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| Year | Author | Title | Application / Industry | TRL | DOI | Link |
|---|---|---|---|---|---|---|
| 1978 | Walsh | Drag And Heat Transfer On Surfaces With Small Longitudinal Fins | Fluid dynamics | Research | 10.2514/6.1978-1161 | Link |
| 1980 | Walsh | Drag Characteristics Of V Groove And Transverse Curvature Riblets | Drag Reduction | Research | 10.2514/5.9781600865466.0168.0184 | Link |
| 1983 | Walsh | Riblets As A Viscous Drag Reduction Technique | Drag Reduction | Research | 10.2514/3.60126 | Link |
| 1985 | Lindemann | Turbulent Reynolds Analogy Factors For Nonplanar Surface Microgeometries | Aeronautic | Research | 10.2514/3.25782 | Link |
| 1986 | Walsh | Riblets For Aircraft Skin Friction Reduction | Aviation | Development | 10.1098/rsta.2010.0359 | Link |
| 1987 | Reidy | Flat Plate Drag Reduction In A Water Tunnel Using Riblets | Naval | Development | ||
| 1988 | Khalid | Use Of Riblets To Obtain Drag Reduction On Airfoils At High Reynolds Number Flows | Aeronautic | Development | 10.4233/uuid:ef03c257-b721-4850-a6a3-78971f99a255 | Link |
| 1988 | Tani | Drag Reduction By Riblet Viewed As Roughness Problem | Fluid dynamics | Research | 10.2183/pjab.64.21 | Link |
| 1989 | Bechert, M. Bartenwerfer | The Viscous Flow On Surfaces With Longitudinal Ribs | Fluid dynamics | Research | 10.1017/S0022112089002247 | Link |
| 1989 | Choi | Near Wall Structure Of A Turbulent Boundary Layer With Riblets | Fluid dynamics | Research | 10.1017/S0022112089002892 | Link |
| 1990 | Bushnell, Hefner | Viscous Drag Reduction In Boundary Layers | Aeronautic | Research | 10.2514/4.865978 | Link |
| 1990 | Liu et. al. | Drag Reduction In Pipes Lined With Riblets | Aeronautic | Research | 10.1007/978-3-642-50971-1_45 | Link |
| 1990 | Walsh | Effect Of Detailed Surface Geometry On Riblet Drag Reduction Performance | Aeronautic | Research | 10.2514/3.25323 | Link |
| 1991 | Luchin et. al. | Resistance Of A Grooved Surface To Parallel Flow And Cross Flow | Fluid dynamics | Research | 10.1007/978-3-642-85463-7_32 | Link |
| 1991 | Nakao | Application Of V Shape Riblets To Pipe Flows | Fluid dynamics | Research | 10.1115/1.2926519 | Link |
| 1991 | VanDerHoeven, Beschert | Experiments With A1 - 4.2 Model Of A Commuter Aircraft With Riblets In A Large Wind Tunnel | Aviation | Development | 10.1007/978-94-011-3526-9_1 | Link |
| 1992 | Zuniga et. al. | Flight Test Results Of Riblets At Supersonic Speeds | Aviation | Development | ||
| 1993 | Nieuwstadt et. al. | The Reduction Of Skin Friction By Riblets Under Influence Of An Adverse Pressure Gradient | Fluid dynamics | Development | 10.1007/BF00195591 | Link |
| 1994 | Tullis, Pollard | Time Dependent Flow Over V And U Groove Riblets Of Different Sizes | Fluid dynamics | Research | 10.1063/1.868298 | Link |
| 1995 | Alving, Freeberg | The Effect Of Riblets On Sails | Drag Reduction | Development | 10.1007/BF00190257 | Link |
| 1995 | Bach et. al. | The Effect Of Riblets In Stagnation Point Flow | Fluid dynamics | Research | ||
| 1995 | Goldstein et. al. | Direct Numerical Simulation Of Turbulent Flow Over A Modelled Riblet Covered Surface | Channel flow | Development | 10.1017/S0022112095004125 | Link |
| 1996 | Coustols | Control Of Turbulent Flows For Skin Friction Drag Reduction | Aviation | Research | 10.1007/978-3-7091-2688-2_4 | Link |
