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Publications by Ramis Örlü

Peer reviewed

Articles

[1]
F. Mallor et al., "Experimental characterization of turbulent boundary layers around a NACA 4412 wing profile," Experimental Thermal and Fluid Science, vol. 160, 2025.
[2]
F. Mallor et al., "High-fidelity simulations of the flow around a NACA 4412 wing section at high angles of attack," International Journal of Heat and Fluid Flow, vol. 110, 2024.
[4]
S. Pasch et al., "Measurements in a Turbulent Channel Flow by Means of an LDV Profile Sensor," Flow Turbulence and Combustion, vol. 113, no. 1, pp. 195-213, 2024.
[5]
V. Lupi et al., "Modal stability analysis of toroidal pipe flow approaching zero curvature," Journal of Fluid Mechanics, vol. 987, 2024.
[6]
M. Manami, S. Seddighi and R. Örlü, "Deep learning models for improved accuracy of a multiphase flowmeter," Measurement, vol. 206, pp. 112254, 2023.
[7]
A. Andreolli et al., "Separating large-scale superposition and modulation in turbulent channels," Journal of Fluid Mechanics, vol. 958, 2023.
[8]
A. Perez Martinez et al., "Appraisal of cavity hot-wire probes for wall-shear-stress measurements," Experiments in Fluids, vol. 63, no. 9, 2022.
[9]
P. Sujar Garrido, M. Becerra Garcia and R. Örlü, "Efficiency assessment of a single surface dielectric barrier discharge plasma actuator with an optimized Suzen–Huang model," Physics of fluids, vol. 34, no. 4, pp. 047110-047110, 2022.
[11]
X. Zheng et al., "Inter-scale interaction in pipe flows at high Reynolds numbers," Experimental Thermal and Fluid Science, vol. 131, 2022.
[13]
N. Tabatabaei et al., "RANS Modelling of a NACA4412 Wake Using Wind Tunnel Measurements," Fluids, vol. 7, no. 5, 2022.
[14]
L. H. von Deyn et al., "Ridge-type roughness : from turbulent channel flow to internal combustion engine," Experiments in Fluids, vol. 63, no. 1, 2022.
[15]
D. Gatti et al., "Spatial resolution issues in rough wall turbulence," Experiments in Fluids, vol. 63, no. 3, 2022.
[16]
N. Tabatabaei et al., "Techniques for Turbulence Tripping of Boundary Layers in RANS Simulations," Flow Turbulence and Combustion, vol. 108, no. 3, pp. 661-682, 2022.
[19]
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, pp. 470-477, 2020.
[20]
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.
[21]
J. Canton et al., "Critical Point for Bifurcation Cascades and Featureless Turbulence," Physical Review Letters, vol. 124, no. 1, 2020.
[22]
C. Sanmiguel Vila et al., "Experimental realisation of near-equilibrium adverse-pressure-gradient turbulent boundary layers," Experimental Thermal and Fluid Science, vol. 112, 2020.
[23]
R. Örlü and R. Vinuesa, "Instantaneous wall-shear-stress measurements : advances and application to near-wall extreme events," Measurement science and technology, vol. 31, no. 11, 2020.
[24]
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.
[25]
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.
[26]
S. Discetti et al., "Characterization of very-large-scale motions in high-Re pipe flows," Experimental Thermal and Fluid Science, pp. 1-8, 2019.
[30]
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, pp. 115-124, 2019.
[31]
[32]
E. Dogan et al., "Quantification of amplitude modulation in wall-bounded turbulence," Fluid Dynamics Research, vol. 51, no. 1, 2019.
[33]
Z. Wang et al., "Direct numerical simulation of a turbulent 90° bend pipe flow," International Journal of Heat and Fluid Flow, vol. 73, pp. 199-208, 2018.
[34]
J. A. Vernet, R. Örlü and P. H. Alfredsson, "Flow separation control by dielectric barrier discharge plasma actuation via pulsed momentum injection," AIP Advances, vol. 8, no. 7, 2018.
[35]
M. Bourgoin et al., "Investigation of the small-scale statistics of turbulence in the Modane S1MA wind tunnel," CEAS Aeronautical Journal, vol. 9, no. 2, pp. 269-281, 2018.
[36]
P. H. Alfredsson and R. Örlü, "Large-Eddy BreakUp Devices - a 40 Years Perspective from a Stockholm Horizon," Flow Turbulence and Combustion, vol. 100, no. 4, pp. 877-888, 2018.
[37]
J. A. Vernet et al., "Plasma Streamwise Vortex Generators for Flow Separation Control on Trucks A Proof-of-concept Experiment," Flow Turbulence and Combustion, vol. 100, no. 4, pp. 1101-1109, 2018.
[38]
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, pp. 589-612, 2017.
[39]
R. Vinuesa, R. Örlü and P. Schlatter, "Characterisation of backflow events over a wing section," Journal of Turbulence, vol. 18, no. 2, pp. 170-185, 2017.
