4.4 Article

Stochastic receptivity analysis of boundary layer flow

Journal

PHYSICAL REVIEW FLUIDS
Volume 4, Issue 9, Pages -

Publisher

AMER PHYSICAL SOC
DOI: 10.1103/PhysRevFluids.4.093901

Keywords

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Funding

  1. Stanford University
  2. NASA Ames Research Center
  3. National Science Foundation [CMMI 1739243]
  4. Air Force Office of Scientific Research [FA9550-16-10009, FA9550-18-1-0422]

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We utilize the externally forced linearized Navier-Stokes equations to study the receptivity of pre-transitional boundary layers to persistent sources of stochastic excitation. Stochastic forcing is used to model the effect of free-stream turbulence that enters at various wall-normal locations and the fluctuation dynamics are studied via linearized models that arise from locally parallel and global perspectives. In contrast to the widely used resolvent analysis that quantifies the amplification of deterministic disturbances at a given temporal frequency, our approach examines the steady-state response to stochastic excitation that is uncorrelated in time. In addition to stochastic forcing with identity covariance, we utilize the spatial spectrum of homogeneous isotropic turbulence to model the effect of free-stream turbulence. Even though locally parallel analysis does not account for the effect of the spatially evolving base flow, we demonstrate that it captures the essential mechanisms and the prevailing length scales in stochastically forced boundary layer flows. On the other hand, global analysis, which accounts for the spatially evolving nature of the boundary layer flow, predicts the amplification of a cascade of streamwise scales throughout the streamwise domain. We show that the flow structures that are extracted from a modal decomposition of the resulting velocity covariance matrix can be closely captured by conducting locally parallel analysis at various streamwise locations and over different wall-parallel wave-number pairs. Our approach does not rely on costly stochastic simulations and it provides insight into mechanisms for perturbation growth, including the interaction of the slowly varying base flow with streaks and Tolimien-Schlichting waves.

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