Ricardo Vinuesa
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The role of artificial intelligence in achieving the Sustainable Development Goals
R Vinuesa, H Azizpour, I Leite, M Balaam, V Dignum, S Domisch, ...
Nature communications 11 (1), 1-10, 2020
Aspect ratio effects in turbulent duct flows studied through direct numerical simulation
R Vinuesa, A Noorani, A Lozano-Durán, GKE Khoury, P Schlatter, ...
Journal of Turbulence 15 (10), 677-706, 2014
Direct numerical simulation of the flow around a wing section at moderate Reynolds number
SM Hosseini, R Vinuesa, P Schlatter, A Hanifi, DS Henningson
International Journal of Heat and Fluid Flow 61, 117-128, 2016
Obtaining accurate mean velocity measurements in high Reynolds number turbulent boundary layers using Pitot tubes
SCC Bailey, M Hultmark, JP Monty, PH Alfredsson, MS Chong, ...
Journal of Fluid Mechanics 715, 642-670, 2013
Predictions of turbulent shear flows using deep neural networks
PA Srinivasan, L Guastoni, H Azizpour, P Schlatter, R Vinuesa
Physical Review Fluids 4 (5), 054603, 2019
History effects and near equilibrium in adverse-pressure-gradient turbulent boundary layers
A Bobke, R Vinuesa, R Örlü, P Schlatter
J. Fluid Mech 820, 667-692, 2017
Secondary flow in turbulent ducts with increasing aspect ratio
R Vinuesa, P Schlatter, HM Nagib
Physical Review Fluids 3 (5), 054606, 2018
Convergence of numerical simulations of turbulent wall-bounded flows and mean cross-flow structure of rectangular ducts
R Vinuesa, C Prus, P Schlatter, HM Nagib
Meccanica 51 (12), 3025-3042, 2016
On determining characteristic length scales in pressure-gradient turbulent boundary layers
R Vinuesa, A Bobke, R Örlü, P Schlatter
Physics of fluids 28 (5), 055101, 2016
Direct numerical simulation of the flow around a wall-mounted square cylinder under various inflow conditions
R Vinuesa, P Schlatter, J Malm, C Mavriplis, DS Henningson
Journal of Turbulence 16 (6), 555-587, 2015
Turbulent boundary layers around wing sections up to Rec= 1,000,000
R Vinuesa, PS Negi, M Atzori, A Hanifi, DS Henningson, P Schlatter
International Journal of Heat and Fluid Flow 72, 86-99, 2018
Characterization of the secondary flow in hexagonal ducts
O Marin, R Vinuesa, AV Obabko, P Schlatter
Physics of Fluids 28 (12), 125101, 2016
Pressure-gradient turbulent boundary layers developing around a wing section
R Vinuesa, SM Hosseini, A Hanifi, DS Henningson, P Schlatter
Flow, turbulence and combustion 99 (3), 613-641, 2017
On the identification of well-behaved turbulent boundary layers
C Sanmiguel Vila, R Vinuesa, S Discetti, A Ianiro, PC Schlatter, R Örlü
Cambridge University Press, 2017
Adverse-pressure-gradient effects on turbulent boundary layers: statistics and flow-field organization
CS Vila, R Örlü, R Vinuesa, P Schlatter, A Ianiro, S Discetti
Flow, turbulence and combustion 99 (3), 589-612, 2017
On minimum aspect ratio for duct flow facilities and the role of side walls in generating secondary flows
R Vinuesa, P Schlatter, HM Nagib
Journal of Turbulence 16 (6), 588-606, 2015
Characterisation of backflow events over a wing section
R Vinuesa, R Örlü, P Schlatter
Journal of turbulence 18 (2), 170-185, 2017
Experiments and computations of localized pressure gradients with different history effects
R Vinuesa, PH Rozier, P Schlatter, HM Nagib
AIAA journal 52 (2), 368-384, 2014
Enhanced secondary motion of the turbulent flow through a porous square duct
A Samanta, R Vinuesa, I Lashgari, P Schlatter, L Brandt
J. Fluid Mech 784, 681-693, 2015
New insight into flow development and two dimensionality of turbulent channel flows
R Vinuesa, E Bartrons, D Chiu, KM Dressler, JD Rüedi, Y Suzuki, ...
Experiments in fluids 55 (6), 1-14, 2014
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