[40]
J. Canton, R. Örlü and 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, pp. 95-107, 2017.
[41]
J. A. Vernet, R. Örlü and P. H. Alfredsson, "Flow separation control behind a cylindrical bump using dielectric-barrier-discharge vortex generator plasma actuators," Journal of Fluid Mechanics, vol. 835, pp. 852-879, 2017.
[42]
A. Bobke et al., "History effects and near equilibrium in adverse-pressure-gradient turbulent boundary layers," Journal of Fluid Mechanics, vol. 820, pp. 667-692, 2017.
[43]
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, pp. 823-835, 2017.
[44]
R. Vinuesa et al., "Revisiting history effects in adverse-pressure-gradient turbulent boundary layers," Flow Turbulence and Combustion, vol. 99, no. 3-4, pp. 565-587, 2017.
[45]
R. Örlü et al., "Reynolds stress scaling in pipe flow turbulence-first results from CICLoPE," Philosophical Transactions. Series A : Mathematical, physical, and engineering science, vol. 375, no. 2089, 2017.
[46]
L. Hufnagel et al., "The three-dimensional structure of swirl-switching in bent pipe flow," Journal of Fluid Mechanics, vol. 835, pp. 86-101, 2017.
[47]
Y. Ikeya et al., "Towards a theoretical model of heat transfer for hot-wire anemometry close to solid walls," International Journal of Heat and Fluid Flow, vol. 68, pp. 248-256, 2017.
[48]
R. Örlü and P. H. Alfredsson, "BINORMAL COOLING ERRORS IN SINGLE HOT-WIRE MEASUREMENTS," JOURNAL OF THEORETICAL AND APPLIED MECHANICS, vol. 54, no. 1, pp. 305-310, 2016.
[50]
R. Örlü et al., "High-order generalisation of the diagnostic scaling for turbulent boundary layers," Journal of Turbulence, vol. 17, no. 7, pp. 664-677, 2016.
[51]
J. Canton, P. Schlatter and R. Örlü, "Modal instability of the flow in a toroidal pipe," Journal of Fluid Mechanics, vol. 792, pp. 894-909, 2016.
[52]
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, pp. 811-827, 2016.
[54]
[55]
J. Canton et al., "Reynolds number dependence of large-scale friction control in turbulent channel flow," Physical Review Fluids, vol. 1, no. 8, 2016.
[57]
A. Kalpakli Vester, R. Örlü and P. H. Alfredsson, "Turbulent flows in curved pipes : Recent advances in experiments and simulations," Applied Mechanics Review, vol. 68, no. 5, 2016.
[58]
A. Kalpakli Vester, S. S. Sattarzadeh and R. Örlü, "Combined hot-wire and PIV measurements of a swirling turbulent flow at the exit of a 90° pipe bend," Journal of Visualization, 2015.
[59]
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, pp. 132-142, 2015.
[60]
R. Örlü and A. Kalpakli Vester, "Flow visualization of an oblique impinging jet : vortices like it downhill, not uphill," Journal of Visualization, 2015.
[61]
G. Eitel-Amor et al., "Hairpin vortices in turbulent boundary layers," Physics of fluids, vol. 27, no. 2, 2015.
[62]
A. Kalpakli Vester, R. Örlü and P. H. Alfredsson, "POD analysis of the turbulent flow downstream a mild and sharp bend," Experiments in Fluids, vol. 56, no. 3, 2015.
[63]
A. Kalpakli Vester, R. Örlü and P. H. Alfredsson, "Pulsatile Turbulent Flow in Straight and Curved Pipes - Interpretation and Decomposition of Hot-Wire Signals," Flow Turbulence and Combustion, vol. 94, no. 2, pp. 305-321, 2015.
[64]
J. Vernet, Ö. Ramis and P. H. Alfredsson, "Separation control by means of plasma actuation on a half cylinder approached by a turbulent boundary layer.," Journal of Wind Engineering and Industrial Aerodynamics, vol. 145, pp. 318-326, 2015.
[65]
A. Bobke, R. Örlü and P. Schlatter, "Simulations of turbulent asymptotic suction boundary layers," Journal of Turbulence, vol. 17, pp. 157-180, 2015.
[66]
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.
[67]
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.
[68]
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.
[69]
A. Talamelli et al., "A note on the effect of the separation wall in the initial mixing of coaxial jets," Experiments in Fluids, vol. 54, no. 3, pp. 1483, 2013.
[70]
R. Örlü and P. H. Alfredsson, "Comment on the scaling of the near-wall streamwise variance peak in turbulent pipe flows," Experiments in Fluids, vol. 54, no. 1, pp. 1431, 2013.
[71]
[73]
S. Sattarzadeh Shirvan, A. Kalpakli and R. Örlü, "Hot-Wire Calibration at Low Velocities : Revisiting the Vortex Shedding Method," Advances in Mechanical Engineering, vol. 2013, pp. 241726, 2013.
[74]
