Journal article
A self-sustaining process model of inertial layer dynamics in high Reynolds number turbulent wall flows
GP Chini, B Montemuro, CM White, J Klewicki
Philosophical Transactions of the Royal Society A Mathematical Physical and Engineering Sciences | ROYAL SOC | Published : 2017
Abstract
Field observations and laboratory experiments suggest that at high Reynolds numbers Re the outer region of turbulent boundary layers self-organizes into quasi-uniform momentum zones (UMZs) separated by internal shear layers termed 'vortical fissures' (VFs). Motivated by this emergent structure, a conceptual model is proposed with dynamical components that collectively have the potential to generate a self-sustaining interaction between a single VF and adjacent UMZs. A large-Re asymptotic analysis of the governing incompressible Navier-Stokes equation is performed to derive reduced equation sets for the streamwise-averaged and streamwise-fluctuating flow within the VF and UMZs. The simplified..
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Awarded by National Science Foundation
Funding Acknowledgements
This material is based upon work supported by the National Science Foundation under grant no. CBET-1545564. J.K. also acknowledges the support of the Australian Research Council under grant no. DP150102593.