°少 Spld ala,a 30 TBR 13>Or DoMMA 8h4-43,loh3s-3 be ftswredr Ld vo Cown-wwro es IoLT: ie= Mle 3x3 eD SLT AaLn/a、4Ao8cycs snc oul How May t on &7x D from un awho qao A ecX .Vw HH→ (xy)。⊥ o(x Rwv(x-x)+ az△(…) PvW dx ar d*o Y z d
+ e lo T 1 alr)ax aX X-X Ved。 or(x) do alulim at W am and Anmu80amp0·② fell E Numw cal aum entel ( Amama p dodi Exec tracon 20a,306m my perd Modo (20-30)+ BL Mehod (anua l oiligrdy MuM: 重()为(4一P))+只 value 2““ powt in lwo g e at如ap
References [1]MJ. Lighthill On displacement thickness. Journal of Fluid Mechanics, 4: 383-392, 9 [2]J E. Carter. A new boundary layer inviscid iteration technique for separated floy AIAA-79-1450.Jul1979 3]RE Melnik Turbulent interactions on airfoils at transonic speeds-recent develop- ments In Conference on Computation of viscous-Inviscid interactions, 1980. AGARD- CP291 viscous-inviscid interaction In Conference on Computation of Viscous-Inviscid f (a [4]A E P. Veldman. The calculation of incompressible boundary layers with stron teractions. 1980. AGARD-CP-291 ISL. B Wigton and M. Holt. Viscous-inviscid interaction in transonic flow. AlAA-81 1003.1981 6J.C Le Balleur Strong matching method for computing transonic viscous flows in- cluding wakes and separations. La Recherche Aerospatiale, 1981-3: 21-45, 1981. English Edition [7]D E. Edwards and J.E. Carter. A quasi-simultaneous finite difference approach for strongly interacting flow. In Third Symposium on Numerical and Physical Aspects of Aerodynamic Flows, Long Beach, California, Jan 1985 [8]RE Melnik, R.S. Rudman, and J W. Brook. The computation of viscid/ inviscid interaction on airfoils with separated flow. In Third Symposium on Numerical and Physical Aspects of Aerodynamic Flows, Long Beach, California, Jan 1985 [9]M. Drela and M B. Giles. Viscous-inviscid analysis of transonic and low Reynolds number airfoils. AlAA Journal, 25(10): 1347-1355, Oct 1987 [10JR C. Lock and B R. Williams. Viscous-inviscid interactions in external aerodynamics. Progress in Aeronautical Sciences, 24: 51-1717 1987 [11]M. Drela. XFOIL: An analysis and design system for low Reynolds number airfoils In T.J. Mueller, editor, Low Reynolds Number Aerodynamics. Springer-Verlag, Jun 1989 Lecture Notes in Engineering, No 54
References: [1] M.J. Lighthill. On displacement thickness. Journal of Fluid Mechanics, 4:383-392, 9 1958. [2] J.E. Carter. A new boundary layer inviscid iteration technique for separated flow. AIAA-79-1450, Jul 1979. [3] R.E. Melnik. Turbulent interactions on airfoils at transonic speeds - recent developments. In Conference on Computation of Viscous-Inviscid Interactions, 1980. AGARDCP-291. [4] A.E.P. Veldman. The calculation of incompressible boundary layers with strong viscous-inviscid interaction. In Conference on Computation of Viscous-Inviscid Interactions, 1980. AGARD-CP-291. [5] L.B. Wigton and M. Holt. Viscous-inviscid interaction in transonic flow. AIAA-81- 1003, 1981. [6] J.C. Le Balleur. Strong matching method for computing transonic viscous flows including wakes and separations. La Recherche Aerospatiale, 1981-3:21-45, 1981. English Edition. [7] D.E. Edwards and J.E. Carter. A quasi-simultaneous finite difference approach for strongly interacting flow. In Third Symposium on Numerical and Physical Aspects of Aerodynamic Flows, Long Beach, California, Jan 1985. [8] R.E. Melnik, R.S. Rudman, and J.W. Brook. The computation of viscid/ inviscid interaction on airfoils with separated flow. In Third Symposium on Numerical and Physical Aspects of Aerodynamic Flows, Long Beach, California, Jan 1985. [9] M. Drela and M.B. Giles. Viscous-inviscid analysis of transonic and low Reynolds number airfoils. AIAA Journal, 25(10): 1347-1355, Oct 1987. [10] R.C. Lock and B.R. Williams. Viscous-inviscid interactions in external aerodynamics. Progress in Aeronautical Sciences, 24:51-1717 1987. [11] M. Drela. XFOIL: An analysis and design system for low Reynolds number airfoils. In T. J. Mueller, editor, Low Reynolds Number Aerodynamics. Springer-Verlag, Jun 1989. Lecture Notes in Engineering, No. 54