S. C. C. Bailey et al., "Obtaining accurate mean velocity measurements in high Reynolds number turbulent boundary layers using Pitot tubes," Journal of Fluid Mechanics, vol. 715, pp. 642-670, 2013.
[75]
P. H. Alfredsson et al., "Turbulent boundary layers over flat plates and rotating disks-The legacy of von Karman : A Stockholm perspective," European journal of mechanics. B, Fluids, vol. 40, pp. 17-29, 2013.
[76]
A. Kalpakli and R. Örlü, "Turbulent pipe flow downstream a 90 degrees pipe bend with and without superimposed swirl," International Journal of Heat and Fluid Flow, vol. 41, pp. 103-111, 2013.
[77]
A. Segalini, R. Örlü and P. H. Alfredsson, "Uncertainty analysis of the von Kármán constant," Experiments in Fluids, vol. 54, no. 2, pp. 1460, 2013.
[78]
A. Kalpakli Vester, R. Örlü and P. H. Alfredsson, "Vortical patterns in turbulent flow downstream a 90° curved pipe at high Womersley numbers," International Journal of Heat and Fluid Flow, vol. 44, pp. 692-699, 2013.
[79]
F. Laurantzon et al., "A flow facility for the characterization of pulsatile flows," Flow Measurement and Instrumentation, vol. 26, pp. 10-17, 2012.
[80]
P. H. Alfredsson, R. Örlü and A. Segalini, "A new formulation for the streamwise turbulence intensity distribution in wall-bounded turbulent flows," European journal of mechanics. B, Fluids, vol. 36, pp. 167-175, 2012.
[81]
A. Kalpakli, R. Örlü and P. H. Alfredsson, "Dean vortices in turbulent flows : rocking or rolling?," Journal of Visualization, vol. 15, no. 1, pp. 37-38, 2012.
[82]
P. Lenaers et al., "Rare backflow and extreme wall-normal velocity fluctuations in near-wall turbulence," Physics of fluids, vol. 24, no. 3, pp. 035110, 2012.
[83]
P. Schlatter and R. Örlü, "Turbulent boundary layers at moderate Reynolds numbers : inflow length and tripping effects," Journal of Fluid Mechanics, vol. 710, pp. 5-34, 2012.
[85]
P. H. Alfredsson, A. Segalini and R. Örlü, "A new scaling for the streamwise turbulence intensity in wall-bounded turbulent flows and what it tells us about the "outer" peak," Physics of fluids, vol. 23, no. 4, pp. 041702, 2011.
[86]
R. Örlü and P. Schlatter, "On the fluctuating wall-shear stress in zero pressure-gradient turbulent boundary layer flows," Physics of fluids, vol. 23, no. 2, pp. 021704, 2011.
[87]
A. Kalpakli et al., "Pulsatile turbulent flow through pipe bends at high Dean and Womersley numbers," Journal of Physics, Conference Series, vol. 318, pp. 092023, 2011.
[88]
R. Örlü and H. Alfredsson, "The life of a vortex in an axisymmetric jet," Journal of Visualization, vol. 14, no. 1, pp. 5-6, 2011.
[89]
P. H. Alfredsson, R. Örlü and P. Schlatter, "The viscous sublayer revisited-exploiting self-similarity to determine the wall position and friction velocity," Experiments in Fluids, vol. 51, no. 1, pp. 271-280, 2011.
[90]
P. Schlatter and R. Örlü, "Assessment of direct numerical simulation data of turbulent boundary layers," Journal of Fluid Mechanics, vol. 659, pp. 116-126, 2010.
[91]
R. Örlu, J. H. M. Fransson and P. H. Alfredsson, "On near wall measurements of wall bounded flows-The necessity of an accurate determination of the wall position," Progress in Aerospace Sciences, vol. 46, no. 8, pp. 353-387, 2010.
[92]
R. Örlü and P. H. Alfredsson, "On spatial resolution issues related to time-averaged quantities using hot-wire anemometry," Experiments in Fluids, vol. 49, no. 1, pp. 101-110, 2010.
[93]
P. Schlatter and R. Örlü, "Quantifying the interaction between large and small scales in wall-bounded turbulent flows : A note of caution," Physics of fluids, vol. 22, no. 5, pp. 051704, 2010.
[94]
P. H. Alfredsson and R. Örlü, "The diagnostic plot - a litmus test for wall bounded turbulence data," European journal of mechanics. B, Fluids, vol. 29, no. 6, pp. 403-406, 2010.
[95]
F. Laurantzon et al., "Time-resolved measurements with a vortex flowmeter in a pulsating turbulent flow using wavelet analysis," Measurement science and technology, vol. 21, no. 12, pp. 123001, 2010.
[96]
P. Schlatter et al., "Turbulent boundary layers up to Re-theta=2500 studied through simulation and experiment," Physics of fluids, vol. 21, no. 5, pp. 051702, 2009.
[97]
R. Örlü and P. H. Alfredsson, "An experimental study of the near-field mixing characteristics of a swirling jet," Flow Turbulence and Combustion, vol. 80, no. 3, pp. 323-350, 2008.
[98]
R. Örlü and P. H. Alfredsson, "Passive scalar flux measurements in the near-field region of a swirling jet," Heat Transfer Research, vol. 39, no. 7, pp. 597-607, 2008.