| 1996 | Funk, Würz | Experimentelle Untersuchungen Zur Widerstandsverminderung Durch Riblets Am Tragfluegelprofil Eines Segelflugzeugs Der Standardklasse | Aviation | Development | ||
| 1997 | Bechert et. al. | Biological Surfaces And Their Technological Application - Laboratory And Flight Experiments On Drag Reduction And Separation Control | Aviation and Gas Pipeline | Development | 10.2514/6.1997-1960 | Link |
| 1997 | Bechert et. al. | Experiments on drag reducing surfaces and their optimization with an adjustable geometry | Drag Reduction | Development | 10.1017/S0022112096004673 | Link |
| 1997 | Dubief | The Measurement Of du-dy In A Turbulent Boundary Layer Over A Riblet Surface | Fluid dynamics | Research | 10.1016/S0142-727X(96)00091-4 | Link |
| 1997 | Lutz, Wagner | Drag Reduction And Shape Optimization Of Airship Bodies | Aeronautic | Development | 10.2514/2.2313 | Link |
| 1998 | Gyr | Natural Low Frequency Riblets | Fluid dynamics | Research | 10.1023/A:1009990129943 | Link |
| 1998 | Konovalov et. al. | Effect Of Riblets On The Drag Of A Body Of Revolution With Trailing Edge Flow Separation | Drag Reduction | Research | 10.1007/BF02698171 | Link |
| 1998 | Raju, Viswanath | Base Drag Reduction Caused By Riblets On AGAW (2) Airfoil | Drag Reduction | Research | 10.2514/2.2403 | Link |
| 2000 | Bechert et. al. | Experiments With Three Dimensional Riblets As An Idealized Model Of Shark Skin | Fluid dynamics | Research | 10.1007/s003480050400 | Link |
| 2000 | Bechert et. al. | Fluid Mechanics Of Biological Surfaces And Their Technological Application | Aviation | Development | 10.1007/s001140050696 | Link |
| 2000 | Hage et. al. | Yaw Angle Effects On Optimized Riblets | Drag Reduction | Research | 10.1007/978-3-540-45359-8_29 | Link |
| 2000 | Hall, Joseph | Rotating Cylinder Drag Balance With Application To Riblets | Drag Reduction | Research | 10.1007/s003489900075 | Link |
| 2000 | Ninnemann, Wing | Loss Reduction Using Riblets On A Supersonic Through Flow Fan Blade Cascade | Fluid dynamics | Development | 10.1115/1.1667883 | Link |
| 2000 | Wang et. al. | Experimental Study On The Turbulent Boundary Layer Flow Over Riblets Surface | Turbulent Flow | Research | Link | |
| 2001 | Lee, Lee | Flow Field Analysis Of A Turbulent Boundary Layer Over A Riblet Surface | Turbulent Flow | Research | 10.1007/s003480000150 | Link |
| 2001 | Pauly | What Is A Shark Doing In This Pump | Fluid dynamics | Research | 10.1016/S0262-1762(01)80387-4 | Link |
| 2001 | Stanewsky | Adaptive Wing And Flow Control Technology | Aviation | Development | 10.1016/S0376-0421(01)00017-3 | Link |
| 2001 | Truong | Drag Reduction Technologies | Submarine | Research | ||
| 2002 | Boese, Fottner | Effects Of Riblets On The Loss Behaviour Of A Highly Loaded Compressor Cascade | Compressor | Development | 10.1115/GT2002-30438 | Link |
| 2002 | Kim, Kim | Nanostructured Surfaces For Dramatic Reduction Of Flow Resistance In Droplet Based Microfluidics | Microchannels | Research | 10.1109/MEMSYS.2002.984306 | Link |
| 2002 | Koeltzsch et. al. | Flow Over Convergent And Divergent Wall Riblets | Channel flow | Research | 10.1007/s00348-002-0446-3 | Link |
| 2002 | Viswanath | Aircraft Viscous Drag Reduction Using Riblets | Aviation | Development | 10.1016/S0376-0421(02)00048-9 | Link |
