Reprint
High Speed Flows
Edited by
April 2024
238 pages
- ISBN978-3-7258-0685-0 (Hardback)
- ISBN978-3-7258-0686-7 (PDF)
This is a Reprint of the Special Issue High Speed Flows that was published in
Engineering
Physical Sciences
Summary
The reprint contains articles from the Special Issue of the Journal Fluids, entitled ”High Speed Flows”, and is focused on the recent advances in the numerical and experimental modeling of the dynamics and structures of high-speed flows. This reprint may be of interest to aerospace engineers, general engineers, experimental and computational researchers, as well as undergraduate and graduate students.
Format
- Hardback
License and Copyright
© 2024 by the authors; CC BY-NC-ND license
Keywords
fluctuating pressure; expansion corner; supersonic flow; characteristics; spiral vortex; shock diffraction; unsteady flow; gas dynamics; shock waves; shock reflection; supersonic flow; bow shock wave; plasmoid; blast shock wave; shock-wave structure; drag force reduction; heterogenous supersonic flow; gasdynamical particle—shock wave interaction; numerical simulation; synthetic jet; Schlieren; smoke; proper orthogonal decomposition; heat transfer; fluids; cooling; thrust vectoring; shock-vector control method; active flow control; supersonic nozzle; large eddy simulation (LES); turbulent boundary layer; hypersonic flow; railway ballast; free surface; Darcy’s law; finite element method; iterative algorithm; blowdown wind tunnel; Ohmic heating; supersonic thermocouple probe; laser spark velocimetry (LSV); RANS simulation; supersonic flow; bow shock wave; time-limited stratified energy source; multiple Richtmyer-Meshkov instabilities; shock-wave structure; drag force reduction; lift force generation; box-wing; tailless; flow visualization; directional stability; yaw moment; tufts; numerical simulation; Navier–Stokes equations; flux limiter; shock waves; gradient; unstructured mesh; n/a