Conference papers

[99]
R. Örlü et al., "9th iTi Conference on Turbulence, iTi 2021,  Virtual, Online," in 9th iTi Conference on Turbulence, iTi 2021, Virtual, Online25 February 2021 through 26 February 2021, 2021, pp. v-viii.
[100]
N. Tabatabaei et al., "A new tripping method for RANS simulations of complex turbulent boundary layers," in The 13th International ERCOFTAC symposium on engineering, turbulence, modelling and measurements, 2021.
[101]
V. Venkataraman et al., "Modelling Considerations for Resistance Wire Thermometers Applied to Internal Combustion Engines," in SMSI 2021 - Sensors and Instrumentation, 2021, pp. 201-202.
[102]
H. Alfredsson, A. Segalini and R. Örlü, "The Diagnostic Plot—A Tutorial with a Ten Year Perspective," in Progress in Turbulence IX : Proceedings of the iTi Conference in Turbulence 2021, 2021, pp. 125-135.
[103]
N. Tabatabaei et al., "An effective method to reduce wall interference in subsonic wind tunnels," in The 73rd Annual Meeting of the APS Division of Fluid Dynamics, 2020.
[104]
F. Mallor et al., "Design and setup of a wing model in the Minimum-Turbulence-Level wind tunnel," in The 73rd Annual Meeting of the APS Division of Fluid Dynamics, 2020.
[105]
V. Venkataraman et al., "Resistance Wire Thermometers for Temperature Pulse Measurements on Internal Combustion Engines," in SMSI 2020 Conference-Sensor and Measurement Science International, 2020.
[106]
G. Eitel-Amor, R. Örlü and P. Schlatter, "The significance of hairpin vortices in turbulent boundary layers," in ETC 2013 - 14th European Turbulence Conference, 2020.
[107]
B. E. G. Fallenius et al., "Assessment of wall vibrations in the long pipe facility at CICLoPE," in Springer Proceedings in Physics, 2019, pp. 203-208.
[108]
C. Sanmiguel Vila et al., "Large-scale energy in turbulent boundary layers : Reynolds-number and pressure-gradient effects," in Springer Proceedings in Physics, 2019, pp. 69-74.
[109]
V. I. Borodulin et al., "Receptivity coefficients of vortex-vibrational type at excitation of 3D Tollmien-Schlichting waves in a boundary layer on a swept wing," in HIGH-ENERGY PROCESSES IN CONDENSED MATTER (HEPCM 2019): Proceedings of the XXVI Conference on High-Energy Processes in Condensed Matter, dedicated to the 150th anniversary of the birth of S.A. Chaplygin, 2019.
[110]
L. von Deyn et al., "Turbulent channel flows with secondary motions : A concerted DNS and experimental study," in 11th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2019, 2019.
[112]
[114]
[115]
C. Sanmiguel Vila et al., "Identifying well-behaved turbulent boundary layers," in Progress in Turbulence VII, 2017, pp. 67-72.
[116]
R. Örlü et al., "Preface," in Springer Proceedings in Physics, 2017, pp. v-vi.
[117]
R. Vinuesa et al., "Scaling of adverse-pressure-gradient turbulent boundary layers in near-equilibrium conditions," in Progress in Turbulence VII, 2017, pp. 73-78.
[118]
P. Schlatter et al., "Swirl Switching in bent pipes studied by numerical simulation," in 10th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2017, 2017.
[119]
R. Örlü et al., "Towards canonical adverse-pressure-gradient turbulent boundary layers," in 10th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2017, 2017.
[120]
P. Schlatter et al., "Transitional and turbulent bent pipes," in Progress in Turbulence VII, 2017, pp. 81-87.
[121]
T. Fiorini et al., "Turbulent pipe flow near-wall statistics," in Progress in Turbulence VII : Proceedings of the iTi Conference in Turbulence 2016, 2017, pp. 89-94.
[123]
