at Exposure Low-Energy Perturbations; 3 Combined Thermal Protection; 3.1 Mathematical Modeling of Rotation on Conjugate Heat and Mass Transfer in High-Enthalpy Flow Around a Spherically Blunted Cone at an Angle of Attack.
3.2 Numerical Analysis of Heat and Mass Transfer Characteristics in Radiative and Convective Heating of a Spherically Blunted Cone3.3 Conclusion; Conclusion; Bibliography; Index.
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"This book is devoted to studies of unsteady heat and mass exchange processes taking into account thermochemical destruction of thermal protective materials, research of transpiration cooling systems, thermal protection of composite materials exposed to low-energy disturbances, as well as the numerical solution of heat and mass transfer of the exchange. It proposes several mathematical models of passive and active thermal protection systems with regard to factors such as surface ablation, surface roughness, phase transition of a liquid in porous materials, rotation of the body around its longitudinal axis, and exposure to low-energy disturbances. The author studies the possibilities to control thermochemical destruction and heat mass exchange processes in transpiration cooling systems exposed to low-energy disturbances. The numerical analysis of the heat and mass exchange process in carbon plastics under repeated impulse action is also presented. The numerical solutions of problems are compared with the known experimental data. The book is intended for specialists in the field of thermal protection and heat mass exchange, as well as graduate and undergraduates in physics and mathematics."--
Springer Nature
com.springer.onix.9783319782171
Thermal protection modeling of hypersonic flying apparatus.