| 2003 | Cipolla, Keith | High Reynolds Number Thick Axisymmetric Turbulent Boundary Layer Measurements | Drag Reduction | Research | 10.1007/s00348-003-0706-x | Link |
| 2003 | Han et.al. | Fabrication Of A Micro Riblet Film And Drag Reduction Effects On Curved Objects | Drag Reduction | Development | 10.1109/SENSOR.2003.1215337 | Link |
| 2004 | Reneaux | Overview On Drag Reduction Technologies For Civil Transport Aircraft | Aviation | Research | ||
| 2005 | EI-Samni et.al. | Turbulent Flow Over Thin Rectangular Riblets | Channel flow | Research | 10.1007/BF02984192 | Link |
| 2005 | Indinger | Einfluss Eines Positiven Druckgradienten Auf Turbulente Grenzschichten An Glatten Und Gerillten Oberflaechen | Fluid dynamics | Research | ||
| 2005 | Litvinenko et.al. | The Influence Of Riblets On The Development Of A L Structure And Its Transformation Into A Turbulent Spot | Fluid dynamics | Research | 10.1134/S1028335806030128 | Link |
| 2005 | Lokhov et.al. | Controlling The Development Of Stationary Longitudinal Structures In The Boundary Layer On A Flat Plate Using Riblets | Fluid dynamics | Research | 10.1007/s10808-005-0101-x | Link |
| 2006 | Bechert, Hage | Drag Reduction With Riblets In Nature And Engineering | Aviation | Research | 10.2495/1-84564-095-0/5g | |
| 2006 | Chernoray et. al. | Effect Of Riblets On Nonlinear Disturbances In The Boundary Layer | Fluid dynamics | Research | 10.1134/S1531869906010072 | Link |
| 2006 | Hongwei et. al. | Influences Of A Kind Of Groove Blade On The Flow Field In A Compressor Cascade | Aviation | Research | 10.1007/s11630-006-0193-5 | Link |
| 2006 | Oehlert, Seume | Exploratory Experiments On Machined Riblets On Compressor Blades | Compressor | Research | 10.1115/FEDSM2006-98093 | Link |
| 2006 | Rapp et. al. | Microstructured Surfaces For Drag Reduction Purposes - Experiments And Simulations On Rectangular 2D Riblets | Fluid dynamics | Research | 10.1557/PROC-0899-N08-08 | Link |
| 2006 | Sinha, Ravande | Drag Reduction Of Natural Laminar Flow Airfoils With A Flexible Surface Deturbulator | Aviation | Development | 10.2514/6.2006-3030 | Link |
| 2007 | El-Samni et. al. | Drag Reduction Of Turbulent Flow Over Thin Rectangular Riblets | Fluid dynamics | Research | 10.1016/j.ijengsci.2007.03.002 | Link |
| 2007 | Hirt, Thome | Large Area Rolling Of Functional Metallic Micro Structures | Aviation | Research | 10.1007/s11740-007-0067-z | Link |
| 2007 | Klocke et. al. | Development Of An Incremental Rolling Process For The Production Of Defined Riblet Surface Structures | Aviation (Turbine) | Development | 10.1007/s11740-007-0031-y | |
| 2007 | Peet et. al. | Turbulent Drag Reduction Using Three Dimensional Structured Surfaces | Fluid dynamics | Research | Link | |
| 2007 | Sidelko | Benchmark Of Aerodynamic Cycling Helmets Using A Refined Wind Tunnel Test Protocol For Helmet Drag Research | Sport | Development | Link | |
| 2007 | Thome, Hirt | Economical And Ecological Benefits Of Process Integrated Surface Structuring | Rolling of Riblets | Development | 10.4028/www.scientific.net/KEM.344.939 | Link |
| 2008 | GarciaMayoral, Jimenez | Physical Mechanisms For Turbulent Drag Reduction In Riblet Like Surfaces | Fluid dynamics | Research | ||
| 2008 | Hirt, Thome | Rolling Of Functional Metallic Surface Structures | Aviation | Research | 10.1016/j.cirp.2008.03.034 | Link |