Y. Kametani et al., "Effects of Uniform Blowing or Suction on the Amplitude Modulation in Spatially Developing Turbulent Boundary Layers," in ADVANCES IN COMPUTATION, MODELING AND CONTROL OF TRANSITIONAL AND TURBULENT FLOWS, 2016, pp. 185-194.
[124]
R. Örlü et al., "Generalization of the diagnostic plot to higher-order moments in turbulent boundary layers," in Springer Proceedings in Physics, 2016, pp. 333-338.
[125]
A. Bobke et al., "Large-eddy simulations of adverse pressure gradient turbulent boundary layers," in 2nd Multiflow Summer School on Turbulence, 2016.
[126]
A. Talamelli et al., "Temperature effects in hot-wire measurements on higher-order moments in wall turbulence," in Springer Proceedings in Physics, 2016, pp. 185-189.
[127]
A. Bobke, R. Örlü and P. Schlatter, "Turbulent asymptotic suction boundary layers : Effect of domain size and development time," in Springer Proceedings in Physics, 2016, pp. 173-177.
[128]
J. A. Vernet, R. Örlü and P. H. Alfredsson, "Turbulent boundary layer upstream, over and downstream a cylindrical 2D bump," in Springer Proceedings in Physics, 2016, pp. 279-283.
[129]
Y. Kametani et al., "Drag reduction in spatially developing turbulent boundary layer by blowing at constant mass-flux.," in Proc 9th Turbulence and Shear Flow Phenomena Conference,, 2015.
[130]
Y. Kametani et al., "Drag reduction in spatially developing turbulent boundary layers by blowing at constant mass-flux," in 9th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2015, 2015.
[131]
R. Örlü et al., "Generalized diagnostic scaling for high-order moments in turbulent boundary layers," in Proceedings - 15th European Turbulence Conference, ETC 2015, 2015.
[132]
P. Schlatter et al., "Large-scale friction control in turbulent wall flow," in 9th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2015, 2015.
[133]
J. Canton, P. Schlatter and R. Örlü, "Linear stability of the flow in a toroidal pipe," in 9th International Symposium on Turbulence and Shear Flow Phenomena, TSFP 2015, 2015.
[134]
J. Canton, R. Örlü and P. Schlatter, "Neutral stability of the flow in a toroidal pipe," in Proceedings - 15th European Turbulence Conference, ETC 2015, 2015.
[135]
C. Chin et al., "Simulation of a large-eddy-break-up device (LEBU) in a moderate Reynolds number turbulent boundary layer," in Proc 9th Turbulence and Shear Flow Phenomena Conference, 2015.
[136]
G. Eitel-Amor, R. Örlü and P. Schlatter, "Turbulent boundary layers in long computational domains," in Proceedings Ercoftac Workshop: Direct and Large-Eddy Simulation IX, 2015, pp. 267-274.
[137]
Y. Kametani et al., "Drag reduction in turbulent boundary layers: Effect of uniform blowing and suction.," in Proc. 10th Int. ERCOFTAC Symposium on Engineering Turbulence Modeling and Measurements (ETMM10), Marbella, Spain, Sept. 17–19, 2014., 2014, pp. 1-7.
[138]
S. Sattarzadeh Shirvan et al., "Revisiting the Near-Wall Scaling of the Streamwise Variance in Turbulent Pipe Flows," in PROGRESS IN TURBULENCE V, 2014, pp. 113-119.
[139]
A. Vester et al., "The characteristics of turbulence in curved pipes under highly pulsatile flow conditions," in Springer Proceedings in Physics, 2014, pp. 183-187.
[140]
D. G. Romano et al., "Design and tests of wind-tunnel sidewalls for receptivity experiments on a swept wing," in Mechanical and Aerospace Engineering IV : Volume 390, 2013, pp. 96-102.
[141]
P. Schlatter et al., "On the near-wall vortical structures at moderate Reynolds numbers," in Proc. 7th National Conference on Computational Mechanics (MekIT’13), May 13–14, 2013, Trondheim, Norway, 2013, pp. 15-37.
[142]
P. H. Alfredsson and R. Örlü, "A New Way to Determine the Wall Position and Friction Velocity in Wall-Bounded Turbulent Flows," in PROGRESS IN TURBULENCE AND WIND ENERGY IV, 2012, pp. 181-185.
