Publikationer av Philipp Schlatter

Refereegranskade

Artiklar

[1]

D. Massaro et al., "Direct numerical simulation of the turbulent flow around a Flettner rotor," Scientific Reports, vol. 14, no. 1, 2024.

[2]

N. Jansson et al., "Neko: A modern, portable, and scalable framework for high-fidelity computational fluid dynamics," Computers & Fluids, vol. 275, s. 106243-106243, 2024.

[3]

M. Atzori et al., "A new perspective on skin-friction contributions in adverse-pressure-gradient turbulent boundary layers," International Journal of Heat and Fluid Flow, vol. 101, 2023.

[4]

F. Mallor et al., "Bayesian Optimization of Wall-Normal Blowing and Suction-Based Flow Control of a NACA 4412 Wing Profile," Flow Turbulence and Combustion, 2023.

[5]

D. Massaro, A. Peplinski och P. Schlatter, "Coherent structures in the turbulent stepped cylinder flow at ReD=5000," International Journal of Heat and Fluid Flow, vol. 102, s. 109144, 2023.

[6]

L. Guastoni et al., "Deep reinforcement learning for turbulent drag reduction in channel flows," The European Physical Journal E Soft matter, vol. 46, no. 4, 2023.

[7]

A. Geetha Balasubramanian et al., "Direct numerical simulation of a zero-pressure-gradient turbulent boundary layer with passive scalars up to Prandtl number Pr=6," Journal of Fluid Mechanics, vol. 974, 2023.

[8]

J. Yao et al., "Direct numerical simulations of turbulent pipe flow up to Re-tau approximate to 5200," Journal of Fluid Mechanics, vol. 956, 2023.

[9]

S. Rezaeiravesh, T. Mukha och P. Schlatter, "Efficient prediction of turbulent flow quantities using a Bayesian hierarchical multifidelity model," Journal of Fluid Mechanics, vol. 964, 2023.

[10]

N. Offermans et al., "Error-driven adaptive mesh refinement for unsteady turbulent flows in spectral-element simulations," Computers & Fluids, vol. 251, s. 105736, 2023.

[11]

D. Massaro et al., "Global stability of 180-bend pipe flow with mesh adaptivity," Physical Review Fluids, vol. 8, no. 11, 2023.

[12]

C. Amor et al., "Higher-order dynamic mode decomposition on-the-fly : A low-order algorithm for complex fluid flows," Journal of Computational Physics, vol. 475, 2023.

[13]

M. Beneitez Galan et al., "Instability of the optimal edge trajectory in the Blasius boundary layer," Journal of Fluid Mechanics, vol. 971, 2023.

[14]

H. Nobis et al., "Modal laminar-turbulent transition delay by means of topology optimization of superhydrophobic surfaces," Computer Methods in Applied Mechanics and Engineering, vol. 403, 2023.

[15]

D. Massaro, S. Rezaeiravesh och P. Schlatter, "On the potential of transfer entropy in turbulent dynamical systems," Scientific Reports, vol. 13, no. 1, 2023.

[16]

A. Geetha Balasubramanian et al., "Predicting the wall-shear stress and wall pressure through convolutional neural networks," International Journal of Heat and Fluid Flow, vol. 103, 2023.

[17]

A. Andreolli et al., "Separating large-scale superposition and modulation in turbulent channels," Journal of Fluid Mechanics, vol. 958, 2023.

[18]

R. Pozuelo et al., "Spectra of near-equilibrium adverse-pressure-gradient turbulent boundary layers," Physical Review Fluids, vol. 8, no. 2, 2023.

[19]

D. Massaro, A. Peplinski och P. Schlatter, "The flow around a stepped cylinder with turbulent wake and stable shear layer," Journal of Fluid Mechanics, vol. 977, 2023.

[20]

H. Nobis et al., "Topology optimization of Superhydrophobic Surfaces to delay spatially developing modal laminar–turbulent transition," International Journal of Heat and Fluid Flow, vol. 104, 2023.

[21]

R. Pozuelo et al., "An adverse-pressure-gradient turbulent boundary layer with nearly constant beta similar or equal to 1.4 up to Re-theta similar or equal to 8700," Journal of Fluid Mechanics, vol. 939, 2022.

[22]

S. Rezaeiravesh, R. Vinuesa och P. Schlatter, "An uncertainty-quantification framework for assessing accuracy, sensitivity, and robustness in computational fluid dynamics," Journal of Computational Science, vol. 62, 2022.

[23]

Y. Morita et al., "Applying Bayesian optimization with Gaussian process regression to computational fluid dynamics problems," Journal of Computational Physics, vol. 449, 2022.

[24]

A. Perez Martinez et al., "Appraisal of cavity hot-wire probes for wall-shear-stress measurements," Experiments in Fluids, vol. 63, no. 9, 2022.

[25]

M. Atzori, R. Vinuesa och P. Schlatter, "Control effects on coherent structures in a non-uniform adverse-pressure-gradient boundary layer," International Journal of Heat and Fluid Flow, vol. 97, 2022.

[26]

M. Atzori et al., "In situ visualization of large-scale turbulence simulations in Nek5000 with ParaView Catalyst," Journal of Supercomputing, vol. 78, no. 3, s. 3605-3620, 2022.

[27]

C. ,. I. Chan et al., "Large-scale and small-scale contribution to the skin friction reduction in a modified turbulent boundary layer by a large-eddy break-up device," Physical Review Fluids, vol. 7, no. 3, 2022.

[28]

H. Eivazi et al., "Physics-informed neural networks for solving Reynolds-averaged Navier-Stokes equations," Physics of fluids, vol. 34, no. 8, 2022.

[29]

G. Borrelli et al., "Predicting the temporal dynamics of turbulent channels through deep learning," International Journal of Heat and Fluid Flow, vol. 96, 2022.

