Numerical simulation of instability and transition physicsThe study deals with the algorithm technology used in instability and transition simulations. Discretization methods are outlined, and attention is focused on high-order finite-difference methods and high-order centered-difference formulas. One advantage of finite-difference methods over spectral methods is thought to be in implementation of nonrigorous boundary conditions. It is suggested that the next significant advances in the understanding of transition physics and the ability to predict transition will come with more physically-realistic simulations. Compressible-flow algorithms are discussed, and it is noted that with further development, exploration of bypass mechanism on simple bodies at high speed would be possible.
Document ID
19910046697
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Streett, C. L. (NASA Langley Research Center Hampton, VA, United States)