[143]
F. Laurantzon et al., "Experimental analysis of turbocharger interaction with a pulsatile flow through time-resolved flow measurements upstream and downstream of the turbine," in Institution of Mechanical Engineers - 10th International Conference on Turbochargers and Turbocharging, 2012, pp. 405-415.
[144]
A. Kalpakli et al., "Experimental investigation on the effect of pulsations on exhaust manifold-related flows aiming at improved efficiency," in Institution of Mechanical Engineers - 10th International Conference on Turbochargers and Turbocharging, 2012, pp. 377-387.
[145]
R. Örlü and P. Schlatter, "Turbulent Boundary-Layer Flow : Comparing Experiments with DNS," in Progress in Turbulence and Wind Energy IV, 2012, pp. 213-216.
[146]
A. Talamelli et al., "A method to correct third and fourth order moments in turbulent flows," in EUROMECH, 13th European Turbulence Conference, Sept. 12-15, Warsaw, 2011.
[147]
P. H. Alfredsson, R. Örlü and A. Segalini, "A new formulation for the streamwise turbulence intensity distribution," in 13th European Turbulence Conference (ETC13) : Wall-Bounded Flows And Control Of Turbulence, 2011, p. 022002.
[148]
R. Örlü and P. Schlatter, "Inflow length and tripping effects in turbulent boundary layers," in 13TH European Turbulence Conference (ETC13) : Wall-Bounded Flows And Control Of Turbulence, 2011, p. 022018.
[149]
P. Lenaers et al., "Negative streamwise velocities and other rare events near the wall in turbulent flows," in 13th European Turbulence Conference (ETC13) : Wall-Bounded Flows And Control Of Turbulence, 2011, p. 022013.
[150]
P. Schlatter et al., "Progress in simulations of turbulent boundary layers," in Proc. 7th International Symposium on Turbulence and Shear Flow Phenomena, 2011.
[151]
P. Schlatter and R. Örlü, "Turbulent asymptotic suction boundary layers studied by simulation," in 13th European Turbulence Conference (ETC13) : Wall-Bounded Flows And Control Of Turbulence, 2011.
[152]
R. Örlü et al., "Effect of oblique waves on jet turbulence," in SEVENTH IUTAM SYMPOSIUM ON LAMINAR-TURBULENT TRANSITION, 2010, pp. 541-544.
[153]
A. Segalini, R. Örlü and P. H. Alfredsson, "Experimental study on the use of the wake instability as a passive control in coaxial jet flows," in Seventh IUTAM Symposium on Laminar-Turbulent Transition, 2010, pp. 361-366.
[154]
R. Örlü, J. H. M. Fransson and P. H. Alfredsson, "On imperfect hot-wire resolution issues and their effect on mean quantities," in ADVANCES IN TURBULENCE XII : PROCEEDINGS OF THE 12TH EUROMECH EUROPEAN TURBULENCE CONFERENCE, 2009, pp. 605-608.
[155]
P. H. Alfredsson et al., "The diagnostic plot : a new way to appraise turbulent boundary-layer data," in ADVANCES IN TURBULENCE XII : PROCEEDINGS OF THE 12TH EUROMECH EUROPEAN TURBULENCE CONFERENCE, 2009, pp. 609-612.
[156]
A. Segalini et al., "The effect of oblique waves on jet turbulence," in Progress in Turbulence III, 2009, pp. 231-234.
[157]
R. Örlü et al., "Turbulence Enhancement in Coaxial Jet Flows by Means of Vortex Shedding," in PROGRESS IN TURBULENCE III, 2009, pp. 235-238.
[158]
R. Örlü et al., "On the passive control of the near-field of coaxial jets by means of vortex shedding," in Int. Conf. on Jets, Wakes and Separated Flows, ICJWSF-2, September 16-19, 2008, Technical University of Berlin, Germany, 2008, pp. 1-16.
[159]
R. Örlü et al., "Passive control of mixing in a coaxial jet," in Proc. 7th Int. ERCOFTAC Symp. on Engineering Turbulence Modelling and Measurements (ETMM7), 2008, pp. 450-455.

