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Journal papers 2014

[1]
L. af Klinteberg, D. Lindbo and A.-K. Tornberg, "An explicit Eulerian method for multiphase flow with contact line dynamics and insoluble surfactant," Computers & Fluids, vol. 101, pp. 50-63, 2014.
[2]
A. Agarwal, L. Brandt and T. A. Zaki, "Linear and nonlinear evolution of a localized disturbance in polymeric channel flow," Journal of Fluid Mechanics, vol. 760, pp. 278-303, 2014.
[4]
L. Biancofiore, "Crossover between two- and three-dimensional turbulence in spatial mixing layers," Journal of Fluid Mechanics, vol. 745, pp. 164-179, 2014.
[5]
O. Bodin et al., "LES of the Exhaust Flow in a Heavy-Duty Engine," Oil & gas science and technology, vol. 69, no. 1, pp. 177-188, 2014.
[6]
L. Brandt, "The lift-up effect : The linear mechanism behind transition and turbulence in shear flows," European journal of mechanics. B, Fluids, vol. 47, pp. 80-96, 2014.
[7]
G. Brethouwer et al., "Recurrent Bursts via Linear Processes in Turbulent Environments," Physical Review Letters, vol. 112, no. 14, pp. 144502, 2014.
[8]
R. Dadfar et al., "Centralised Versus Decentralised Active Control of Boundary Layer Instabilities," Flow Turbulence and Combustion, vol. 93, no. 4, pp. 537-553, 2014.
[9]
C. A. Daly et al., "Secondary instability and tertiary states in rotating plane Couette flow," Journal of Fluid Mechanics, vol. 761, pp. 27-61, 2014.
[10]
S. Dangendorf et al., "North Sea Storminess from a Novel Storm Surge Record since AD 1843," Journal of Climate, vol. 27, no. 10, pp. 3582-3595, 2014.
[11]
H. Dankowicz, A. Hanifi and D. Henningson, "Untitled," Applied Mechanics Review, vol. 66, no. 2, pp. 020201, 2014.
[12]
M. B. de Stadler, N. R. Rapaka and S. Sarkar, "Large eddy simulation of the near to intermediate wake of a heated sphere at Re=10,000," International Journal of Heat and Fluid Flow, vol. 49, pp. 2-10, 2014.
[13]
E. Deusebio, P. Augier and E. Lindborg, "Third-order structure functions in rotating and stratified turbulence : a comparison between numerical, analytical and observational results," Journal of Fluid Mechanics, vol. 755, pp. 294-313, 2014.
[14]
E. Deusebio et al., "Dimensional transition in rotating turbulence," Physical Review E. Statistical, Nonlinear, and Soft Matter Physics, vol. 90, no. 2, 2014.
[15]
E. Deusebio et al., "A numerical study of the unstratified and stratified Ekman layer," Journal of Fluid Mechanics, vol. 755, pp. 672-704, 2014.
[16]
E. Deusebio and E. Lindborg, "Helicity in the Ekman boundary layer," Journal of Fluid Mechanics, vol. 755, pp. 654-671, 2014.
[17]
M. Do-Quang et al., "Simulation of finite-size fibers in turbulent channel flows," Physical Review E. Statistical, Nonlinear, and Soft Matter Physics, vol. 89, no. 1, pp. 013006, 2014.
[18]
R. S., I. Downs and J. H. M. Fransson, "Tollmien-Schlichting wave growth over spanwise-periodic surface patterns," Journal of Fluid Mechanics, vol. 754, pp. 39-74, 2014.
[19]
G. Eitel-Amor, R. Örlü and P. Schlatter, "Simulation and validation of a spatially evolving turbulent boundary layer up to Reθ = 8300," International Journal of Heat and Fluid Flow, vol. 47, pp. 57-69, 2014.
[20]
G. K. El Khoury et al., "Turbulent pipe flow : Statistics, Re-dependence, structures and similarities with channel and boundary layer flows," Journal of Physics, Conference Series, vol. 506, no. 1, pp. 012010, 2014.