[30]

N. Tabatabaei et al., "RANS Modelling of a NACA4412 Wake Using Wind Tunnel Measurements," Fluids, vol. 7, no. 5, 2022.

[31]

N. Tabatabaei et al., "Techniques for Turbulence Tripping of Boundary Layers in RANS Simulations," Flow Turbulence and Combustion, vol. 108, no. 3, s. 661-682, 2022.

[32]

H. Nobis et al., "Topology optimization of unsteady flows using the spectral element method," Computers & Fluids, vol. 239, s. 105387, 2022.

[33]

N. Tabatabaei et al., "Aerodynamic free-flight conditions in wind-tunnel modelling through reduced-order wall inserts," Energies, vol. 6, no. 8, s. 265, 2021.

[34]

L. Guastoni et al., "Convolutional-network models to predict wall-bounded turbulence from wall quantities," Journal of Fluid Mechanics, vol. 928, 2021.

[35]

Y. Fan et al., "Decomposition of the mean friction drag on an NACA4412 airfoil under uniform blowing/suction," Journal of Fluid Mechanics, vol. 932, 2021.

[36]

A. Corrochano et al., "Flow Structures on a Planar Food and Drug Administration (FDA) Nozzle at Low and Intermediate Reynolds Number," Fluids, vol. 6, no. 1, 2021.

[37]

M. Atzori et al., "Intense Reynolds-stress events in turbulent ducts," International Journal of Heat and Fluid Flow, vol. 89, 2021.

[38]

C. ,. I. Chan, P. Schlatter och R. C. Chin, "Interscale transport mechanisms in turbulent boundary layers," Journal of Fluid Mechanics, vol. 921, 2021.

[39]

G. Fahland et al., "Investigation of Blowing and Suction for Turbulent Flow Control on Airfoils," AIAA Journal, vol. 59, no. 11, s. 4422-4436, 2021.

[40]

S. Rezaeiravesh, R. Vinuesa och P. Schlatter, "On numerical uncertainties in scale-resolving simulations of canonical wall turbulence," Computers & Fluids, vol. 227, s. 1-21, 2021.

[41]

H. Eivazi et al., "Recurrent neural networks and Koopman-based frameworks for temporal predictions in a low-order model of turbulence," International Journal of Heat and Fluid Flow, vol. 90, 2021.

[42]

L. I. Abreu et al., "Spanwise-coherent hydrodynamic waves around flat plates and airfoils," Journal of Fluid Mechanics, vol. 927, 2021.

[43]

I. C. Chan et al., "The skin-friction coefficient of a turbulent boundary layer modified by a large-eddy break-up device," Physics of fluids, vol. 33, no. 3, 2021.

[44]

S. Rezaeiravesh, R. Vinuesa och P. Schlatter, "UQit: A Python package for uncertainty quantification (UQ) in computational fluid dynamics (CFD)," Journal of Open Source Software, vol. 6, no. 60, s. 1-3, 2021.

[45]

M. Atzori et al., "Uniform blowing and suction applied to nonuniform adverse-pressure-gradient wing boundary layers," Physical Review Fluids, vol. 6, no. 11, 2021.

[46]

A. Drozdz et al., "A description of turbulence intensity profiles for boundary layers with adverse pressure gradient," European journal of mechanics. B, Fluids, vol. 84, s. 470-477, 2020.

[47]

N. Offermans et al., "Adaptive mesh refinement for steady flows in Nek5000," Computers & Fluids, vol. 197, 2020.

[48]

M. Atzori et al., "Aerodynamic Effects of Uniform Blowing and Suction on a NACA4412 Airfoil," Flow Turbulence and Combustion, 2020.

[49]

R. C. Chin et al., "Backflow events under the effect of secondary flow of Prandtl's first kind," Physical Review Fluids, vol. 5, no. 7, 2020.

[50]

M. Atzori et al., "Coherent structures in turbulent boundary layers over an airfoil," Journal of Physics: Conference Series, vol. 1522, 2020.

[51]

J. Canton et al., "Critical Point for Bifurcation Cascades and Featureless Turbulence," Physical Review Letters, vol. 124, no. 1, 2020.

[52]

Y. Fan et al., "Decomposition of the mean friction drag in adverse-pressure-gradient turbulent boundary layers," Physical Review Fluids, vol. 5, no. 11, 2020.

[53]

L. H. von Deyn et al., "Direct Numerical Simulations of Bypass Transition over Distributed Roughness," AIAA Journal, vol. 58, no. 2, s. 702-711, 2020.

[54]

M. Beneitez Galan et al., "Edge manifold as a Lagrangian coherent structure in a high-dimensional state space," Physical Review Research, vol. 2, no. 3, 2020.

[55]

A. Tanarro, R. Vinuesa och P. Schlatter, "Effect of adverse pressure gradients on turbulent wing boundary layers," Journal of Fluid Mechanics, vol. 883, no. A8, s. 1-28, 2020.

[56]

C. Sanmiguel Vila et al., "Experimental realisation of near-equilibrium adverse-pressure-gradient turbulent boundary layers," Experimental Thermal and Fluid Science, vol. 112, 2020.

[57]

V. Lupi, J. Canton och P. Schlatter, "Global stability analysis of a 90°-bend pipe flow," International Journal of Heat and Fluid Flow, vol. 86, 2020.

[58]

C. Amor et al., "Modeling the Turbulent Wake Behind a Wall-Mounted Square Cylinder," Logic journal of the IGPL (Print), vol. 30, no. 2, s. 263-276, 2020.

[59]

M. Samie et al., "Near wall coherence in wall-bounded flows and implications for flow control," International Journal of Heat and Fluid Flow, vol. 86, 2020.