| 2008 | Keck | Experimentelle Untersuchungen Zur Wirksamkeit Von Riblets In Verzoegerten Grenzschichten | Development | Link | ||
| 2008 | Kern | Red Bull Racing - Its Different | Air Racing | Development | ||
| 2008 | Peet et. al. | Turbulent Drag Reduction Using Sinusoidal Riblets With Triangular Cross Section | Sinusoidal Riblets | Research | 10.2514/6.2008-3745 | Link |
| 2009 | Benhamza, Belaid | Computation Of Turbulent Channel Flow With Variable Spacing Riblets | Channel flow | Research | ||
| 2009 | Martinez-Val, Perez | Aeronautics And Astronautics - Recent Progress And Future Trends | Aeronautics, Aviation | Research | 10.1243/09544062JMES1546 | Link |
| 2009 | Song et. al. | A Method For Testing Drag Reduction On Riblet Surfaces Based On The Spalding Formula | Testing | Research | 10.1007/s11804-009-8073-5 | Link |
| 2010 | Chernoray et. al. | Spatial Hot Wire Visualization Of The L Structure Transformation Into The Turbulent Spot On The Smooth Plate Surface And Riblet Effect On This Process | Turbulent Flow | Research | 10.1007/s12650-009-0004-7 | Link |
| 2010 | Dean, Bhushan | Shark Skin Surfaces For Fluid Drag Reduction In Turbulent Flow - A Review | Turbulent Flow | Research | 10.1098/rsta.2010.0201 | Link |
| 2010 | Denkena et. al. | Manufacturing Of Functional Riblet Structures By Profile Grinding | Riblets Manufacturing | Research | ||
| 2010 | Friedmann | The Optimal Shape Of Riblets In The Viscous Sublayer | Fluid dynamics | Research | 10.1007/s00021-008-0284-z | |
| 2010 | Grueneberger, Hage | Drag Characteristics Of Longitudinal And Transverse Riblets At Low Dimensionless Spacings | Riblets types | Research | 10.1007/s00348-010-0936-7 | Link |
| 2010 | Klumpp et. al. | Numerical Simulation Of Riblet Controlled Spatial Transition In A Zero Pressure Gradient Boundary Layer | Fluid dynamics | Research | 10.1007/978-3-642-04665-0_23 | Link |
| 2010 | Spalart, McClean | Drag Reduction - Enticing Turbulence And Then An Industry | Aviation and Shipping | Research | 10.1098/rsta.2010.0369 | Link |
| 2010 | Stenzel et. al. | Drag Reducing Paints For The Reduction Of Fuel Consumption In Aviation And Shipping | Aviation | Development | 10.1016/j.porgcoat.2010.09.026 | Link |
| 2010 | Zhang et. al. | Numerical Simulation On Drag Reduction Of Revolution Body Through Bionic Riblet Surface | Fluid dynamics | Research | 10.1007/s11431-010-4140-z | Link |
| 2010 | Zhu et. al. | Research On Optimization Design Of Bottom Angle Of Drag Reducing Structure On The Riblets Surface | Fluid dynamics | Research | 10.1007/978-3-642-16530-6_5 | Link |
| 2011 | Ali, Al-Fatlawie | Drag Reduction In Turbulent Flow Using Different Kinds Of Riblets | Fluid dynamics | Research | ||
| 2011 | Bhushan, Jung | Natural And Biomimetic Artificial Surfaces For Superhydrophobicity Self Cleaning Low Adhesion And Drag Reduction | Surfaces analysis | Research | 10.1016/j.pmatsci.2010.04.003 | Link |
| 2011 | Chamorro et. al. | On The Skin Friction Drag Reduction In Large Wind Turbines Using Sharp V Grooved Riblets | Wind Turbines | Development | 10.2514/6.2011-351 | Link |
| 2011 | Friedmann, Richter | Optimal Microstructures Drag Reducing Mechanism Of Riblets | Fluid dynamics | Research | 10.1007/s00021-010-0033-y | Link |
