Nonlinear subgrid-scale models for large-eddy simulation of rotating turbulent flows

M. H. Silvis; R. Verstappen

doi:10.1007/978-3-030-04915-7_18

Nonlinear subgrid-scale models for large-eddy simulation of rotating turbulent flows

M. H. Silvis^*, R. Verstappen

^*Corresponding author voor dit werk

Technische Mechanica en Numerieke Wiskunde

Onderzoeksoutput › Academic › peer review

2 Citaten (Scopus)

246 Downloads (Pure)

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We aim to design subgrid-scale models for large-eddy simulation of rotating turbulent flows. Rotating turbulent flows form a challenging test case for eddy viscosity models due to the presence of the conservative Coriolis force. We therefore propose a new subgrid-scale model that, in addition to a dissipative eddy viscosity term, contains a nondissipative nonlinear model term that can capture transport processes, such as those due to rotation. We show that the addition of this nonlinear model term leads to improved predictions of the Reynolds stress anisotropy in large-eddy simulations of a spanwise-rotating plane-channel flow, while maintaining the prediction of the mean velocity profile that is obtained when only using an eddy viscosity model.

Originele taal-2	English
Titel	Direct and Large-Eddy Simulation XI
Redacteuren	Maria Vittoria Salvetti, Vincenzo Armenio
Uitgeverij	Springer
Pagina's	129-134
Aantal pagina's	6
ISBN van elektronische versie	978-3-030-04915-7
ISBN van geprinte versie	978-3-030-04914-0
DOI's	https://doi.org/10.1007/978-3-030-04915-7_18
Status	Published - 2019
Evenement	Direct and Large-Eddy Simulation 11, 2017 - Pisa, Italy Duur: 29-mei-2017 → 31-mei-2017

Publicatie series

Naam	ERCOFTAC Series
Uitgeverij	Springer
Volume	25

Conference

Conference	Direct and Large-Eddy Simulation 11, 2017
Land/Regio	Italy
Stad	Pisa
Periode	29/05/2017 → 31/05/2017

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10.1007/978-3-030-04915-7_18

Nonlinear Subgrid-Scale Models for Large-Eddy Simulation of Rotating Turbulent FlowsFinal publisher's version, 209 KBLicentie: Taverne

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title = "Nonlinear subgrid-scale models for large-eddy simulation of rotating turbulent flows",

abstract = "We aim to design subgrid-scale models for large-eddy simulation of rotating turbulent flows. Rotating turbulent flows form a challenging test case for eddy viscosity models due to the presence of the conservative Coriolis force. We therefore propose a new subgrid-scale model that, in addition to a dissipative eddy viscosity term, contains a nondissipative nonlinear model term that can capture transport processes, such as those due to rotation. We show that the addition of this nonlinear model term leads to improved predictions of the Reynolds stress anisotropy in large-eddy simulations of a spanwise-rotating plane-channel flow, while maintaining the prediction of the mean velocity profile that is obtained when only using an eddy viscosity model.",

author = "Silvis, {M. H.} and R. Verstappen",

year = "2019",

doi = "10.1007/978-3-030-04915-7_18",

language = "English",

isbn = "978-3-030-04914-0",

series = "ERCOFTAC Series",

publisher = "Springer",

pages = "129--134",

editor = "Salvetti, {Maria Vittoria } and Armenio, {Vincenzo }",

booktitle = "Direct and Large-Eddy Simulation XI",

note = "Direct and Large-Eddy Simulation 11, 2017 ; Conference date: 29-05-2017 Through 31-05-2017",

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TY - GEN

T1 - Nonlinear subgrid-scale models for large-eddy simulation of rotating turbulent flows

AU - Silvis, M. H.

AU - Verstappen, R.

PY - 2019

Y1 - 2019

N2 - We aim to design subgrid-scale models for large-eddy simulation of rotating turbulent flows. Rotating turbulent flows form a challenging test case for eddy viscosity models due to the presence of the conservative Coriolis force. We therefore propose a new subgrid-scale model that, in addition to a dissipative eddy viscosity term, contains a nondissipative nonlinear model term that can capture transport processes, such as those due to rotation. We show that the addition of this nonlinear model term leads to improved predictions of the Reynolds stress anisotropy in large-eddy simulations of a spanwise-rotating plane-channel flow, while maintaining the prediction of the mean velocity profile that is obtained when only using an eddy viscosity model.

AB - We aim to design subgrid-scale models for large-eddy simulation of rotating turbulent flows. Rotating turbulent flows form a challenging test case for eddy viscosity models due to the presence of the conservative Coriolis force. We therefore propose a new subgrid-scale model that, in addition to a dissipative eddy viscosity term, contains a nondissipative nonlinear model term that can capture transport processes, such as those due to rotation. We show that the addition of this nonlinear model term leads to improved predictions of the Reynolds stress anisotropy in large-eddy simulations of a spanwise-rotating plane-channel flow, while maintaining the prediction of the mean velocity profile that is obtained when only using an eddy viscosity model.

U2 - 10.1007/978-3-030-04915-7_18

DO - 10.1007/978-3-030-04915-7_18

M3 - Conference contribution

SN - 978-3-030-04914-0

T3 - ERCOFTAC Series

SP - 129

EP - 134

BT - Direct and Large-Eddy Simulation XI

A2 - Salvetti, Maria Vittoria

A2 - Armenio, Vincenzo

PB - Springer

T2 - Direct and Large-Eddy Simulation 11, 2017

Y2 - 29 May 2017 through 31 May 2017

ER -

Nonlinear subgrid-scale models for large-eddy simulation of rotating turbulent flows

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