Document Zbl 1075.76654

Detailed study of complex flow fields of aerodynamical configurations by using numerical methods. (English) Zbl 1075.76654

Sādhanā 19, No. 3, 361-399 (1994).

MSC:

76M99	Basic methods in fluid mechanics
76G25	General aerodynamics and subsonic flows

Keywords:

numerical aerodynamics

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[1]	Agrawal S, Barnett R M, Robinson B A 1990 Investigation of vortex breakdown on a delta wing using Euler and Navier-Stokes equations.AGARD fluid dynamics panel symposium on vortex flow aerodynamics. AGARD-CP-494, pp. 24.1-24.12
[2]	Baldwin B S, Lomax H 1978 Thin layer approximation and algebraic model for separated turbulent flows. AIAA paper 78-257
[3]	Beam, R. M.; Warming, R. F., Upwind second order difference schemes and application to aerodynamics, AIAA J., 14, 1241-1249 (1976) · Zbl 0364.76047
[4]	Beam, R. M.; Warming, R. F., An implicit factored scheme for the compressible Navier-Stokes equations, AIAA J., 16, 385-402 (1978) · Zbl 0374.76025
[5]	Bergmann A, Hummel D, Oelker H -Chr 1990 Vortex formation over a closed coupled canard-wing-body configuration in unsymmetrical flow.AGARD Fluid Dynamics Panel Symposium on Vortex Flow Aerodynamics, AGARD-CP-494, pp. 14.1-14.14
[6]	Blazek, J., Verfahren zur Beschleunigung der Lösung der Euler- und Navier/Stokes Gleichungen bei stationären Über- und Hyperschallströmungen (1994), Braunschweig: Dissertation der Technische Universitat, Braunschweig · Zbl 0815.76061
[7]	Blazek J, Kroll N, Radespiel R, Rossow C -C 1991 Upwind implicit residual smoothing method for multi-stage schemes. AIAA paper 91-1533
[8]	Bober L J, Chaussee D S, Kutler P 1983 Prediction of high speed propeller flow using a three-dimensional Euler analysis. AIAA paper 83-0188
[9]	Bornemann W E, Surber T E 1978 Aerodynamic design of the space shuttle orbiter. AGARD-CP-247, pp. 11.1-11.24
[10]	Brennenstuhl, U.; Hummel, D., Vortex formation over double-delta wings, ICAS Proc., 2, 1133-1146 (1982)
[11]	Caradonna F X, Laub G H, Tung C 1984 An experimental investigation of the parallel bladevortex interaction. NASA-TM-86005
[12]	Caradonna F X, Tung C 1981 Experiments and analytical studies of a model helicopter rotor in hover. NACA TM-81232
[13]	Carstens V 1990 Die Berechnung von instationären kompressiblen Strömungen um schwingende Profile mit Hilfe eines Euler-Upwind Verfahrens.dlr-Festschrift, Göttingen, 1990
[14]	Chaussee D S 1986 High speed viscous flow calculations about complex configurations. AGARD-CP-412, pp. 29.1-29.17
[15]	Chaussee, D. S.; Rizk, Y. M.; Buning, P. G., Viscous computation of a space-shuttle flow field, Lecture Notes in Physics — 9th Int. Conf. on Numerical Methods in Fluid Dynamics, 218, 148-153 (1984)
[16]	Courant, R.; Friedrichs, K. O.; Lewy, H., Uber die partiellen Differential-gleichungen der Physik, Math. Ann., 100, 32-74 (1928) · JFM 54.0486.01 · doi:10.1007/BF01448839
[17]	Courant, R.; Isaacson, E.; Rees, M., On the solution of nonlinear hyperbolic differential equations by finite differences, Commun. Pure Appl. Math., 5, 243-243 (1952) · Zbl 0047.11704 · doi:10.1002/cpa.3160050303
[18]	Das, A., Analysis of spiraling vortical flows around slender delta wings moving in an inviscid medium, Z. Angew. Math. Mech., 71, 465-471 (1991) · Zbl 0802.76011 · doi:10.1002/zamm.19910711115
[19]	Das, A.; Longo, J. M A., Numerical computation of vortical flow fields of double-delta wings moving in a compressible medium, Z. Angew. Math. Mech., 74, 475-486 (1994) · Zbl 0809.76074 · doi:10.1002/zamm.19940741012
[20]	Das A, Longo J M A 1994b Numerical analysis of the vortical flow field around a delta-shaped wing-canard configuration moving in a compressible medium (to be published inAIAA J.)
[21]	Deese J E, Agarwal R K 1987 Navier-Stokes calculations of transonic viscous flow about a wing body configuration. AIAA paper 87-1200
[22]	Deese J E, Agarwal R K 1988 Euler/Navier-Stokes calculations of transonic flow past fixed- and rotary-wing aircraft configurations.Transonic Symposium Proceedings vol. 1, part 2, NASA-LARC, Hampton, pp. 521-545