| 2011 | Garcia-Mayoral, Jim | Drag Reduction By Riblets | Fluid dynamics | Research | 10.1098/rsta.2010.0359 | Link |
| 2011 | Garcia-Mayoral, Jim | Hydrodynamic Stability And Breakdown Of The Viscous Regime Over Riblets | Fluid dynamics | Research | 10.1017/jfm.2011.114 | Link |
| 2011 | Gomez-de-Segura et. al. | Manipulation Of Near Wall Turbulence By Surface Slip And Permeability | Fluid dynamics | Research | Link | |
| 2011 | Hansen et. al. | Replication Of Micro And Nano Surface Geometries | Surface types analisis | Research | 10.1016/j.cirp.2011.05.008 | Link |
| 2011 | Jahanmiri | Aircraft Drag Reduction - An Overview | Aviation | Research | ||
| 2011 | Saaren et. al. | Drag Reduction Using Riblet Film Applied To Airfoils For Wind Turbines | Wind Turbines | Research | 10.1115/1.4024982 | Link |
| 2011 | SAFL | Reducing Wind Turbine Blade Drag Using Riblet Film | Wind Turbines | Research | Link | |
| 2012 | Bixler, Bhushan | Shark Skin Inspired Low Drag Microstructured Surfaces In Closed Channel Flow | Channel flow | Development | 10.1016/j.jcis.2012.10.061 | Link |
| 2012 | Daguenet-Frick et. al. | Experimental Analysis Of The Turbulent Flow Behavior Of A Textured Surface Proposed For Asymmetric Heat Exchangers | Heat Transfer | Research | 10.1007/s10494-012-9387-y | Link |
| 2012 | Grueneberger | Experimente Zur Wirkungsverbesserung Von Ribletstrukturen Durch Einbringen Einer Quergeschwindigkeitskomponente | Fluid dynamics | Research | Link | |
| 2012 | Grueneberger et. al. | Influence Of Wave Like Riblets On Turbulent Friction Drag | Wave like Riblets | Research | 10.1007/978-3-642-28302-4_19 | Link |
| 2012 | Meyer et. al. | Aerodynamic Drag Modeling Of Alpine Skiers Performing Giant Slalom Turns | Ski-snow friction | Research | 10.1249/MSS.0b013e3182443315 | Link |
| 2012 | Sareen | Drag Reduction Using Riblet Film Applied To Airfoils For Wind Turbines | Wind Turbines | Research | 10.1115/1.4024982 | Link |
| 2013 | Bixler, Bhushan | Fluid Drag Reduction With Shark Skin Riblet Inspired Microstructured Surfaces | Fluid dynamics | Research | 10.1002/adfm.201203683 | Link |
| 2013 | Chamorro | Drag Reduction Of Large Wind Turbine Blades Through Riblets - Evaluation Of Riblet Geometry And Application Strategies | Wind Turbines | Development | 10.1016/j.renene.2012.09.001 | Link |
| 2013 | Chen et. al. | Biomimetic Drag Reduction Study On Herringbone Riblets Of Bird Feather | Fluid dynamics | Research | 10.1016/S1672-6529(13)60229-2 | Link |
| 2013 | Choi | Smart Flow Control With Riblets | Research, application and manufacturing of riblets | Research | 10.4028/www.scientific.net/AMR.745.27 | Link |
| 2013 | Hage et. al. | Investigation Of The Wear Properties Of A Riblet Paint Structure On An Airbus A300 - 600ST Beluga | Aviation | Research | 10.1007/978-3-642-35680-3_23 | Link |
| 2013 | Kramer et. al. | Investigation Of Oscillating Riblets For Turbulent Drag Reduction | Fluid dynamics | Research | 10.1007/978-3-642-35680-3_24 | Link |
| 2013 | Lietmeyer | Berechnungsmodell Zur Widerstandsbeeinflussung Nicht Idealer Riblets Auf Verdichterschaufeln | Development | 10.15488/8117 | Link | |
| 2013 | Lietmeyer et. al. | Optimal Application Of Riblets On Compressor Blades And Their Contamination Behaviour | Compressor | Research | 10.1115/1.4006518 | Link |
