Publication detail
Energy efficient active control of the flow past an aircraft wing: RANS and LES evaluation
SKAROLEK, V. KARAMPELAS, S.
Czech title
Energeticky efektivní aktivní řízení proudění podél křídla letadla: RANS a LES hodnocení
English title
Energy efficient active control of the flow past an aircraft wing: RANS and LES evaluation
Type
journal article in Web of Science
Language
en
Original abstract
Numerical simulations of the flow past a NACA 0015 wing with active control have been performed. The Reynolds number of the flow based on the wing's chord is Re = 2.5 × 106. The configuration proposed in this study does not follow the conventional active control methodology past wings. Large blowing surfaces and low jet velocity magnitudes are considered and the energy efficiency of such configuration is examined for a number of variants. The present actuation reduces the profile drag of the wing and influences the flow mainly in two dimensions. Maximum drag decrease could be close to 40% at low angles of attack, with still positive energy income. Supportive Large Eddy Simulations at Re = 2.2 × 105 verify the trends of this control, which are predicted by Reynolds Averaged Navier–Stokes modelling.
Czech abstract
Byla provedena numerická simulace proudění kolem křídla s aktivním řízením. Reynoldsovo číslo je Re=2.5x106 vztaženo k délce tětivy. V tomto článku navrhovaná konfigurace nesleduje konvenční metodologii aktivního řízení. Jsou uvažovány velké plochy vyfukování a nízké rychlosti trysek a je zjištěna energetická efektivita této konfigurace. Jsou navrženy strategie pro snížení odporu a zvýšení vztlaku založené na změnách parametrů. Předkládané aktivní řízení proudu snižuje profilový odpor křídla a ovlivňuje proud ve dvou rozměrech. Maximální snížení odporu může být až 40% při nízkých úhlech náběhu s pozitivní energetickou bilancí. Simulace provedené s RANS modelem turbulence byly ověřeny pomocí Large Eddy simulace.
English abstract
Numerical simulations of the flow past a NACA 0015 wing with active control have been performed. The Reynolds number of the flow based on the wing's chord is Re = 2.5 × 106. The configuration proposed in this study does not follow the conventional active control methodology past wings. Large blowing surfaces and low jet velocity magnitudes are considered and the energy efficiency of such configuration is examined for a number of variants. The present actuation reduces the profile drag of the wing and influences the flow mainly in two dimensions. Maximum drag decrease could be close to 40% at low angles of attack, with still positive energy income. Supportive Large Eddy Simulations at Re = 2.2 × 105 verify the trends of this control, which are predicted by Reynolds Averaged Navier–Stokes modelling.
Keywords in English
Active flow control; High Reynolds; Wing; blowing; Drag reduction; LES
RIV year
2015
Released
21.10.2015
Publisher
Elsevier
Location
USA
ISSN
0307-904X
Volume
40
Number
2
Pages from–to
700–725
Pages count
26
BIBTEX
@article{BUT118017,
author="Vilém {Skarolek} and Stavros {Karampelas},
title="Energy efficient active control of the flow past an aircraft wing: RANS and LES evaluation",
year="2015",
volume="40",
number="2",
month="October",
pages="700--725",
publisher="Elsevier",
address="USA",
issn="0307-904X"
}