Large eddy simulation using high-resolution and high-order methods
Loading...
Date published
Free to read from
Authors
Drikakis, Dimitris
Hahn, Marco
Mosedale, Andrew
Thornber, Ben
Supervisor/s
Journal Title
Journal ISSN
Volume Title
Publisher
Department
Course name
Type
ISSN
1364-503X
Format
Citation
D. Drikakis, M. Hahn, A. Mosedale, B. Thornber. Large eddy simulation using high-resolution and high-order methods. Philosophical Transactions of the Royal Society A-Mathematical Physical and Engineering Sciences, Vol. 367, Issue 1899, pp2985-2997.
Abstract
Restrictions on computing power make direct numerical simulation too expensive for complex flows; thus, the development of accurate large eddy simulation (LES) methods, which are industrially applicable and efficient, is required. This paper reviews recent findings about the leading order dissipation rate associated with high-resolution methods and improvements to the standard schemes for use in highly turbulent flows. Results from implicit LES are presented for a broad range of flows and numerical schemes, ranging from the second-order monotone upstream-centered schemes for conservation laws to very high-order (up to ninth-order) weighted essentially non-oscillatory schemes.
Description
Software Description
Software Language
Github
Keywords
large eddy simulation turbulence high-resolution methods high-order methods
high-reynolds-number richtmyer-meshkov instability shock-capturing schemes
implicit les deep cavity compressible flows turbulent-flow perturbation
computations models