Cases by Flow Type
Click on the flow type buttons below to expand/collapse lists of flows in each category.
Free Flows
Flows Around Bodies

case011 (Airfoil Boundary Layer and Wake)

case015 (Transitional Cascade Flow)

case043 (Vortex Shedding Past Square Cylinder)

case078 (Flow through staggered tube bundle)

case080 (Steady flow past tube bundles)

case086 (Surface pressure in normal triangular tube arrays)

case087 (Flow and deflection measurements of FSIinduced oscillation of two rigid structures in turbulent flows)

case088 (Combined flow and deformation measurements of FSIinduced oscillation of a bluff flexible structure in uniform flows)

case008 (WingBody Junction with Separation)

case027 (Infinite 35 degree swept wing)

case040 (Plane Wake Near a Swept Wing)

case041 (Flow Around SurfaceMounted Cubical Obstacle)

case063 (Wingbody junction flow)

case074 (Flow around inclined prolate spheroid)

case082 (Flow around a simplified car body (Ahmed body))

case084 (Turbulent boundary layer over a cube)

case043 (Vortex Shedding Past Square Cylinder)

case074 (Flow around inclined prolate spheroid)

case078 (Flow through staggered tube bundle)

case080 (Steady flow past tube bundles)

case082 (Flow around a simplified car body (Ahmed body))

case086 (Surface pressure in normal triangular tube arrays)

case087 (Flow and deflection measurements of FSIinduced oscillation of two rigid structures in turbulent flows)

case088 (Combined flow and deformation measurements of FSIinduced oscillation of a bluff flexible structure in uniform flows)
Semi Confined Flows

case005 (Unsteady Boundary Layer)

case009 (Natural Convection Boundary Layer)

case016 (Horizontal Convective Boundary Layer)

case019 (Boundary Layer with Adverse Pressure Gradient)

case020 (Flat Plate Transitional Boundary Layers)

case021 (Sink Flow Boundary Layer)

case029 (TimePeriodic Boundary Layer)

case033 (ConstantPressure Boundary Layer)

case050 (Boundary layer on the verge of separation)

case054 (Upslope and vertical convective boundary layer)

case073 (Flat plate transitional boundary layer)

case085 (Turbulent Stokes boundary layer)

case012 (Vortices in Boundary Layer)

case017 (Laterally Strained Boundary Layers)

case028 (PseudoEkman Boundary Layer)

case051 (Boundary layer in an Sshaped channel)

case057 (3Dimensional Boundary Layer Generated by a Spinning body)

case066 (Strained flow over a streamwise axially rotating cylinder)

case067 (Flow along a streamwise axially rotating cylinder)

case008 (WingBody Junction with Separation)

case041 (Flow Around SurfaceMounted Cubical Obstacle)

case042 (Flows over 3D and 2D Hills)

case063 (Wingbody junction flow)

case064 (Flow approaching a wallmounted circular cylinder)

case069 (Flow over isolated 2D hill)

case084 (Turbulent boundary layer over a cube)
Confined Flows

case010 (Couette Flow with Fixed Wavy Wall)

case018 (2D Model Hill Flows)

case022 (Boundary Layer in and Downstream from Convex Curvature)

case023 (Boundary Layer in a Concave Bend)

case030 (BackwardFacing Step with Inclined Opposite Wall)

case031 (BackwardFacing Step)

case053 (Backwardfacing inclined step)

case056 (Backwardfacing step with uniform normal bleed)

case076 (Flow over a wavy wall)

case077 (Separated turbulent flow over a wavy wall)

case078 (Flow through staggered tube bundle)

case079 (Turbulent natural convection in an enclosed tall cavity)

case080 (Steady flow past tube bundles)

case081 (Flow over Periodic Hills)

case083 (Wallmounted twodimensional hump with oscillatory zeromassflux jet or suction through a slot)

case086 (Surface pressure in normal triangular tube arrays)

case004 (Swirling and NonSwirling Flows in Curved Pipe)

case006 (SquareSectioned Duct 180 degree Bend)

case032 (Channel Flow)

case036 (Couette Flow with Plane Fixed Wall)

case037 (Pulsed Channel Flow)

case044 (2D Channel Flow with/without Scalar Transport)

case045 (2D Chanel Flow with/without Thermal Field)

case046 (Couette Flow with Plane Fixed Wall)

case052 (Duct flows with smooth and rough walls)

case062 (Developing flow in curved rectangular duct)

case071 (Turbulent plane Couette flow)

case072 (Turbulent pipe flow with swirl)

case093 (The CoLaPipe  The new Cottbus large pipe test facility at Brandenburg University of Technology)

case010 (Couette Flow with Fixed Wavy Wall)

case013 (Sudden Pipe Expansion)

case017 (Laterally Strained Boundary Layers)

case018 (2D Model Hill Flows)

case030 (BackwardFacing Step with Inclined Opposite Wall)

case031 (BackwardFacing Step)

case053 (Backwardfacing inclined step)

case056 (Backwardfacing step with uniform normal bleed)

case058 (Pipe constriction)

case060 (Swirling boundary layer in a conical diffuser)

case075 (Flow through axisymmetric expansions)

case076 (Flow over a wavy wall)

case077 (Separated turbulent flow over a wavy wall)

case081 (Flow over Periodic Hills)

case083 (Wallmounted twodimensional hump with oscillatory zeromassflux jet or suction through a slot)

case013 (Sudden Pipe Expansion)

case018 (2D Model Hill Flows)

case030 (BackwardFacing Step with Inclined Opposite Wall)

case031 (BackwardFacing Step)

case053 (Backwardfacing inclined step)

case056 (Backwardfacing step with uniform normal bleed)

case058 (Pipe constriction)

case075 (Flow through axisymmetric expansions)

case076 (Flow over a wavy wall)

case077 (Separated turbulent flow over a wavy wall)

case078 (Flow through staggered tube bundle)

case080 (Steady flow past tube bundles)

case081 (Flow over Periodic Hills)

case083 (Wallmounted twodimensional hump with oscillatory zeromassflux jet or suction through a slot)

case086 (Surface pressure in normal triangular tube arrays)

case044 (2D Channel Flow with/without Scalar Transport)

case045 (2D Chanel Flow with/without Thermal Field)

case079 (Turbulent natural convection in an enclosed tall cavity)

case090 (Viscous boundary layers in turbulent RayleighBenard convection)

case091 (Thermal boundary layers in turbulent RayleighBenard convection at aspect ratios between 1 and 9)