[60]

E. Kleusberg, P. Schlatter och D. S. Henningson, "Parametric dependencies of the yawed wind-turbine wake development," Wind Energy, vol. 23, no. 6, s. 1367-1380, 2020.

[61]

L. I. Abreu et al., "Resolvent modelling of near-wall coherent structures in turbulent channel flow," International Journal of Heat and Fluid Flow, vol. 85, 2020.

[62]

C. Sanmiguel Vila et al., "Separating adverse-pressure-gradient and Reynolds-number effects in turbulent boundary layers," Physical Review Fluids, vol. 5, no. 6, 2020.

[63]

N. Sánchez Abad et al., "Simulation strategies for the Food and Drug Administration nozzle using Nek5000," AIP Advances, vol. 10, no. 2, 2020.

[64]

L. I. Abreu et al., "Spectral proper orthogonal decomposition and resolvent analysis of near-wall coherent structures in turbulent pipe flows," Journal of Fluid Mechanics, vol. 900, 2020.

[65]

P. S. Negi et al., "Bypass transition delay using oscillations of spanwise wall velocity," Physical Review Fluids, vol. 4, no. 6, 2019.

[66]

M. Beneitez Galan et al., "Edge tracking in spatially developing boundary layer flows," Journal of Fluid Mechanics, vol. 881, s. 164-181, 2019.

[67]

A. Guemes et al., "Flow organization in the wake of a rib in a turbulent boundary layer with pressure gradient," Experimental Thermal and Fluid Science, vol. 108, s. 115-124, 2019.

[68]

E. Otero et al., "OpenACC acceleration for the PN-PN-2 algorithm in Nek5000," Journal of Parallel and Distributed Computing, vol. 132, s. 69-78, 2019.

[69]

P. A. Srinivasan et al., "Predictions of turbulent shear flows using deep neural networks," Physical Review Fluids, vol. 4, no. 5, 2019.

[70]

E. Dogan et al., "Quantification of amplitude modulation in wall-bounded turbulence," Fluid Dynamics Research, vol. 51, no. 1, 2019.

[71]

S. Straub et al., "The influence of thermal boundary conditions on turbulent forced convection pipe flow at two Prandtl numbers," International Journal of Heat and Mass Transfer, vol. 144, 2019.

[72]

E. Rinaldi, J. Canton och P. Schlatter, "The vanishing of strong turbulent fronts in bent pipes," Journal of Fluid Mechanics, vol. 866, s. 487-502, 2019.

[73]

K. Sasaki et al., "Transfer functions for flow predictions in wall-bounded turbulence," Journal of Fluid Mechanics, vol. 864, s. 708-745, 2019.

[74]

S. Rezaeiravesh et al., "Assessment of uncertainties in hot-wire anemometry and oil-film interferometry measurements for wall-bounded turbulent flows," European journal of mechanics. B, Fluids, vol. 72, s. 57-73, 2018.

[75]

Z. Wang et al., "Direct numerical simulation of a turbulent 90° bend pipe flow," International Journal of Heat and Fluid Flow, vol. 73, s. 199-208, 2018.

[76]

P. Forooghi et al., "Direct numerical simulation of flow over dissimilar, randomly distributed roughness elements : A systematic study on the effect of surface morphology on turbulence," Physical Review Fluids, vol. 3, no. 4, 2018.

[77]

E. Rinaldi, P. Schlatter och S. Bagheri, "Edge state modulation by mean viscosity gradients," Journal of Fluid Mechanics, vol. 838, s. 379-403, 2018.

[78]

E. Otero et al., "Lossy Data Compression Effects on Wall-bounded Turbulence : Bounds on Data Reduction," Flow Turbulence and Combustion, vol. 101, no. 2, s. 365-387, 2018.

[79]

A. Vidal et al., "Secondary flow in spanwise-periodic in-phase sinusoidal channels," Journal of Fluid Mechanics, vol. 851, s. 288-316, 2018.

[80]

R. Vinuesa, P. Schlatter och H. M. Nagib, "Secondary flow in turbulent ducts with increasing aspect ratio," Physical Review Fluids, vol. 3, no. 5, 2018.

[81]

C. Saglietti et al., "Topology optimization of heat sinks in a square differentially heated cavity," International Journal of Heat and Fluid Flow, vol. 74, s. 36-52, 2018.

[82]

E. Appelquist et al., "Turbulence in the rotating-disk boundary layer investigated through direct numerical simulations," European journal of mechanics. B, Fluids, vol. 70, s. 6-18, 2018.

[83]

R. Vinuesa et al., "Turbulent boundary layers around wing sections up to Re-c=1, 000, 000," International Journal of Heat and Fluid Flow, vol. 72, s. 86-99, 2018.

[84]

A. Vidal et al., "Turbulent rectangular ducts with minimum secondary flow," International Journal of Heat and Fluid Flow, vol. 72, s. 317-328, 2018.

[85]

P. S. Negi et al., "Unsteady aerodynamic effects in small-amplitude pitch oscillations of an airfoil," International Journal of Heat and Fluid Flow, vol. 71, s. 378-391, 2018.

[86]

P. Negi et al., "Unsteady aerodynamic effects in small-amplitude pitch oscillations of anairfoil," International Journal of Heat and Fluid Flow, vol. 71, s. 378-391, 2018.

[87]

C. Saglietti et al., "Adjoint optimization of natural convection problems : differentially heated cavity," Theoretical and Computational Fluid Dynamics, vol. 31, no. 5-6, s. 537-553, 2017.

[88]

C. Sanmiguel Vila et al., "Adverse-Pressure-Gradient Effects on Turbulent Boundary Layers : Statistics and Flow-Field Organization," Flow Turbulence and Combustion, vol. 99, no. 3-4, s. 589-612, 2017.

