Prediction and Validation Technologies of Aerodynamic Force and Heat for Hypersonic Vehicle Design, 1st ed. 2021 Springer Aerospace Technology Series
This book provides an overview of advanced prediction and verification technologies for aerodynamics and aerothermodynamics and assesses a number of critical issues in advanced hypersonic vehicle design. Focusing on state-of-the-art theories and promising technologies for engineering applications, it also presents a range of representative practical test cases. Given its scope, the book offers a valuable asset for researchers who are interested in thermodynamics, aircraft design, wind tunnel testing, fluid dynamics and aerothermodynamics research methods, introducing them to inspiring new research topics.
Dr. Min Zhao works at the China Academy of Launch Vehicle Technology (CALT). He began his career at the CALT as an engineer for overall rocket design. He has since successively worked as a research engineer, a senior engineer, a research fellow, a department leader and a chief engineer at the CALT. He also completed his Ph.D. in 2005.
He has been engaged in the overall design of aerospace craft for the past 30 years, gathering unique insights into aircraft performance. He has been selected for the National Prize for Progress in Science and Technology (Top Grade) twice, and the Aerospace Merit Award once. Thanks to the support of Tsinghua University, the China Academy of Aerospace Aerodynamic, Institute of Mechanics (CAS) and the CALT, he has conducted extensive research on engineering application technologies.
Date de parution : 03-2021
Ouvrage de 247 p.
15.5x23.5 cm
Date de parution : 03-2022
Ouvrage de 247 p.
15.5x23.5 cm
Thèmes de Prediction and Validation Technologies of Aerodynamic... :
Mots-clés :
Wind Tunnel Test Technology; Hypersonic Vehicle design; Prediction and Validation Technologies; Aerodynamic Force and Heat; Hypersonic Aero-thermodynamic Technologies; Hypersonic Flow; Aerodynamic Heat for Hypersonic Flow; Ground-Flying Calibration Technologies; Blunt Body and Drag Reduction Control; Prediction Method; Flow Transition Prediction; Turbulence and Transition Model; Transition Criteria