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Influence of the Wind Tunnel Model Mounting on the Wake Evolution of the Common Research Model in Post Stall Read chapter Read first chapter

2021 | OriginalPaper | Chapter

Influence of Surface Irregularities on the Expected Boundary-Layer Transition Location on Hybrid Laminar Flow Control Wings

Authors : Juan Alberto Franco Sumariva, Alexander Theiss, Stefan Hein

Published in: New Results in Numerical and Experimental Fluid Mechanics XIII

Publisher: Springer International Publishing

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Abstract

Hybrid laminar flow control (HLFC) is a promising concept to reduce the viscous drag on aircraft wings by shifting the expected laminar-turbulent transition (LTT) location downstream. However, the structural joint between the leading edge suction panel and the wing box can diminish this desirable shift in LTT location and thus reduce the efficiency of the HLFC system. This paper introduces a toolchain, which allows to numerically quantify the detrimental effects of two-dimensional surface irregularities for transonic HLFC swept wings at free-flight Reynolds numbers. A backward-facing step and two different gaps are studied, which resemble possible structural joint geometries currently considered within the HLFC-WIN project. The stability analysis performed with the Adaptive Harmonic Linearized Navier-Stokes (AHLNS) approach reveals that none of the three irregularities affects the expected LTT location, suggesting that there might be some potential to relax the surface tolerances initially specified in the HLFC-WIN project using classical criteria.

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previous chapter Aeroelastic Behavior of a Laminar Wing in Transonic Flow
next chapter Transition Prediction and Analysis of the CRM-NLF Wing with the DLR TAU Code
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Metadata
Title
Influence of Surface Irregularities on the Expected Boundary-Layer Transition Location on Hybrid Laminar Flow Control Wings
Authors
Juan Alberto Franco Sumariva
Alexander Theiss
Stefan Hein
Copyright Year
2021
Book
New Results in Numerical and Experimental Fluid Mechanics XIII

Print ISBN: 978-3-030-79560-3

Electronic ISBN: 978-3-030-79561-0

Copyright Year: 2021

DOI
https://doi.org/10.1007/978-3-030-79561-0_17

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