[89]

R. Vinuesa, R. Örlü och P. Schlatter, "Characterisation of backflow events over a wing section," Journal of turbulence, vol. 18, no. 2, s. 170-185, 2017.

[90]

J. Canton, R. Örlü och P. Schlatter, "Characterisation of the steady, laminar incompressible flow in toroidal pipes covering the entire curvature range," International Journal of Heat and Fluid Flow, vol. 66, s. 95-107, 2017.

[91]

M. Brynjell-Rahkola et al., "Computing Optimal Forcing Using Laplace Preconditioning," Communications in Computational Physics, vol. 22, no. 5, s. 1508-1532, 2017.

[92]

E. Kleusberg et al., "High-Order Numerical Simulations of Wind Turbine Wakes," Journal of Physics, Conference Series, vol. 854, no. 1, 2017.

[93]

A. Bobke et al., "History effects and near equilibrium in adverse-pressure-gradient turbulent boundary layers," Journal of Fluid Mechanics, vol. 820, s. 667-692, 2017.

[94]

C. Prus et al., "Impact simulation and optimisation of elastic fuel tanks reinforced with exoskeleton for aerospace applications," International Journal of Crashworthiness, vol. 22, no. 3, s. 271-293, 2017.

[95]

C. Chin et al., "Influence of a Large-Eddy-Breakup-Device on the Turbulent Interface of Boundary Layers," Flow Turbulence and Combustion, vol. 99, no. 3-4, s. 823-835, 2017.

[96]

A. Vidal et al., "Influence of corner geometry on the secondary flow in turbulent square ducts," International Journal of Heat and Fluid Flow, vol. 67, s. 69-78, 2017.

[97]

A. Vidal et al., "Influence of corner geometry on the secondary flow in turbulent square ducts (Reprint from Int J Heat and Fluid Flow 67A, pp.69-78, 2017)," International Journal of Heat and Fluid Flow, vol. 67, s. 94-103, 2017.

[98]

E. Rinaldi et al., "Linear stability of buffer layer streaks in turbulent channels with variable density and viscosity," Physical Review Fluids, vol. 2, no. 11, 2017.

[99]

C. Sanmiguel Vila et al., "On the identification of well-behaved turbulent boundary layers," Journal of Fluid Mechanics, vol. 822, s. 109-138, 2017.

[100]

R. Vinuesa et al., "Pressure-gradient turbulent boundary layers developing around a wing section," Flow Turbulence and Combustion, vol. 99, no. 3-4, s. 613-641, 2017.

[101]

R. Vinuesa et al., "Revisiting history effects in adverse-pressure-gradient turbulent boundary layers," Flow Turbulence and Combustion, vol. 99, no. 3-4, s. 565-587, 2017.

[102]

M. Brynjell-Rahkola et al., "Stability and sensitivity of a cross-flow-dominated Falkner-Skan-Cooke boundary layer with discrete surface roughness," Journal of Fluid Mechanics, vol. 826, s. 830-850, 2017.

[103]

L. Hufnagel et al., "The three-dimensional structure of swirl-switching in bent pipe flow," Journal of Fluid Mechanics, vol. 835, s. 86-101, 2017.

[104]

E. Appelquist et al., "Transition to turbulence in the rotating-disk boundary-layer flow with stationary vortices," Journal of Fluid Mechanics, vol. 836, s. 43-71, 2017.

[105]

S. Straub et al., "Turbulent Duct Flow Controlled with Spanwise Wall Oscillations," Flow Turbulence and Combustion, vol. 99, no. 3-4, s. 787-806, 2017.

[106]

A. Noorani et al., "Aspect ratio effect on particle transport in turbulent duct flows," Physics of fluids, vol. 28, no. 11, 2016.

[107]

T. Kreilos et al., "Bypass transition and spot nucleation in boundary layers," PHYSICAL REVIEW FLUIDS, vol. 1, no. 4, 2016.

[108]

O. Marin et al., "Characterization of the secondary flow in hexagonal ducts," Physics of fluids, vol. 28, no. 12, 2016.

[109]

R. Vinuesa et al., "Convergence of numerical simulations of turbulent wall-bounded flows and mean cross-flow structure of rectangular ducts," Meccanica (Milano. Print), vol. 51, no. 12, s. 3025-3042, 2016.

[110]

Y. Kametani et al., "Drag reduction in spatially developing turbulent boundary layers by spatially intermittent blowing at constant mass-flux," Journal of turbulence, vol. 17, no. 10, s. 913-929, 2016.

[111]

T. Khapko et al., "Edge states as mediators of bypass transition in boundary-layer flows," Journal of Fluid Mechanics, vol. 801, 2016.

[112]

A. Stroh et al., "Global effect of local skin friction drag reduction in spatially developing turbulent boundary layer," Journal of Fluid Mechanics, vol. 805, s. 303-321, 2016.

[113]

E. Appelquist et al., "Linear disturbances in the rotating-disk flow : A comparison between results from simulations, experiments and theory," European journal of mechanics. B, Fluids, vol. 55, s. 170-181, 2016.

[114]

J. Canton, P. Schlatter och R. Örlü, "Modal instability of the flow in a toroidal pipe," Journal of Fluid Mechanics, vol. 792, s. 894-909, 2016.

[115]

J. Canton et al., "On Large-Scale Friction Control in Turbulent Wall Flow in Low Reynolds Number Channels," Flow Turbulence and Combustion, vol. 97, no. 3, s. 811-827, 2016.

[116]

R. Vinuesa et al., "On determining characteristic length scales in pressure-gradient turbulent boundary layers," Physics of fluids, vol. 28, 2016.

[117]

R. Vinuesa et al., "On determining characteristic length scales in pressure-gradient turbulent boundary layers," Physics of fluids, vol. 28, no. 5, 2016.