| 2013 | Lietmeyer et. al. | Recent Advances In Manufacturing Of Riblets On Compressor Blades And Their Aerodynamic Impact | Compressor | Research | 10.1115/1.4007590 | Link |
| 2013 | Hungwey, Wey | Experimental Investigation Of Effects Of Distributed Riblets On Aerodynamic Performance Of A Low Speed Compressor | Compressor | Research | 10.1007/s11630-013-0667-1 | Link |
| 2013 | Saravi, Chenj | A Review Of Drag Reduction By Riblets And Micro Textures In The Turbulent Boundary Layers | Fluid dynamics | Research | 10.19044/esj.2013.v9n33p%25p | Link |
| 2013 | Vodopyanov et. al. | Turbulent Drag Reduction By Spanwise Oscillations Of A Ribbed Surface | Fluid dynamics | Research | 10.1134/S0015462813040054 | Link |
| 2014 | Chen et. Al. | Flow Over Bio Inspired 3D Herringbone Wall Riblets | Fluid dynamics | Research | 10.1007/s00348-014-1698-4 | Link |
| 2014 | Kim | Assessment Of Hydro Oleophobicity For Shark Skin Replica With Riblets | Fluid dynamics and Coating | Development | 10.1166/jnn.2014.9570 | Link |
| 2014 | Martin, Bhushan | Fluid Flow Analysis Of A Shark Inspired Microstructure | Fluid dynamics | Research | 10.1017/jfm.2014.447 | Link |
| 2014 | Nadesan et. al. | Quasi Streamwise Counter Rotating Vortices Generated By Convergent Riblets In A Flat Plate Boundary Layer | Flow visualization on flat plate boundary layer | Research | 10.1007/s12650-014-0210-9 | Link |
| 2014 | Naraparaju et. al. | High Temperature Oxidation Stability OfAerodynamicallyOptimisedRibletsForBladesOfAeroEngineApplications | Aviation | Research | 10.1007/s11085-014-9512-5 | Link |
| 2014 | Sasamori et. al. | Experimental Study On Drag Reduction Effect Due To Sinusoidal Riblets In Turbulent Channel Flow | Channel flow | Research | 10.1007/s00348-014-1828-z | Link |
| 2014 | Zhao, Duncan | Energy Amplification Of Streamwise Constant Channel Flow Over Riblets | Channel flow | Research | 10.3182/20140824-6-ZA-1003.00337 | Link |
| 2014 | Zhao et. al. | Study On The Hydrophobic Property Of Shark Skin Inspired Micro Riblets | Hydrophobicity Properties | Research | 10.1016/S1672-6529(14)60046-9 | Link |
| 2015 | Boomsma, Sotiropoulos | Riblet Drag Reduction In Mild Adverse Pressure Gradients - A Numerical Investigation | Turbulent Flow | Research | 10.1016/j.ijheatfluidflow.2015.07.022 | Link |
| 2015 | Greidanus et. al. | Turbulent Taylor Couette Flow Over Riblets - Drag Reduction And The Effect Of Bulk Fluid Rotation | Turbulent Flow | Research | s00348-015-1978-7 | Link |
| 2015 | Hergt et. al. | Riblet Application In Compressors - Toward Efficient Blade Design | Compressor | Development | 10.1115/1.4031090 | Link |
| 2015 | Mele et. al. | Effect Of Riblets On A Complex Configuration In Transonic Conditions | Fluid dynamics | Research | 10.2514/6.2018-1260 | Link |
| 2015 | Taher et. al. | Effects Of Circular Riblets Rough Microchannel On Friction And Fluid Flow Using LBM | Microchannels, Fluid dynamics | Research | 10.1016/j.proeng.2015.05.029 | Link |
| 2015 | Yang et. al. | Coherent Spanwise Structures In Turbulent Boundary Layer Over Drag Reducing Riblets | Fluid dynamics | Research | 10.1007/s12209-015-2526-5 | Link |
| 2015 | Yang et. al. | Tomographic PIV Investigation On Coherent Vortex Structures Over Shark Skin Inspired Drag Reducing Riblets | Fluid dynamics | Research | 10.1007/s10409-015-0541-3 | Link |
