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Efficiency and stability of the DSBGK method
Jun Li
King Abdullah University of Science and Technology
Research output
:
Chapter in Book/Report/Conference proceeding
›
Conference contribution
6
Scopus citations
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Dive into the research topics of 'Efficiency and stability of the DSBGK method'. Together they form a unique fingerprint.
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Keyphrases
Low Velocity
100%
Lid-driven Cavity Flow
100%
Small Modification
100%
Rarefied Gas Flow
100%
Stochastic Noise
100%
Number Density
100%
Density Distribution
100%
Density Constraints
100%
Reflection Model
100%
Open Boundary
100%
Computation Time
100%
Thermal Transpiration Flow
100%
Open Channel Flow
100%
Equilibrium State
100%
DSMC Method
100%
Engineering
Simulation Result
100%
Computational Time
100%
Number Density
100%
Open Boundary
100%
Equilibrium State
100%
Thermal Transpiration
100%
Rarefied Gas Flows
100%
Open Channel Flow
100%
Benchmark Problem
100%
Numerical Stability
100%
Density Distribution
100%
Cavity Flow
100%
Mathematics
Wide Range
100%
Open Problem
100%
Fixed Number
100%
Driven Cavity Flow
100%
Number
100%
Direct Simulation Monte Carlo
100%
Stochastics
100%
Numerical Stability
100%
Number Density
100%
Equilibrium State
100%
Channel Flow
100%
Earth and Planetary Sciences
Numerical Stability
100%
Open Channel Flow
100%
Cavity Flow
100%
Density Distribution
100%
Gas Flow
100%
Rarefied Gas
100%
Physics
Rarefied Gas Flows
100%
Open Channel Flow
100%
Density Distribution
100%
Cavity Flow
100%
Material Science
Density
100%
Rarefied Gas Flows
33%
Open Channel Flow
33%