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      KCI등재 SCIE SCOPUS

      The effect of non-equilibrium condensation on the coefficients of force with the angle of attack in the transonic airfoil flow of NACA0012

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      https://www.riss.kr/link?id=A103787466

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      다국어 초록 (Multilingual Abstract)

      A transonic flow with a non-equilibrium condensation past NACA0012 profile whose aspect ratio AR is 1.0 with the angle of attack was analyzed by numerical analysis using a TVD scheme, and investigated using an intermittent indraft type supersonic wind...

      A transonic flow with a non-equilibrium condensation past NACA0012 profile whose aspect ratio AR is 1.0 with the angle of attack was analyzed by numerical analysis using a TVD scheme, and investigated using an intermittent indraft type supersonic wind tunnel. Transonic flows of 0.70-0.90 in free stream Mach number with variations of Φ0 and α were tested. For the same M∞ and α, the increase in stagnation relative humidity Φ0 caused a decrease in the drag coefficient of profile (that is total) which is composed of the components of form, viscous, wave and condensation; however, the lift coefficient up to Φ0 = 50% increased in the opposite direction. As an example, in the case of M∞ = 0.83, Φ0 = 50%, α = 3o and T0 = 298K, the decreasing rate of the coefficient of profile drag and the increasing rate of the lift coefficient compared to the case of Φ0 = 0% caused by non-equilibrium condensation amounted to 65% and 52%, respectively. In addition, for the same Φ0 and α, as the free stream Mach number M∞ increased, at first, the lift coefficient increased slightly, and then suddenly severely dropped, and finally remained nearly constant. The suddenly dropped free stream Mach number in CL became larger with an increase of Φ0. It turned out that the drag coefficients of form and viscous were almost independent of Φ0. The contribution of wave drag to the coefficient of profile drag for M∞ = 0.83, Φ0 = 30%, α = 3o and T0 = 298K amounted to approximately 79%, and in the case of Φ0 = 60%, the contribution of the non-equilibrium condensation to the reduction in the coefficient of the profile drag compared to the case without condensation amounted to 75%. Especially, for the case of Φ0 = 0% and α = 0o, there was an oscillatory flow region around M∞ = 0.87.

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      참고문헌 (Reference)

      1 G. Schnerr, "Transonic aerodynamics including strong effects from heat addition" 22 (22): 103-, 1993

      2 U. C. Goldberg, "Towards a point-wise turbulence model for wall-bounded and free shear flows" 116 (116): 72-, 1994

      3 S. I. Pai, "Theoretical and computational dynamics of a compressible flow" Sci. Press 299-, 1991

      4 A. H. Shapiro, "The dynamics and thermodynamics of compressible fluid flow, Vol.Ⅱ" Ronald Press Co

      5 A. H. Shapiro, "The dynamics and thermodynamics of compressible fluid flow Vol. Ⅰ" Ronald Press Co 379-384,

      6 S. B. Kwon, "Supersonic moist air flow with condensation in a wavy wall channel" 15 (15): 492-, 2001

      7 S. C. Baek, "Study of moderately under-expanded moist air jets" 44 (44): 1624-, 2006

      8 Heuy-Dong Kim, "Passive Prandtl-Meyer Expansion Flow with Homogeneous Condensation" 대한기계학회 18 (18): 407-418, 2004

      9 J. Frenkel, "Kinetic theory of liquids" Dover Pub. Inc 1946

      10 Y. A. Cengel, "Fluid mechanics" Mcgrawhill

      1 G. Schnerr, "Transonic aerodynamics including strong effects from heat addition" 22 (22): 103-, 1993

      2 U. C. Goldberg, "Towards a point-wise turbulence model for wall-bounded and free shear flows" 116 (116): 72-, 1994

      3 S. I. Pai, "Theoretical and computational dynamics of a compressible flow" Sci. Press 299-, 1991

      4 A. H. Shapiro, "The dynamics and thermodynamics of compressible fluid flow, Vol.Ⅱ" Ronald Press Co

      5 A. H. Shapiro, "The dynamics and thermodynamics of compressible fluid flow Vol. Ⅰ" Ronald Press Co 379-384,

      6 S. B. Kwon, "Supersonic moist air flow with condensation in a wavy wall channel" 15 (15): 492-, 2001

      7 S. C. Baek, "Study of moderately under-expanded moist air jets" 44 (44): 1624-, 2006

      8 Heuy-Dong Kim, "Passive Prandtl-Meyer Expansion Flow with Homogeneous Condensation" 대한기계학회 18 (18): 407-418, 2004

      9 J. Frenkel, "Kinetic theory of liquids" Dover Pub. Inc 1946

      10 Y. A. Cengel, "Fluid mechanics" Mcgrawhill

      11 A. Dadone, "Computation of transonic steady flows using a modified lambda formulation, In Notes on Numerical Fluid Mechanics, Vol.26"

      12 J. J. Bertin, "Aerodynamics for engineers" Prentice Hall

      13 S. B. Kwon, "A study on the flow with non-equilibrium condensation in a minimum length nozzle" 23 : 1736-, 2009

      14 H. C. Yee, "A class of high-resolution explicit and implicit shock capturing methods" NASA 1989

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      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2012-11-05 학술지명변경 한글명 : 대한기계학회 영문 논문집 -> Journal of Mechanical Science and Technology KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2006-01-19 학술지명변경 한글명 : KSME International Journal -> 대한기계학회 영문 논문집
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