2019
DOI: 10.15406/fmrij.2019.03.00055
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High-performance airfoil with low reynolds-number dependence on aerodynamic characteristics

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Cited by 17 publications
(3 citation statements)
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“…Here, subscripts A, B, and C indicate the markers of the ends of the inner and outer wings in figure 10, respectively. The maximum ΔΓ inner and ΔΓ outer according to equations (10) and (11) were approximately 0.10°and 0.16°, respectively. Moreover, as the joint between the inner and outer wings (Y=± 440) had relatively low rigidity, ΔΓ outer was generally larger than ΔΓ inner .…”
Section: Deformation Of the Main Wingmentioning
confidence: 90%
See 1 more Smart Citation
“…Here, subscripts A, B, and C indicate the markers of the ends of the inner and outer wings in figure 10, respectively. The maximum ΔΓ inner and ΔΓ outer according to equations (10) and (11) were approximately 0.10°and 0.16°, respectively. Moreover, as the joint between the inner and outer wings (Y=± 440) had relatively low rigidity, ΔΓ outer was generally larger than ΔΓ inner .…”
Section: Deformation Of the Main Wingmentioning
confidence: 90%
“…Further, to achieve a Martian atmospheric flight, the airfoil needs to have an excellent performance with high L/D at low Reynolds numbers. Anyoji et al revealed that among the existing airfoils with low Reynolds number, the Ishii airfoil originally designed for a hand-launched glider wing meets the requirement [10,11]. Additionally, they have proposed design guidelines for the required high-performance low-Reynolds-number airfoils based on their physical features.…”
Section: Introductionmentioning
confidence: 99%
“…For the Martian conditions, an optimized airfoil is likely to be similar to an Ishii airfoil [16], with C l |L/D max ≈ 0.7 at α ≈ 5 • and C l,max ≈ 0.8 at α ≈ 9 • (Re ≈ 23,000, M ≈ 0.2), where the definitions are as follows: C l |L/D max is the lift coefficient corresponding to the maximum lift-to-drag ratio; C l,max is the maximum lift coefficient; α is the angle of attack, degrees; Re is the Reynolds number; M is the Mach number.…”
Section: Aerodynamicsmentioning
confidence: 99%