[21]
N. Fabbiane et al., "Adaptive and model-based control theory applied to convectively unstable flows," Applied Mechanics Review, vol. 66, no. 6, pp. 060801, 2014.
[22]
A. H. Herbst, T. W. Muld and G. Efraimsson, "Aerodynamic prediction tools for high-speed trains," International Journal of Rail transportation, vol. 2, no. 1, 2014.
[23]
A. A. Hoseini et al., "Rod-like particles matching algorithm based on SOM neural network in dispersed two-phase flow measurements," Experiments in Fluids, vol. 55, no. 4, pp. 1705, 2014.
[24]
K. Håkansson et al., "Hydrodynamic alignment and assembly of nanofibrils resulting in strong cellulose filaments," Nature Communications, vol. 5, pp. 4018, 2014.
[25]
S. Imayama, P. H. Alfredsson and R. J. Lingwood, "On the laminar-turbulent transition of the rotating-disk flow : the role of absolute instability," Journal of Fluid Mechanics, vol. 745, pp. 132-163, 2014.
[26]
S. Imayama, R. J. Lingwood and P. H. Alfredsson, "The turbulent rotating-disk boundary layer," European journal of mechanics. B, Fluids, vol. 48, pp. 245-253, 2014.
[27]
M. P. Juniper, A. Hanifi and V. Theofilis, "Modal Stability Theory : Lecture notes from the FLOW-NORDITA Summer School on Advanced Instability Methods for Complex Flows, Stockholm, Sweden, 2013," Applied Mechanics Review, vol. 66, no. 2, pp. 024804, 2014.
[28]
T. Khapko et al., "Complexity of localised coherent structures in a boundary-layer flow," The European Physical Journal E Soft matter, vol. 37, no. 32, 2014.
[29]
S. Khatri and A.-K. Tornberg, "An embedded boundary method for soluble surfactants with interface tracking for two-phase flows," Journal of Computational Physics, vol. 256, pp. 768-790, 2014.
[30]
J. Klinkenberg, H. C. de Lange and L. Brandt, "Linear stability of particle laden flows : the influence of added mass, fluid acceleration and Basset history force," Meccanica (Milano. Print), vol. 49, no. 4, pp. 811-827, 2014.
[31]
U. Lacis et al., "Passive appendages generate drift through symmetry breaking," Nature Communications, vol. 5, pp. 5310, 2014.
[32]
I. Lashgari et al., "Laminar, Turbulent, and Inertial Shear-Thickening Regimes in Channel Flow of Neutrally Buoyant Particle Suspensions," Physical Review Letters, vol. 113, no. 25, pp. 254502, 2014.
[33]
I. Lashgari et al., "The planar X-junction flow : stability analysis and control," Journal of Fluid Mechanics, vol. 753, pp. 1-28, 2014.
[34]
P. Lenaers et al., "A new high-order method for the simulation of incompressible wall-bounded turbulent flows," Journal of Computational Physics, vol. 272, pp. 108-126, 2014.
[35]
A. Monokrousos et al., "Optimal disturbances above and upstream of a flat plate with an elliptic-type leading edge," Theoretical and Computational Fluid Dynamics, vol. 28, no. 2, pp. 147-157, 2014.
[36]
T. W. Muld, G. Efraimsson and D. S. Henningson, "Wake characteristics of high-speed trains with different lengths," Proceedings of the Institution of mechanical engineers. Part F, journal of rail and rapid transit, vol. 228, no. 4, pp. 333-342, 2014.
[37]
F. Nadal et al., "Rotational propulsion enabled by inertia," The European Physical Journal E Soft matter, vol. 37, no. 7, pp. 1-14, 2014.
[38]
Y. Odemark and A. Segalini, "The effects of a model forest canopy on the outputs of a wind turbine model," Journal of Physics, Conference Series, vol. 555, no. 1, 2014.
[39]
S. Olivieri et al., "The effect of the Basset history force on particle clustering in homogeneous and isotropic turbulence," Physics of fluids, vol. 26, no. 4, pp. 041704, 2014.