[118]

E. Appelquist et al., "On the global nonlinear instability of the rotating-disk flow over a finite domain," Journal of Fluid Mechanics, vol. 803, s. 332-355, 2016.

[119]

A. Noorani et al., "Particle transport in turbulent curved pipe flow," Journal of Fluid Mechanics, vol. 793, s. 248-279, 2016.

[120]

J. Canton et al., "Reynolds number dependence of large-scale friction control in turbulent channel flow," Physical Review Fluids, vol. 1, no. 8, 2016.

[121]

C. Chin et al., "Simulation of a Large-Eddy-Break-up Device (LEBU) in a Moderate Reynolds Number Turbulent Boundary Layer," Flow Turbulence and Combustion, s. 1-16, 2016.

[122]

A. Noorani och P. Schlatter, "Swirl-switching phenomenon in turbulent flow through toroidal pipes," INTERNATIONAL JOURNAL OF HEAT AND FLUID FLOW, vol. 61, s. 108-116, 2016.

[123]

T. Khapko et al., "Turbulence collapse in a suction boundary layer," Journal of Fluid Mechanics, vol. 795, s. 356-379, 2016.

[124]

A. Stroh et al., "A comparison of opposition control in turbulent boundary layer and turbulent channel flow," Physics of fluids, vol. 27, no. 7, 2015.

[125]

R. Vinuesa et al., "Direct numerical simulation of the flow around a wall-mounted square cylinder under various inflow conditions," Journal of turbulence, vol. 16, no. 6, s. 555-587, 2015.

[126]

Y. Kametani et al., "Effect of uniform blowing/suction in a turbulent boundary layer at moderate Reynolds number," International Journal of Heat and Fluid Flow, vol. 55, s. 132-142, 2015.

[127]

A. Samanta et al., "Enhanced secondary motion of the turbulent flow through a porous square duct," Journal of Fluid Mechanics, vol. 784, s. 681-693, 2015.

[128]

A. Noorani och P. Schlatter, "Evidence of sublaminar drag naturally occurring in a curved pipe," Physics of fluids, vol. 27, no. 3, 2015.

[129]

E. Appelquist et al., "Global linear instability of the rotating-disk flow investigated through simulations," Journal of Fluid Mechanics, vol. 765, s. 612-631, 2015.

[130]

A. Peplinski, P. Schlatter och D. S. Henningson, "Global stability and optimal perturbation for a jet in cross-flow," European journal of mechanics. B, Fluids, vol. 49, s. 438-447, 2015.

[131]

G. Eitel-Amor et al., "Hairpin vortices in turbulent boundary layers," Physics of fluids, vol. 27, no. 2, 2015.

[132]

R. Vinuesa, P. Schlatter och H. M. Nagib, "On minimum aspect ratio for duct flow facilities and the role of side walls in generating secondary flows," Journal of turbulence, vol. 16, no. 6, s. 588-606, 2015.

[133]

A. Noorani et al., "Particle Velocity and Acceleration in Turbulent Bent Pipe Flows," Flow Turbulence and Combustion, vol. 95, no. 2-3, s. 539-559, 2015.

[134]

A. Bobke, R. Örlü och P. Schlatter, "Simulations of turbulent asymptotic suction boundary layers," Journal of turbulence, vol. 17, s. 157-180, 2015.

[135]

A. Cimarelli et al., "Sources and fluxes of scale energy in the overlap layer of wall turbulence," Journal of Fluid Mechanics, vol. 771, s. 407-423, 2015.

[136]

P. Lenaers et al., "A new high-order method for the simulation of incompressible wall-bounded turbulent flows," Journal of Computational Physics, vol. 272, s. 108-126, 2014.

[137]

E. Deusebio et al., "A numerical study of the unstratified and stratified Ekman layer," Journal of Fluid Mechanics, vol. 755, s. 672-704, 2014.

[138]

R. Vinuesa et al., "Aspect ratio effects in turbulent duct flows studied through direct numerical simulation," Journal of turbulence, vol. 15, no. 10, s. 677-706, 2014.

[139]

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.

[140]

R. Vinuesa et al., "Experiments and Computations of Localized Pressure Gradients with Different History Effects," AIAA Journal, vol. 52, no. 2, s. 368-384, 2014.

[141]

S. Sarmast et al., "Mutual inductance instability of the tip vortices behind a wind turbine," Journal of Fluid Mechanics, vol. 755, s. 705-731, 2014.

[142]

P. Schlatter et al., "On the near-wall vortical structures at moderate Reynolds numbers," European journal of mechanics. B, Fluids, vol. 48, s. 75-93, 2014.

[143]

G. Brethouwer et al., "Recurrent Bursts via Linear Processes in Turbulent Environments," Physical Review Letters, vol. 112, no. 14, s. 144502, 2014.

[144]

R. Vinuesa, P. Schlatter och H. M. Nagib, "Role of data uncertainties in identifying the logarithmic region of turbulent boundary layers," Experiments in Fluids, vol. 55, no. 6, s. 1751, 2014.

[145]

C. A. Daly et al., "Secondary instability and tertiary states in rotating plane Couette flow," Journal of Fluid Mechanics, vol. 761, s. 27-61, 2014.

[146]

G. Eitel-Amor, R. Örlü och 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, s. 57-69, 2014.

[147]

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, s. 349-359, 2014.

[148]

G. Sardina et al., "Statistics of Particle Accumulation in Spatially Developing Turbulent Boundary Layers," Flow Turbulence and Combustion, vol. 92, no. 1-2, s. 27-40, 2014.

[149]

R. Örlü et al., "The influence of temperature fluctuations on hot-wire measurements in wall-bounded turbulence," Experiments in Fluids, vol. 55, no. 7, s. 1781, 2014.

[150]

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, s. 012010, 2014.

