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dc.contributor.advisorThompson, David S.
dc.contributor.authorMogili, Prasad.
dc.date2004
dc.date.accessioned2020-09-16T21:14:13Z
dc.date.available2020-09-16T21:14:13Z
dc.identifier.urihttps://hdl.handle.net/11668/20331
dc.description.abstractA computational investigation was performed to assess the effectiveness of Detached-Eddy Simulation (DES) as a tool for predicting icing effects. The AVUS code was employed to compute solutions for an iced wing configuration using DES and steady-state Reynolds Averaged Navier-Stokes (RANS) equation methodologies. The model wing was an extruded GLC305/944-ice shape section with a rectangular planform. Unstructured grids were generated using VGRID/GRIDTOOL. The one-equation Spalart-Allmaras turbulence model was used for all steady state RANS and DES computations. The numerical results were evaluated by comparison with experimental data. RANS solutions significantly under-predicted the lift and drag even after mesh refinement. The time-averaged DES computations showed some improvement in lift and drag coefficients, when compared to experimental data near stall at a 6 deg angle of attack. No significant improvement was observed at lower angles of attack. The DES computations were determined to be valid, since significant changes in the flow field were not observed after both mesh refinement and time step refinement.
dc.publisherMississippi State University
dc.subject.lccAirplanes--Wings--Effect of low temperature on.
dc.subject.lccAngle of attack (Aerodynamics)
dc.subject.lccReynolds number.
dc.subject.otherDES
dc.subject.otherIced aircraft wing
dc.subject.otherRANS
dc.titleRANS and DES Computations for a Three-Dimensional Wing with ICE Accretion
dc.typeThesis
dc.publisher.departmentDepartment of Aerospace Engineering.
dc.publisher.collegeBagley College of Engineering
dc.subject.degreeMaster of Science
dc.subject.majorAerospace Engineering
dc.contributor.committeeBridges, David H.
dc.contributor.committeeCinnella, Pasquale


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