Exact second-order spatio-temporal structure-function relationships in non-stationary incompressible turbulent flows with Reynolds decomposition and phase averaging

Yisheng Zhang; Clara Marika Velte

Exact second-order spatio-temporal structure-function relationships in non-stationary incompressible turbulent flows with Reynolds decomposition and phase averaging

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Abstract

The Karman-Howarth-Monin-Hill (KHMH) equation has been widely applied to scale-by-scale turbulent energy cascade studies in recent years, however, the forms and interpretations are not consistent. The present work generalizes to considering two different spatio-temporal points to reformulate the KHMH equation based on Reynolds decomposition and phase averaging. The unaveraged form and phase averaged form are detailed and interpreted. Then the assumptions of homogeneity and isotropy are included in the KHMH equation to obtain the special form for homogeneous flows and isotropic flows.

Original language	English
Journal	arXiv
Publication status	In preparation - 2025

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@article{33c76a83d0fd4b229c2b49d46af897d6,

title = "Exact second-order spatio-temporal structure-function relationships in non-stationary incompressible turbulent flows with Reynolds decomposition and phase averaging",

abstract = "The Karman-Howarth-Monin-Hill (KHMH) equation has been widely applied to scale-by-scale turbulent energy cascade studies in recent years, however, the forms and interpretations are not consistent. The present work generalizes to considering two different spatio-temporal points to reformulate the KHMH equation based on Reynolds decomposition and phase averaging. The unaveraged form and phase averaged form are detailed and interpreted. Then the assumptions of homogeneity and isotropy are included in the KHMH equation to obtain the special form for homogeneous flows and isotropic flows. ",

author = "Yisheng Zhang and Velte, \{Clara Marika\}",

year = "2025",

language = "English",

journal = "arXiv",

publisher = "Cornell University",

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TY - JOUR

T1 - Exact second-order spatio-temporal structure-function relationships in non-stationary incompressible turbulent flows with Reynolds decomposition and phase averaging

AU - Zhang, Yisheng

AU - Velte, Clara Marika

PY - 2025

Y1 - 2025

N2 - The Karman-Howarth-Monin-Hill (KHMH) equation has been widely applied to scale-by-scale turbulent energy cascade studies in recent years, however, the forms and interpretations are not consistent. The present work generalizes to considering two different spatio-temporal points to reformulate the KHMH equation based on Reynolds decomposition and phase averaging. The unaveraged form and phase averaged form are detailed and interpreted. Then the assumptions of homogeneity and isotropy are included in the KHMH equation to obtain the special form for homogeneous flows and isotropic flows.

AB - The Karman-Howarth-Monin-Hill (KHMH) equation has been widely applied to scale-by-scale turbulent energy cascade studies in recent years, however, the forms and interpretations are not consistent. The present work generalizes to considering two different spatio-temporal points to reformulate the KHMH equation based on Reynolds decomposition and phase averaging. The unaveraged form and phase averaged form are detailed and interpreted. Then the assumptions of homogeneity and isotropy are included in the KHMH equation to obtain the special form for homogeneous flows and isotropic flows.

M3 - Journal article

JO - arXiv

JF - arXiv

ER -

Exact second-order spatio-temporal structure-function relationships in non-stationary incompressible turbulent flows with Reynolds decomposition and phase averaging

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