[40]
A. Peplinski et al., "Stability tools for the spectral-element code Nek5000 : Application to Jet-in-Crossflow," Lecture Notes in Computational Science and Engineering, vol. 95, pp. 349-359, 2014.
[41]
Z. Pouransari, L. Vervisch and A. V. Johansson, "Reynolds Number Effects on Statistics and Structure of an Isothermal Reacting Turbulent Wall-Jet," Flow Turbulence and Combustion, vol. 92, no. 4, pp. 931-945, 2014.
[43]
T. Rosén, F. Lundell and C. K. Aidun, "Effect of fluid inertia on the dynamics and scaling of neutrally buoyant particles in shear flow," Journal of Fluid Mechanics, vol. 738, pp. 563-590, 2014.
[44]
S. S. Sattarzadeh et al., "Consecutive turbulence transition delay with reinforced passive control," Physical Review E. Statistical, Nonlinear, and Soft Matter Physics, vol. 89, no. 6, pp. 061001, 2014.
[45]
A. Sakowitz, M. Mihaescu and L. Fuchs, "Flow decomposition methods applied to the flow in an IC engine manifold," Applied Thermal Engineering, vol. 65, no. 1-2, pp. 57-65, 2014.
[46]
A. Sakowitz, M. Mihaescu and L. Fuchs, "Turbulent flow mechanisms in mixing T-junctions by Large Eddy Simulations," International Journal of Heat and Fluid Flow, vol. 45, no. 1, pp. 135-146, 2014.
[47]
A. Sakowitz et al., "Modeling of EGR Mixing in an Engine Intake Manifold using LES.," Oil & gas science and technology, vol. 69, no. 1, pp. 167-176, 2014.
[48]
A. Samanta, "Effect of surfactants on the instability of a two-layer film flow down an inclined plane," Physics of fluids, vol. 26, no. 9, pp. 094105, 2014.
[49]
A. Samanta, "Shear-imposed falling film," Journal of Fluid Mechanics, vol. 753, pp. 131-149, 2014.
[50]
G. Sardina et al., "Statistics of Particle Accumulation in Spatially Developing Turbulent Boundary Layers," Flow Turbulence and Combustion, vol. 92, no. 1-2, pp. 27-40, 2014.
[51]
H. Sarlak et al., "Aerodynamic behaviour of NREL S826 airfoil at Re=100,000," Journal of Physics, Conference Series, vol. 524, no. 1, 2014.
[52]
S. Sarmast et al., "Numerical investigation of the wake interaction between two model wind turbines with span-wise offset," Journal of Physics, Conference Series, vol. 524, no. 1, 2014.
[53]
S. Sarmast et al., "Mutual inductance instability of the tip vortices behind a wind turbine," Journal of Fluid Mechanics, vol. 755, pp. 705-731, 2014.
[54]
S. S. Sattarzadeh and J. H. M. Fransson, "Experimental investigation on the steady and unsteady disturbances in a flat plate boundary layer," Physics of fluids, vol. 26, no. 12, pp. 124103, 2014.
[55]
P. Schlatter et al., "On the near-wall vortical structures at moderate Reynolds numbers," European journal of mechanics. B, Fluids, vol. 48, pp. 75-93, 2014.
[56]
P. J. Schmid and L. Brandt, "Analysis of Fluid Systems : Stability, Receptivity, Sensitivity," Applied Mechanics Review, vol. 66, no. 2, pp. 024803, 2014.
[57]
A. Segalini et al., "Corrections for one- and two-point statistics measured with coarse-resolution particle image velocimetry," Experiments in Fluids, vol. 55, no. 6, pp. 1739, 2014.
[58]
A. Segalini and P. Inghels, "Confinement effects in wind-turbine and propeller measurements," Journal of Fluid Mechanics, vol. 756, pp. 110-129, 2014.
[59]
B. Semlitsch, Y. Wang and M. Mihaescu, "Flow effects due to pulsation in an internal combustion engine exhaust port," Energy Conversion and Management, vol. 86, pp. 520-536, 2014.
