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  • Smooth body separation
  • Drag
  • Stability and control effectiveness
  • Maximum lift during approach/landing
  • Transonic and low speed buffet
  • ** Boundary layer ingestion for tightly coupled airframe/engine installations
  • Massive separation
  • Cavities
  • Extreme maneuvers
  • Blunt components
  • Dynamic stall
  • Laminar to turbulent boundary layer flow transition
  • Natural and hybrid laminar flow control
  • Viscous wake interactions  and boundary layer confluence
  • Multi-element, high-lift flows
  • Corner flows
  • Wing/body, wing/pylon, and pylon/nacelle juncture flows
  • Reattachment
  • Icing
  • Ice development and accretion
  • Performance impact
  • Circulation and flow separation control
  • Active flow control
  • Powered lift
  • Jet exhaust
  • Engine noise
  • Jet-flap interaction
  • Sonic fatigue
  • Airframe noise
  • High-lift
  • Landing gear
  • Vortical flows
  • Vortex generators/chines
  • Wake hazard reduction and avoidance
  • Wind tunnel to flight scaling
  • Reynolds number
  • Model characteristics: surface, brackets, aeroelastics

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  • Integrated propulsor/airframe flows
  • Unsteady flows due to turbomachinery blade row interactions 
    • Stage matching
    • Wake mixing
    • Compressor stability and rotating stall
  • Secondary flows, including endwall and tip vortical structures
  • Time-accurate coupled component interactions 
    • Multi-row rotor-stator interactions
    • Main gaspath/secondary gaspath interactions
    • Combustor exhaust product/turbine interactions including hot streak migration
  • Aerothermal cooling/mixing flows (e.g., film cooling)
  • Rotational and curvature effects on flow turbulence for rotating turbomachinery
  • Transitional flows over a wide range of Reynolds number, pressure gradient, and freestream turbulence
  • Real gas thermodynamic models for high temperature flows with dissociation
  • Reactive flows
  • Fuel spray modeling (two-phase flows, liquid fuel breakup, atomization, gaseous mixing)** Multi-regime combustion models** Emissions modeling** Vitiated flows** Combustion dynamics
  • Near-field acoustic sources and propagation to the acoustic farfield
  • Ice accretion
  • Distributed (electric) propulsion