Paper Info
Title
A high-order low-Mach number AMR construction for chemically reacting flows
Abstract
A high-order projection scheme was developed for the study of chemically reacting flows in the low-Mach number limit. The numerical approach for the momentum transport uses a combination of cell-centered/cell-averaged discretizations to achieve a fourth order formulation for the pressure projection algorithm. This scheme is coupled with a second order in time operator-split stiff approach for the species and energy equations. The code employs a fourth order, block-structured, adaptive mesh refinement approach to address the challenges posed by the large spectrum of spatial scales encountered in reacting flow computations. Results for advection-diffusion-reaction configurations are used to illustrate the performance of the numerical construction.
Year
DOI
Venue
2010
10.1016/j.jcp.2010.09.002
J. Comput. Physics
Keywords
Field
DocType
adaptive mesh refinement,order formulation,numerical approach,time operator-split stiff approach,amr construction,energy equation,high-order projection scheme,cell-averaged discretizations,high-order low-mach number,pressure projection algorithm,pressure projection,numerical construction,high-order stencils,operator-split,low-mach number,refinement approach,advection-diffusion-reaction configuration,spectrum,second order,spatial scale
Discretization,Mathematical optimization,Dykstra's projection algorithm,Mathematical analysis,Momentum transfer,Adaptive mesh refinement,Operator (computer programming),Momentum,Mach number,Mathematics,Computation
Journal
Volume
Issue
ISSN
229
24
Journal of Computational Physics
Citations 
PageRank 
References 
4
0.47
5
Authors
3
Name
Order
Citations
PageRank
Cosmin Safta1338.56
Jaideep Ray219824.42
Habib N. Najm325727.90