Terascale High-Fidelity Simulations of Turbulent Combustion with Detailed Chemistry | |
Im, Hong G1  Trouve, Arnaud2  Rutland, Christopher J3  Chen, Jacqueline H4  | |
[1] University of Michigan;University of Maryland;University of Wisconsin;Sandia National Laboratories | |
关键词: combustion; high-performance computing; turbulence; pollutant formation; radiative heat transfer; | |
DOI : 10.2172/1048137 RP-ID : DOE/ER/15227-1 Final Report PID : OSTI ID: 1048137 Others : Other: FG02-01ER15229 / FG02-01ER15234 |
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美国|英语 | |
来源: SciTech Connect | |
【 摘 要 】
The TSTC project is a multi-university collaborative effort to develop a high-fidelity turbulent reacting flow simulation capability utilizing terascale, massively parallel computer technology. The main paradigm of our approach is direct numerical simulation (DNS) featuring highest temporal and spatial accuracy, allowing quantitative observations of the fine-scale physics found in turbulent reacting flows as well as providing a useful tool for development of sub-models needed in device-level simulations. The code named S3D, developed and shared with Chen and coworkers at Sandia National Laboratories, has been enhanced with new numerical algorithms and physical models to provide predictive capabilities for spray dynamics, combustion, and pollutant formation processes in turbulent combustion. Major accomplishments include improved characteristic boundary conditions, fundamental studies of auto-ignition in turbulent stratified reactant mixtures, flame-wall interaction, and turbulent flame extinction by water spray. The overarching scientific issue in our recent investigations is to characterize criticality phenomena (ignition/extinction) in turbulent combustion, thereby developing unified criteria to identify ignition and extinction conditions. The computational development under TSTC has enabled the recent large-scale 3D turbulent combustion simulations conducted at Sandia National Laboratories.
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