Stability analysis for flow past a cylinder via lattice Boltzmann method and dynamic mode decomposition

A combination of the lattice Boltzmann method and the most recently developed dynamic mode decomposition is proposed for stability analysis.The simulations are performed on a graphical processing unit.Stability of the flow past a cylinder at supercritical state,Re = 50,is studied by the combination for both the exponential growing and the limit cycle regimes.The Ritz values,energy spectrum,and modes for both regimes are presented and compared with the Koopman eigenvalues.For harmonic-like periodic flow in the limit cycle,global analysis from the combination gives the same results as those from the Koopman analysis.For transient flow as in the exponential growth regime,the combination can provide more reasonable results.It is demonstrated that the combination of the lattice Boltzmann method and the dynamic mode decomposition is powerful and can be used for stability analysis for more complex flows.