[60]
S. Shahinfar, S. S. Sattarzadeh and J. H. M. Fransson, "Passive boundary layer control of oblique distrubances by finite-amplitude streaks," Journal of Fluid Mechanics, vol. 749, pp. 1-36, 2014.
[61]
A. Suryadi, A. Segalini and P. H. Alfredsson, "Zero absolute vorticity : Insight from experiments in rotating laminar plane Couette flow," Physical Review E. Statistical, Nonlinear, and Soft Matter Physics, vol. 89, no. 3, pp. 033003, 2014.
[62]
M. Söder et al., "Effect of Swirl/Tumble (Tilt) Angle on Flow Homogeneity, Turbulence and Mixing Properties," SAE technical paper series, vol. 2014-October, 2014.
[63]
J. N. Sørensen et al., "Determination of wind turbine near-wake length based on stability analysis," Journal of Physics, Conference Series, vol. 524, no. 1, 2014.
[64]
R. Trip and J. H. M. Fransson, "Boundary layer modification by means of wall suction and the effect on the wake behind a rectangular forebody," Physics of fluids, vol. 26, no. 12, pp. 125105, 2014.
[65]
S. Van Wyk, L. Prahl Wittberg and L. Fuchs, "Atherosclerotic indicators for blood-like fluids in 90-degree arterial-like bifurcations," Computers in Biology and Medicine, vol. 50, pp. 56-69, 2014.
[66]
R. Vilela de Abreu, N. Jansson and J. Hoffman, "Adaptive Computation of Aeroacoustic Sources for a Rudimentary Landing Gear," International Journal for Numerical Methods in Fluids, vol. 74, no. 6, pp. 406-421, 2014.
[67]
R. Vinuesa et al., "Experiments and Computations of Localized Pressure Gradients with Different History Effects," AIAA Journal, vol. 52, no. 2, pp. 368-384, 2014.
[68]
R. Vinuesa, P. Schlatter and H. M. Nagib, "Role of data uncertainties in identifying the logarithmic region of turbulent boundary layers," Experiments in Fluids, vol. 55, no. 6, pp. 1751, 2014.
[69]
R. Vinuesa et al., "Aspect ratio effects in turbulent duct flows studied through direct numerical simulation," Journal of turbulence, vol. 15, no. 10, pp. 677-706, 2014.
[70]
Y. Wang et al., "Flow Induced Energy Losses in the Exhaust Port of an Internal Combustion Engine," Journal of Fluids Engineering, vol. 137, no. 1, pp. 011105-01-011105-09, 2014.
[71]
H. Wedin et al., "Unstable flow structures in the Blasius boundary layer," The European Physical Journal E Soft matter, vol. 37, no. 4, pp. 34, 2014.
[72]
L. Wei et al., "Universality and scaling phenomenology of small-scale turbulence in wall-bounded flows," Physics of fluids, vol. 26, no. 3, pp. 035107, 2014.
[73]
C. Zhan et al., "Accumulation of motile elongated micro-organisms in turbulence," Journal of Fluid Mechanics, vol. 739, pp. 22-36, 2014.
[74]
F. Zhang et al., "Near-Wall Convection in a Sedimenting Suspension of Fibers," AIChE Journal, vol. 60, no. 12, pp. 4253-4265, 2014.
[75]
L. Zhou and H. Bodén, "Experimental investigation of an in-duct orifice with bias flow under medium and high level acoustic excitation," International Journal of Spray and Combustion Dynamics, vol. 6, no. 3, pp. 267-292, 2014.
[76]
L. Zhu et al., "A microfluidic device to sort capsules by deformability : a numerical study," Soft Matter, vol. 10, no. 39, pp. 7705-7711, 2014.
[77]
R. Örlü et al., "The influence of temperature fluctuations on hot-wire measurements in wall-bounded turbulence," Experiments in Fluids, vol. 55, no. 7, pp. 1781, 2014.
Page responsible:Ardeshir Hanifi
Belongs to: FLOW
Last changed: Oct 09, 2022