Effect of angle of attack, gas composition and reynolds number on flutter boundary of benchmark super-critical wing

Effect of angle of attack, gas composition and reynolds number on flutter boundary of benchmark super-critical wing

Paper in proceedings (conference paper)

This paper presents results of the second Aeroelastic Prediction Workshop which uses the Benchmark Super-Critical Wing, BSCW at flutter conditions as a common test case. The primary purpose of this study is to evaluate the effect of angle of attack. To do so, we analyzed BSCW wing at three angles of attack - α = 0deg, α = 1deg and α = 5deg. The second task is to evaluate the effect of gas composition on flutter boundary. The two gases are R-12 heavy gas, used as a test medium for the wind tunnel test, and air.

This paper presents results of the second Aeroelastic Prediction Workshop which uses the Benchmark Super-Critical Wing, BSCW at flutter conditions as a common test case. The primary purpose of this study is to evaluate the effect of angle of attack. To do so, we analyzed BSCW wing at three angles of attack - α = 0deg, α = 1deg and α = 5deg. The second task is to evaluate the effect of gas composition on flutter boundary. The two gases are R-12 heavy gas, used as a test medium for the wind tunnel test, and air.

AePW, Aeroelasticity, BSCW, Computational, Dynamics, Fluid,Flutter, Transonic

AePW, Aeroelasticity, BSCW, Computational, Dynamics, Fluid,Flutter, Transonic

NAVRÁTIL, J.; JIRÁSEK, A.; HAMLINGTON, P.; LOFTHOUSE, A.

2019

01.05.2018

Elsevier B.V.

9788897576280

17th International Forum on Aeroelasticity and Structural Dynamics, IFASD 2017

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