| 2015 | Zhou et. al. | Numerical Simulation Of Effect Of Bionic V Riblet Non Smooth Surface On Tire Anti Hydroplaning | Tire Hydroplanning | Research | 10.1007/s11771-015-2934-7 | Link |
| 2016 | Ancrum | Measurements Of The Effects Of Streamwise Riblets On The Turbulence Structures In Boundary Layers | Turbulent Flow | Research | 10.22215/etd/2016-11663 | Link |
| 2016 | Bonnivard et. al. | On The Influence Of Wavy Riblets On The Slip Behaviour Of Viscous Fluids | Fluid dynamics | Research | 10.1007/s00033-015-0614-y | Link |
| 2016 | Denkena et. al. | Tools And Strategies For Grinding Of Riblets On Freeformed Compressor Blades | Compressor | Development | ||
| 2016 | Kim et. al. | CFD Prediction Of Aerodynamic Drag Acting On Alpine Downhill Skier | Ski | Research | Link | |
| 2016 | Martin, Bhushan | Fluid Flow Analysis Of Continuous And Segmented Riblet Structures | Fluid dynamics | Research | 10.1039/C5RA20944G | Link |
| 2016 | Mele et. al. | Analyses Of Non Local Effects Of Riblets | Fluid dynamics | Research | 10.1007/BF03404731 | Link |
| 2017 | Ancrum, Yaras | Measurements Of The Effects Of Streamwise Riblets On Boundary Layer Turbulence | Turbulent Flow | Research | 10.1115/1.4037044 | Link |
| 2017 | Benschop, Breugem | Drag Reduction By Herringbone Riblet Texture In Direct Numerical Simulations Of Turbulent Channel Flow | Turbulent Channel Flow | Research | 10.1080/14685248.2017.1319951 | Link |
| 2017 | Fu et. al. | Marine Drag Reduction Of Shark Skin Inspired Riblet Surfaces | Fluid dynamics | Research | 10.1016/j.bsbt.2017.02.001 | |
| 2017 | Gu et. al. | Characteristics And Mechanism Investigation On Drag Reduction Of Oblique Riblets | Fluid dynamics | Research | 10.1007/s11771-017-3542-5 | Link |
| 2017 | Koepplin et. al. | Correlation Based Riblet Model For Turbomachinery Applications | Turbomachinery | Research | 10.1115/1.4035605 | Link |
| 2017 | Li | Experimental Investigation Of Passive And Active Friction Drag Reduction | Fluid dynamics | Research | 10.18154/RWTH-2017-10471 | Link |
| 2017 | MacDonald et. al. | Predicting The Performance Of Riblets In A Minimal Channel | Channel flow | Research | ||
| 2017 | Sasamori et. al. | Parametric Study On A Sinusoidal Riblet For Drag Reduction By Direct Numerical Simulation | Fluid dynamics, Channel flow | Research | 10.1007/s10494-017-9805-2 | Link |
| 2017 | Seo et. al. | Turbulent Flows Over Superhydrophobic Surfaces - Flow Induced Capillary Waves And Robustness Of Air Water Interfaces | Turbulent Flow | Research | 10.1017/jfm.2017.733 | Link |
| 2017 | Vinuesa, Örlür | Measurement Of Wall Shear Stress | Fluid dynamics | Research | Link | |
| 2018 | Bilinsky et. al. | Direct Contactless Microfabrication For Application Of Drag Reducing Onto Aerospace Vehicles Utilizing UV Curable Allophanate Structures | Aviation | Research | ||
| 2018 | Bonnivard, Suarez-Grau | Homogenization Of A Large Eddy Simulation Model For Turbulent Fluid Motion Near A Rough Wall | Turbulent Flow | Research | 10.1007/s00021-018-0389-y | Link |
| 2018 | Garcia-Mayoral et. al. | The Control Of Near Wall Turbulence Through Surface Texturing | Turbulent Flow | Research | Link | |
| 2018 | Gomez-de-Segura et. al. | Manipulation Of Near Wall Turbulence By Surface Slip And Permeability | Turbulent Flow | Research | Link | |
