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NASA NTRS · Conference Paper
An Iterative Decambering Approach for Post-Stall Prediction of Wing Characteristics using known Section Data
Attribution
This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Langley Research Center.
Abstract
Verbatim from NASA NTRS. Not paraphrased, not summarized.
An iterative decambering approach for the post stall prediction of wings using known section data as inputs is presented. The method can currently be used for incompressible .ow and can be extended to compressible subsonic .ow using Mach number correction schemes. A detailed discussion of past work on this topic is presented first. Next, an overview of the decambering approach is presented and is illustrated by applying the approach to the prediction of the two-dimensional C(sub l) and C(sub m) curves for an airfoil. The implementation of the approach for iterative decambering of wing sections is then discussed. A novel feature of the current e.ort is the use of a multidimensional Newton iteration for taking into consideration the coupling between the di.erent sections of the wing. The approach lends itself to implementation in a variety of finite-wing analysis methods such as lifting-line theory, discrete-vortex Weissinger's method, and vortex lattice codes. Results are presented for a rectangular wing for a from 0 to 25 deg. The results are compared for both increasing and decreasing directions of a, and they show that a hysteresis loop can be predicted for post-stall angles of attack.
Authors
- Mukherjee, Rinku North Carolina State Univ.
- Gopalarathnam, Ashok North Carolina State Univ.
- Kim, Sung Wan NASA Langley Research Center
Citation: Mukherjee, Rinku, Gopalarathnam, Ashok, Kim, Sung Wan (2019). An Iterative Decambering Approach for Post-Stall Prediction of Wing Characteristics using known Section Data. Langley Research Center. NASA NTRS ID 20040085758. https://ntrs.nasa.gov/citations/20040085758 ↗