Large-Eddy Simulation of the Flow Over a Circular Cylinder at Reynolds Number 2 × 104 - 图文

FlowTurbulenceCombust(2014)92:673–698697

22.Kravchenko,A.,Moin,P.:NumericalstudiesofflowoveracircularcylinderatRe=3900.Phys.Fluids12(2),403–417(2000)

23.Lim,H.-C.,Lee,S.-J.:Flowcontrolofcircularcylinderswithlongitudinalgroovedsurfaces.AIAAJ.40(10),2027–2036(2002)

24.Lysenko,D.A.,Ertesv?g,I.S.,Rian,K.E.:Large-eddysimulationoftheflowoveracircularcylinderatReynoldsnumber3900usingtheOpenFOAMtoolbox.FlowTurbul.Combust.89,491–518(2012)

25.Lysenko,D.A.,Ertesv?g,I.S.,Rian,K.E.:ModelingofturbulentseparatedflowsusingOpen-FOAM.Comput.Fluids80,408–422(2013)

26.Ma,X.,Karamanos,G.-S.,Karniadakis,G.E.:Dynamicsandlow-dimensionalityofaturbulentnearwake.J.FluidMech.410,29–65(2000)

27.Mansy,H.,Yang,P.-M.,Williams,D.R.:Quantitativemeasurementsofthree-dimensionalstruc-turesinthewakeofacircularcylinder.J.FluidMech.270,227–296(1994)

28.Mihailovic,J.,Corke,T.C.:Three-dimensionalinstabilityoftheshearlayeroveracircularcylinder.Phys.Fluids9(11),3250–3257(1987)

29.Moeller,M.J.,Leehey,P.:UnsteadyforcesonacylinderincrossflowatsubcriticalReynoldsnumbers.In:Pai?doussis,M.P.,Griffin,O.M.,Sevik,M.(eds.)ASMESymposiumonFlow-InducedVibrations,vol.1,pp.57–71.ASME,NewYork(1984)

30.Norberg,C.:EffectsofReynoldsnumberandalowintensityfreestreamturbulenceontheflowaroundacircularcylinder.PublicationNo.87/2,ChalmersUniversityofTechnology,Sweden(1987)

31.Norberg,C.:Experimentalinvestigationoftheflowaroundacircularcylinder:influenceofaspectratio.J.FluidMech.258,287–316(1994)

32.Norberg,C.:Fluctuatingliftonacircularcylinder:reviewandnewmeasurements.J.FluidsStruct.17,57–96(2003)

33.Ong,L.,Wallace,J.:Thevelocityfieldoftheturbulentverynearwakeofacircularcylinder.Exp.Fluids.20,441–453(1996)

34.Parnaudeau,P.,Carlier,J.,Heitz,D.,Lamballais,E.:ExperimentalandnumericalstudiesoftheflowoveracircularcylinderatReynoldsnumber3900.Phys.Fluids20(8),085101(2008)

35.PrasadA.,Williamson,C.H.K.:Theinstabilityoftheshearlayerseparatingfromabluffbody.J.FluidMech.333,375–402(1997)

36.Rai,M.M.:Acomputationalinvestigationoftheinstabilityofthedetachedshearlayersinthewakeofacircularcylinder.J.FluidMech.659,375–404(2010)

37.Rajagopalan,S.,AntoniaR.A.:Flowaroundacircularcylinder—structureofthenearwakeshearlayer.Exp.Fluids38,393–402(2005)

38.Salvatici,E.,Salvetti,M.V.:Large-eddysimulationsoftheflowaroundacircularcylinder:effectsofgridresolutionandsubgridscalemodeling.WindStruct.6(6),419–436(2003)

39.Schewe,G.:OntheforcefluctuationsactingonacircularcylinderincrossflowfromsubcriticaluptotranscriticalReynoldsnumbers.J.FluidMech.133,265–285(1983)

40.Schlichting,H.:BoundaryLayerTheory,4thedn.McGraw-Hill,NewYork(1960)

41.Shyy,W.,Chen,M.-H.,Mittal,R.,Udaykumar,H.S.:Onthesuppressionofnumericaloscillationsusinganon-linearfilter.J.Comput.Phys.102(1),49–62(1992)

42.Smagorinsky,J.S.:Generalcirculationexperimentswithprimitiveequations.Mon.WeatherRev.91(3),99–164(1963)

43.Son,J.,Hanratty,T.:VelocitygradientsatthewallforflowaroundacylinderatReynoldsnumbersfrom5×103to105.J.FluidMech.35,353–368(1969)

44.Szepessy,S.,Bearman,P.W.:Aspectratioandendplateeffectsonvortexsheddingfromacircularcylinder.J.FluidMech.234,191–217(1992)

45.Torrence,C.,Compo,G.P.:Apracticalguidetowaveletanalysis.Bull.Am.Meteorol.Soc.79,61–78(1998)

46.Vichnevetsky,R.:Wavepropagationanalysisofdifferenceschemesforhyperbolicequations:areview.Int.J.Numer.MethodsFluids7,409–452(1987)

47.Waterson,N.P.,Deconinck,H.:Designprinciplesforboundedhigher-orderconvectionschemes—aunifiedapproach.J.Comput.Phys.224,182–207(2007)

48.Welch,P.:TheuseoffastFouriertransformfortheestimationofpowerspectra:amethodbasedontimeaveragingovershort,modifiedperiodograms.IEEETrans.AudioElectroacoust.15(6),70–73(1967)

49.Weller,H.G.,Tabor,G.,Jasak,H.,Fureby,C.:Atensorialapproachtocomputationalcontinuummechanicsusingobject-orientedtechniques.Comput.Phys.12(6),620–631(1998)

698FlowTurbulenceCombust(2014)92:673–698

50.Weller,H.:ControllingthecomputationalmodesofthearbitrarilystructuredCgrid.Mon.WeatherRev.140,3220–3234(2012)

51.West,G.S.,Apelt,C.J.:MeasurementsoffluctuatingpressuresandforcesonacircularcylinderintheReynoldsnumberrange104to2.5×105.J.FluidsStruct.7,227–244(1993)

52.Williamson,C.H.K.,Wu,J.,Sheridan,J.:Scalingofstreamwisevorticesinwakes.J.Phys.Fluids7,2307–2309(1995)

53.Wissink,J.G.,Rodi,W.:Numericalstudyofthenearwakeofacircularcylinder.Int.J.HeatFluidFlow29,1060–1070(2008)

54.Wornom,S.,Ouvrard,H.,Salvetti,M.V.,Koobus,B.,Dervieux,A.:Variationalmultiscalelarge-eddysimulationsoftheflowpastacircularcylinder:reynoldsnumbereffects.Comput.Fluids47(1),44–50(2011)

55.Yokuda,S.,Ramaprian,B.R.:ThedynamicsofflowaroundacylinderatsubcriticalReynoldsnumbers.Phys.FluidsA2,784–791(1990)