| 2018 | Gomez-de-Segura et. al. | Turbulent Drag Reduction Using Anisotropic Permeable Substrates | Turbulent Flow | Research | 10.1017/jfm.2019.482 | Link |
| 2018 | Li, Liu | Two Point Statistics Of Coherent Structures In Turbulent Flow Over Riblet Mounted Surfaces | Turbulent Flow | Research | 10.1007/s10409-018-0828-2 | Link |
| 2018 | Liversage, Trancossi | Analysis Of Triangular Sharkskin Profiles According To Second Law | Turbulent Flow | Research | 10.18280/mmc-b.870311 | |
| 2018 | Mele, Tognaccini | Slip Length Based Boundary Condition For Modeling Drag Reduction Devices | Fluid dynamics | Research | 10.2514/1.J056589 | Link |
| 2018 | Miyazaki et. al. | Biomimetic Riblets Inspired By Sharkskin Denticles - Digitizing Modeling And Flow Simulation | Fluid dynamics, Turbulent Flow | Research | 10.1007/s42235-018-0088-7 | Link |
| 2018 | Nafar-Sefiddashti et. al. | Experimental Study Of Effects Of Circular Cross Section Riblets On The Aerodynamic Performance Of Riso Airfoil At Transient Flow Regime | Fluid dynamics | Research | 10.1007/s12206-018-0119-z | Link |
| 2018 | Okabayashii et. al. | Direct numerical simulation of turbulent flow above zigzag riblets | Turbulent Flow | Research | 10.1063/1.5049714 | Link |
| 2018 | Radmanesh et. al. | Experimental Study Of Square Riblets Effects On Delta Wing Using Smoke Visualization And Force Measurement | Fluid dynamics | Research | 10.1007/s12650-018-0472-8 | Link |
| 2018 | Ustinov | Control Of Laminar Turbulent Transition On A Swept Wing Using Surface Microreliefs | Fluid dynamics | Research | 10.1134/S001546281806023X | Link |
| 2019 | Aberrahaman-Elena et. al. | Modulation Of Near Wall Turbulence In The Transitionally Rough Regime | Turbulent Flow | Research | 10.1017/jfm.2019.41 | Link |
| 2019 | Bilinsky | Direct Contactless Microfabrication Of 3D Riblets-Improved Capability And Metrology | 10.2514/6.2019-1626 | Link | ||
| 2019 | Huang et. al. | Experimental Study On Laser Assisted Belt Grinding Of Shark Skin Bio Inspired Riblets Under Different Surface Roughness | 10.1016/j.procir.2020.05.152 | Link | ||
| 2019 | Liu et. al. | Effects Of Bio Inspired Micro Scale Surface Patterns On The Profile Losses In A Linear Cascade | 10.1115/1.4044612 | Link | ||
| 2019 | Nafar-Sefiddashti et. al. | Visualization Of Flow Over A Thick Airfoil With Circular Cross Sectional Riblets At Low Reynolds Numbers | 10.1007/s12650-019-00576-3 | Link | ||
| 2019 | Smith et. al. | Computational Simulation Of 3D Riblets For Skin Friction Drag Reduction | 10.2514/6.2019-1627 | Link | ||
| 2019 | Takahashi et. al. | Evaluation Of Skin Friction Drag Reduction In the Turbulent Boundary Layer Using Riblets | 10.3390/app9235199 | Link | ||
| 2019 | VonDeyn et. al. | Riblets In Fully Developed Turbulent Channel Flow - An Experimental Campaign | Link | |||
| 2019 | Zhang, Yin | Study On Riblet Drag Reduction Considering The Effect Of Sweep Angle | 10.3390/en12173386 | Link | ||
| 2019 | Zhou et. al. | Modeling Of Turbulence Drag Reduction With Riblets | 10.1007/978-981-13-3305-7_50 | Link | ||
| 2020 | Brownlie | Aerodynamic Drag Reduction In Winter Sports - The Quest For Free Speed | 10.1177/1754337120921091 | Link | ||
| 2020 | Catalano et. al. | Performance Improvements Of A Regional Aircraft By Riblets And Natural Laminar Flow | 10.2514/1.C035445 | Link | ||
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