论文信息 - Implications of Conical Flow for Laminar Wing Design and Analysis

Implications of Conical Flow for Laminar Wing Design and Analysis

In this work a method based on sectional conical wings is presented which allows the analysis and design of airfoil sections for swept tapered wings with a computational effort which is slightly higher than a 2D computation. Navier-Stokes analysis and re-design examples using the sectional conical wing approximation are given. They show that pressure distribution, boundary layer stability analysis and designed airfoil geometry compare better with the 3D swept tapered wing solution than results obtained using solutions based on infinite swept wing theory. In the second part of the work the transversal flow incompressible solution for a conical wing with circular airfoil section is given. For small cone angles sectional conical solutions are obtained. The crossflow instability significant stagnation line velocity is obtained. It corresponds to an effective leading edge sweep angle which is twice the cone angle. An extension of this equation is obtained and verified for usual transport aircraft 3D wings by parametric studies varying airfoil section, root to tip thickness and leading edge radius.

Richard L. Campbell | Fedime von Knoblauch zu Hatzbach | Thomas Streit | Georg Wichmann

[1] Arne Seitz,et al. Design Studies on NLF and HLFC Applications at DLR , 2010 .

[2] R. Hall. The Application of Non‐Integral Legendre Functions to Potential Problems , 1949 .

[3] A. Jameson,et al. Numerical calculation of the transonic flow past a swept wing. [FLO 22] , 1977 .

[4] Daniel Arnal,et al. Numerical Analysis of Natural Laminar Flow on Forward Swept Wings , 2010 .

[5] Flow and Force Equations for a Body Revolving in a Fluid , 1979 .

[6] Olaf Brodersen,et al. Airbus, ONERA, and DLR Results from the Second AIAA Drag Prediction Workshop , 2005 .

[7] Cheinway Hwang,et al. Fully normalized spherical cap harmonics: Application to the analysis of sea-level data from TOPEX/POSEIDON and ERS-1 , 1997 .

[8] L. Tuckerman. Inertia Factors of Ellipsoids for Use in Airship Design , .

[9] Uwe Fey,et al. Transonic High Reynolds Number Transition Experiments in the ETW Cryogenic Wind Tunnel , 2010 .

[10] G. Redeker,et al. Forward sweep - A favorable concept for a laminar flow wing , 1991 .

[11] Jens K. Fassbender,et al. MEGAFLOW - Numerical Flow Simulation for Aircraft Design , 2005 .

[12] Melissa B. Rivers,et al. Assessment of the National Transonic Facility for Laminar Flow Testing , 2010 .