[151]

L. Wei et al., "Universality and scaling phenomenology of small-scale turbulence in wall-bounded flows," Physics of fluids, vol. 26, no. 3, s. 035107, 2014.

[152]

R. Örlü och P. Schlatter, "Comparison of experiments and simulations for zero pressure gradient turbulent boundary layers at moderate Reynolds numbers," Experiments in Fluids, vol. 54, no. 6, s. 1547, 2013.

[153]

A. Talamelli et al., "Correcting hot-wire spatial resolution effects in third- and fourth-order velocity moments in wall-bounded turbulence," Experiments in Fluids, vol. 54, no. 4, s. 1496, 2013.

[154]

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G. Eitel-Amor, O. Flores och P. Schlatter, "Hairpin vortices in turbulent boundary layers," i Proceedings 1st Multiflow Summer Workshop, 2014, s. 012008.

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S. Sarmast et al., "Instability of the Helical Tip Vortices behind a Single Wind Turbine," i Wind Energy - Impact Of Turbulence, 2014, s. 165-174.

[297]

P. Schlatter och Q. Li, "Turbulent boundary layers in long computational domains," i Springer Proceedings in Physics, 2014, s. 91-96.

[298]

R. Vinuesa et al., "Direct numerical simulations of variable-aspect-ratio turbulent duct flows at low to moderate reynolds numbers," i International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2013, 2013.

[299]

M. Brynjell-Rahkola et al., "Modal analysis of roughness-induced crossflow vortices in a Falkner-Skan-Cooke boundary layer," i International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2013, 2013.

[300]

P. Schlatter et al., "On the near-wall vortical structures at moderate Reynolds numbers," i Proc. 7th National Conference on Computational Mechanics (MekIT’13), May 13–14, 2013, Trondheim, Norway, 2013, s. 15-37.

[301]

J. Åström et al., "Preparing scientific application software for exascale computing," i Applied Parallel and Scientific Computing : 11th International Conference, PARA 2012, Helsinki, Finland, June 10-13, 2012, Revised Selected Papers, 2013, s. 27-42.

[302]

L. Wei et al., "Scaling of small-scale motions in wall-bounded turbulent flows," i International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2013, 2013.

[303]

T. Kreilos et al., "Turbulence transition in the asymptotic suction boundary layer," i International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2013, 2013.

[304]

B. Rehill et al., "Identifying an Artificial Turbulent Spot in the Boundary Layer," i Progress in Turbulence and Wind Energy IV, 2012, s. 217-220.

[305]

G. Sardina et al., "Statistics of particle accumulation in spatially developing turbulent boundary layers," i THMT-12. Proceedings of the Seventh International Symposium On Turbulence Heat and Mass Transfer, 2012, s. 1715-1723.

[306]

G. Brethouwer et al., "Turbulence, instabilities and heat transfer in rotating channel flow simulations," i Proceedings of the International Symposium on Turbulence, Heat and Mass Transfer, 2012, s. 703-706.

[307]

R. Örlü och P. Schlatter, "Turbulent Boundary-Layer Flow : Comparing Experiments with DNS," i Progress in Turbulence and Wind Energy IV, 2012, s. 213-216.

[308]

A. Talamelli et al., "A method to correct third and fourth order moments in turbulent flows," i EUROMECH, 13th European Turbulence Conference, Sept. 12-15, Warsaw, 2011.

[309]

J. Malm, P. Schlatter och N. D. Sandham, "A vorticity stretching diagnostic for turbulent flows," i 7th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2011, 2011.

[310]

E. Deusebio et al., "Direct numerical simulations of stratified open channel flows," i 13th European Turbulence Conference (ETC13) : Wall-Bounded Flows And Control Of Turbulence, 2011, s. 022009.

[311]

G. Brethouwer, P. Schlatter och A. Johansson, "Effects of rapid spanwise rotation on turbulent channel flow with a passive scalar," i Proc. 7th International Symposium on Turbulence and Shear Flow Phenomena, 2011.

[312]

B. Rehill et al., "Identifying turbulent spots in transitional boundary layers," i Proc. ASME Turbo Expo, 2011, s. 1859-1868.

[313]

R. Örlü och P. Schlatter, "Inflow length and tripping effects in turbulent boundary layers," i 13TH European Turbulence Conference (ETC13) : Wall-Bounded Flows And Control Of Turbulence, 2011, s. 022018.

[314]

P. Schlatter et al., "Large-scale Simulations of Turbulence : HPC and Numerical Experiments," i 2011 Seventh IEEE International Conference on eScience, 2011, s. 319-324.

[315]

P. Lenaers et al., "Negative streamwise velocities and other rare events near the wall in turbulent flows," i 13th European Turbulence Conference (ETC13) : Wall-Bounded Flows And Control Of Turbulence, 2011, s. 022013.

[316]

G. Brethouwer, Y. Duguet och P. Schlatter, "Numerical study of turbulent-laminar patterns in MHD, rotating and stratified shear flows," i Direct and Large-Eddy Simulation VIII, 2011, s. 125-130.

[317]

Y. Tsuji et al., "Pressure fluctuation in high-Reynolds number turbulent boundary layer : results from experimentsand numerical simulations," i Proc. 7th International Symposium on Turbulence and Shear Flow Phenomena, 2011.

[318]

P. Schlatter et al., "Progress in simulations of turbulent boundary layers," i Proc. 7th International Symposium on Turbulence and Shear Flow Phenomena, 2011.

[319]

J. Ohlsson et al., "Stabilization of the Spectral-Element Method in Turbulent Flow Simulations," i Spectral and High Order Methods for Partial Differential Equations : Selected papers from the ICOSAHOM '09 conference, June 22-26, Trondheim, Norway, 2011, s. 449-458.