Chapters in books

[160]
J. Canton, R. Örlü and P. Schlatter, "On stability and transition in bent pipes," in Direct and Large-Eddy Simulation XI, : Springer, 2019, pp. 531-536.
[161]
R. Örlü et al., "Preface," in Computer Algebra and Differential Equations, Evelyne Tournier Ed., : Cambridge University Press (CUP), 2019, pp. v-vi.
[162]
A. Segalini et al., "The Streamwise Turbulence Intensity – A Comparison between Smooth and Rough Wall Turbulent Boundary Layers," in Progress in Turbulence V : Proceedings of the iTi Conference in Turbulence 2012, : Springer, 2014, pp. 97-101.

Non-peer reviewed

Articles

Conference papers

[164]
A. Kalpakli et al., "Experimental investigation on the effect of pulsations on turbulent flow through a 90degrees pipe bend," in Proc. of 3rd Int. Conf. on Jets, Wakes & Separated Flows 2010, 2010.
[165]
J. H. M. Fransson et al., "Turbulence Measurements with hot-wires in high Reynolds number boundary layers," in Bulletin of the American Physical Society, 62nd Annual meeting of the APS Div. Fluid Dyn. Minneapolis, Minnesota. Nov. 22-24 2009, 2009.

Chapters in books

[166]
V. Lupi, R. Örlü and P. Schlatter, "Direct Numerical Simulations of Turbulent Flow in Helical Pipes," in ERCOFTAC Series, : Springer Science and Business Media B.V., 2024, pp. 362-367.
[167]
F. Mallor et al., "In-Situ Analysis of Backflow Events and Their Relation to Separation in Wings Through Well-Resolved LES," in ERCOFTAC Series, : Springer Science and Business Media B.V., 2024, pp. 17-22.
[168]
R. Örlü et al., "Preface," in Springer Proceedings in Physics, : Springer Science and Business Media Deutschland GmbH, 2024.
[169]
R. Vinuesa and R. Örlü, "Measurement of wall-shear stress," in Experimental Aerodynamics, : CRC Press, 2017, pp. 393-428.

Theses

[170]
R. Örlü, "Experimental studies in jet flows and zero pressure-gradient turbulent boundary layers," Doctoral thesis Stockholm : KTH, Trita-MEK, 2009:08, 2009.
[171]
R. Örlü, "Experimental study of passive scalar mixing in swirling jet flows," Licentiate thesis Stockholm : KTH, Trita-MEK, 2006:11, 2006.

Reports

[173]
R. Örlü, N. Tillmark and P. H. Alfredsson, "Measured critical size of roughness elements," Internal Publication, FP7–AAT-2010-RTD-1 265094 RECEPT, 2021.

Other

[179]
[181]
A. Kalpakli Vester, R. Örlü and P. H. Alfredsson, "High Womersley number pulsatile turbulent flow past a straight and bent pipe," (Manuscript).
[192]
[193]
V. Lupi, R. Örlü and P. Schlatter, "Turbulence characteristics of flows in helical pipes," (Manuscript).
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