[320]

Y. Duguet och P. Schlatter, "Stochastic motion of a laminar/turbulent interface in a shear flow," i 13th European Turbulence Conference (ETC13). Warsaw, Poland. SEP 12-15, 2011, 2011.

[321]

P. Schlatter et al., "Structure of a turbulent boundary layer studied by DNS," i Direct and Large-Eddy Simulation VIII, 2011, s. 9-14.

[322]

G. Sardina et al., "Transport of inertial particles in turbulent boundary layers," i 13th European Turbulence Conference (ETC13) : Particles In Turbulence, Transport Processes And Mixing, 2011, s. 052020.

[323]

G. Brethouwer, P. Schlatter och A. Johansson, "Turbulence instabilities and passive scalars in rotating channel flow," i 13th European Turbulence Conference (ETC13) : Instability, Transition, Grid Turbulence And Jets, 2011, s. 032025.

[324]

P. Schlatter och R. Örlü, "Turbulent asymptotic suction boundary layers studied by simulation," i 13th European Turbulence Conference (ETC13) : Wall-Bounded Flows And Control Of Turbulence, 2011.

[325]

Q. Li, P. Schlatter och D. S. Henningson, "Comparison of SGS models for passive scalar mixing in turbulent channel flows," i Proceedings of Direct and Large-Eddy Simulation VIII : Eindhoven, The Netherlands, 2010, 2010, s. 131-136.

[326]

P. Schlatter och L. Brandt, "DNS of Spatially-Developing Three-Dimensional Turbulent Boundary Layers," i Direct and Large-Eddy Simulation VII, 2010, s. 57-63.

[327]

P. Schlatter och L. Brandt, "DNS of three-dimensional turbulent boundary layers," i Direct and Large-Eddy Simulation 7, Trieste - Italy, September 8-10, 2008, 2010.

[328]

Q. Li et al., "Direct numerical simulation of a turbulent boundary layer with passive scalar transport," i Direct and Large-Eddy Simulation 7, 2010, s. 321-327.

[329]

B. Rehill et al., "Entropy generation rate in turbulent spots in a boundary layer subject to freestream turbulence," i 7th IUTAM Symposium on Laminar-Turbulent Transition, 2010, s. 557-560.

[330]

P. Schlatter et al., "Interaction of noise disturbances and streamwise streaks," i SEVENTH IUTAM SYMPOSIUM ON LAMINAR-TURBULENT TRANSITION, 2010, s. 355-360.

[331]

C. Rowley et al., "Reduced-order models for flow control : balanced models and Koopman modes," i Seventh IUTAM Symposium on Laminar-Turbulent Transition, 2010, s. 43-50.

[332]

Y. Duguet, P. Schlatter och D. S. Henningson, "Stripy patterns in low-Re turbulent plane Couette flow," i SEVENTH IUTAM SYMPOSIUM ON LAMINAR-TURBULENT TRANSITION, 2010, s. 159-164.

[333]

A. Rasam et al., "Subgrid scalemodel and resolution influences in large eddy simulation of channel flow," i Direct and Large-Eddy Simulation 8, Eindhoven, The Netherlands, July 7-9 2010, 2010.

[334]

J. Ohlsson et al., "DNS of three-dimensional separation in turbulent diffuser flows," i ADVANCES IN TURBULENCE XII : PROCEEDINGS OF THE 12TH EUROMECH EUROPEAN TURBULENCE CONFERENCE, 2009, s. 641-644.

[335]

P. Schlatter et al., "High-Reynolds number turbulent boundary layers studied by numerical simulation," i Bulletin of the American Physical Society, 2009.

[336]

P. Schlatter, L. Brandt och R. de Lange, "Interaction of noise disturbances and streamwise streaks," i ADVANCES IN TURBULENCE XII : PROCEEDINGS OF THE 12TH EUROMECH EUROPEAN TURBULENCE CONFERENCE, 2009, s. 151-154.

[337]

Y. Duguet, P. Schlatter och D. S. Henningson, "Pattern formation in low Reynolds number plane Couette flow," i ADVANCES IN TURBULENCE XII : PROCEEDINGS OF THE 12TH EUROMECH EUROPEAN TURBULENCE CONFERENCE, 2009, s. 93-96.

[338]

Q. Li, P. Schlatter och D. S. Henningson, "Simulations of heat transfer in a boundary layer subject to free-stream turbulence," i 6th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2009, 2009, s. 195-200.

[339]

Q. Li, P. Schlatter och D. S. Henningson, "Simulations of heat transfer of a boundary layer subject to free-stream turbulence," i Turbulence and Shear Flow Phenomena 6, 2009, s. 195-200.

[340]

P. Schlatter et al., "Towards large-eddy simulations of high-Reynolds number turbulent boundary layers," i Proc. 6th Intl Symp. on Turbulence and Shear Flow Phenomena, 2009, s. 271-276.

[341]

P. Schlatter, H. C. de Lange och L. Brandt, "Numerical study of the stabilisation of Tollmien-Schlichting waves by finite amplitude streaks," i 5th International Symposium on Turbulence Shear Flow Phenomena, 2007, s. 849-854.

[342]

P. Schlatter, R. de Lange och L. Brandt, "The effect of free-stream turbulence on growth and breakdown of Tollmien-Schlichting waves," i ADVANCES IN TURBULENCE XI, 2007, s. 179-181.

Kapitel i böcker

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M. Atzori et al., "Effects of Different Friction Control Techniques on Turbulence Developing Around Wings," i ERCOFTAC Workshop Direct and Large Eddy Simulation : Direct and Large Eddy Simulation XII, : Springer, 2020, s. 305-311.

[344]

J. Canton, R. Örlü och P. Schlatter, "On stability and transition in bent pipes," i Direct and Large-Eddy Simulation XI, : Springer, 2019, s. 531-536.

[345]

E. Otero et al., "The effect of lossy data compression in computational fluid dynamics applications : Resilience and data postprocessing," i Direct and Large-Eddy Simulation XI, : Springer, 2019, s. 175-181.

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N. Offermans et al., "Towards Adaptive Mesh Refinement for the Spectral Element Solver Nek5000," i Direct and Large-Eddy Simulation XI, Maria Vittoria Salvetti, Vincenzo Armenio, Jochen Fröhlich, Bernard J. Geurts, Hans Kuerten red., 25. uppl. : Springer, 2019, s. 9-15.

Icke refereegranskade

Artiklar

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R. Örlü och P. Schlatter, "Comment on "Evolution of wall shear stress with Reynolds number in fully developed turbulent channel flow experiments"," Physical Review Fluids, vol. 5, no. 12, 2020.

[348]

A. Tanarro et al., "Enabling adaptive mesh refinement for spectral-element simulations of turbulence around wing sections," Flow Turbulence and Combustion, vol. 105, no. 2, s. 415-436, 2020.

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S. M. Hosseini et al., "Direct numerical simulation of the flow around a wing section at moderate Reynolds number," International Journal of Heat and Fluid Flow, vol. 61, s. 117-128, 2016.

Konferensbidrag

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F. Mallor et al., "Bayesian Optimisation of blowing and suction for drag reduction on a transonic airfoil," i Proceedings of the 14th ERCOFTAC Symp. on Engineering Turbulence Modelling and Measurements (ETMM14), Barcelona, Spain, 2023, s. 837-842.

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A. Peplinski et al., "12th International Conference on Spectral and High-Order Methods, ICOSAHOM 2018 : Pressure preconditioning and parallel performance," i Lecture Notes in Computational Science and Engineering, 2020, s. 599-609.

[352]

I. Ivanov et al., "Evaluating New Communication Models in the Nek5000 Code for Exascale," i EASC2015, 2015.

Kapitel i böcker

[353]

T. Mukha, G. Brethouwer och P. Schlatter, "Boundary Conditions for Wall-Modelled Large-Eddy Simulation Using Spectral Element Discretization," i ERCOFTAC Series, : Springer Science and Business Media B.V., 2024, s. 215-220.

[354]

V. Lupi, R. Örlü och P. Schlatter, "Direct Numerical Simulations of Turbulent Flow in Helical Pipes," i ERCOFTAC Series, : Springer Science and Business Media B.V., 2024, s. 362-367.

[355]

F. Mallor et al., "In-Situ Analysis of Backflow Events and Their Relation to Separation in Wings Through Well-Resolved LES," i ERCOFTAC Series, : Springer Science and Business Media B.V., 2024, s. 17-22.

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S. Toosi et al., "The Effect of Wing-Tip Vortices on the Flow Around a NACA0012 Wing," i ERCOFTAC Series, : Springer Science and Business Media B.V., 2024, s. 183-188.

[357]

J. Ohlsson et al., "The Spectral-Element and Pseudo-Spectral Methods : A Comparative Study," i Spectral and High Order Methods for Partial Differential Equations : Selected papers from the ICOSAHOM '09 conference, June 22-26, Trondheim, Norway, Jan S. Hesthaven; Einar M. Rønquist red., 1. uppl. : Springer, 2011, s. 459-467.

[358]

J. Ohlsson et al., "Large-Eddy Simulation of Turbulent Flow in a Plane Asymmetric Diffuser by the Spectral-Element Method," i Direct and Large-Eddy Simulation VII : Proceedings of the Seventh International ERCOFTAC Workshop on Direct and Large-Eddy Simulation, held at the University of Trieste, September 8-10, 2008, Vincenzo Armenio, Bernard Geurts; Jochen Fröhlich red., 1. uppl. : Springer, 2010, s. 193-199.

Rapporter

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K. Durovic et al., "Generation of Three-Dimensional Homogeneous Isotropic Turbulence," , 2022.

[360]

M. Atzori et al., "Blowing and suction applied to non-uniform adverse-pressure-gradient boundary layers," , 2021.

[361]

M. Atzori, R. Vinuesa och P. Schlatter, "Control effects on coherent structures in a non-uniform adverse-pressure-gradient boundary layer," , 2021.

[362]

F. Mallor et al., "Design and setup of a wing model in the Minimum-Turbulence-Level wind tunnel," , 2021.

[363]

Y. Fan et al., "Friction drag decomposition of the turbulent boundary layers on a NACA4412 airfoil under uniform blowing and suction," , 2021.

[364]

M. Atzori et al., "In-situ visualization of large-scale turbulence simulations in Nek5000 with ParaView Catalyst," , 2021.

[365]

S. Rezaeiravesh, R. Vinuesa och P. Schlatter, "A statistics toolbox for turbulent pipe flow in Nek5000," Stockholm : KTH Royal Institute of Technology, TRITA-SCI-RAP, 2019:008, 2019.

[366]

E. Kleusberg, P. Schlatter och D. Henningson, "Near-wake structure of the yawed wind turbine," , 2019.

[367]

N. Offermans, A. Peplinski och P. Schlatter, "Unsteady adjoint error estimators and adaptive mesh refinement in Nek5000," , 2019.

[368]

E. Kleusberg, P. Schlatter och D. Henningson, "Yaw optimization potential of wind turbines in sheared flows.," , 2019.

[369]

P. Negi, P. Schlatter och D. Henningson, "A re-examination of filter-based stabilization for spectral-element methods," , TRITA-MEK, 2017.

[370]

N. Offermans et al., "Adjoint error estimators and adaptive mesh refinement in Nek5000," , 2017.

[371]

E. Kleusberg et al., "High-order numerical simulations of wind turbine wakes," Stockholm : KTH Royal Institute of Technology, 2017.