[23]	Degani D, Schiff L B 1983 Computation of supersonic viscous flows around pointed bodies at large incidence. AIAA paper 83-0034
[24]	Drougge, G., The international vortex flow experiment for computer code validation, ICAS-Proceedings 1988, 1, 25-41 (1988)
[25]	Eberle A 1987 Characteristic flux averaging approach to the solution of Euler’s equation. VKI Lecture Series 1987-04
[26]	Elsenaar A, Hoijemakers H W M 1990 An experimental study of the flow over a sharp-edged delta wing at subsonic and transonic speeds.AGARD FDP Symposium on Vortex Flow Aerodynamics. AGARD-CP-494, pp. 15.1-15.19
[27]	Eriksson, L. E., Generation of boundary-conforming grids around wing-body configurations using transfinite interpolation, AIAA J., 20, 1313-1320 (1982) · Zbl 0496.76009
[28]	Eriksson L, Rizzi A 1983 Computation of vortex flow around a canard-delta wing combination.Proc. of 5th GAMM Conference on Numerical Methods in Fluid Mechanics pp. 65-80 · Zbl 0553.76051
[29]	Esch H 1989 Force measurements on four 1:100 HERMES shape-derivatives at subsonic and supersonic Mach numbers. DLR-IB 39113-89-C-21, 1989
[30]	Findling A, Herrmann U 1991 Development of an efficient grid generation.Proc. 3rd Int. Conf. on Numerical Grid Generation in Comput. Fluid Dynamics and Related Fields. Barcelona, Spain, pp. 781-792
[31]	Goddard, J. L.; Jacquotte, O. P.; Gisquet, D., Analyse detaillee de l’interaction voilure-nacelle d’un avion de transport civil (1991), Texas: AGARD Symposium on Aerodynamic. Engine/Airframe Integration, Texas
[32]	Hartwich, P. M.; Hsu, C. H.; Luckring, J. M.; Liu, C. H., Aerodynamic application of an efficient incompressible Navier-Stokes solver, ICAS Proc., 2, 1417-1427 (1988)
[33]	Hilgenstock A 1990 Ein Beitrag zur numerischen Simulation der Transsonischen Strömung um einen Deltaflügel durch Lösung der Navier-Stokes’schen Bewegungsgleichungen. DLR-FB 90-13 · Zbl 0693.76064
[34]	Hilgenstock A, Vollmers H 1990 On the simulation of compressible turbulent flows past delta wings, delta wing-body and delta wing-canard.AGARD FDP Symposium on Vortex Flow Aerodynamics, AGARD-CP-494, pp. 7.1-7.14
[35]	Hummel, D., Documentation of separated flows for computational fluid dynamics validation, 2, 15.1-15.24 (1988)
[36]	Jameson A 1985 Multigrid algorithms for compressible flow calculations. MAE Report 1743, Princeton University · Zbl 0624.76075
[37]	Jameson A, Schmidt W, Turkel E 1981 Numerical simulation of the Euler equations by finite volume method using Runge-Kutta time stepping schemes. AIAA paper 81-1259
[38]	Johnson D A, King L S 1984 A new turbulence closure model for boundary layer flows with strong adverse pressure gradients and separation. AIAA paper 84-0175
[39]	Krause, E.; Liu, C. H., Numerical studies of incompressible flow around delta and double-delta wings, Z. Flugwiss., 13, 291-301 (1989)
[40]	Kroll N 1989Berechnung von Strömungsfeldern um Propeller und Rotoren im Schwebeflug durch die Lösung der Euler-Gleichungen. Dissertation Technische Universitat Braunschweig, DLR-FB 89-37 · Zbl 0679.76063
[41]	Kroll N, Gaitonde D, Aftosmis M 1991 A systematic comparative study of several high resolution schemes for complex problems in high speed flows. AIAA paper 91-0636
[42]	Kroll N, Jain R 1987 Solution of two-dimensional Euler equations — experience with a finite volume code. DFVLR-FB 87-41
[43]	Kroll, N.; Radespiel, R.; Rossow, C. -C, Experiences with explicit time-stepping schemes for supersonic flow fields, 8th GAMM Conf. on Numerical Methods in Fluid Dynamics (1989), Delft: Vieweg, Delft
[44]	Kroll N, Rossow C -C 1990 A high resolution cell vertex TVD scheme for the solution of the two- and three-dimensional Euler equations.12th Int. Conf. on Num. Methods in fluid dynamics. Lecture Notes in Physics 371:
[45]	Kumar A, Das A 1988 Computation of vortex flow on a delta wing at transonic speed.IUTAM Symposium Transsonicum III pp. 317-328
[46]	Lambourne N C 1982 Compendium of unsteady aerodynamics measurements, AGARD-R-702
[47]	Lax, P. D.; Wendroff, B., System of conservation laws, Commun. Pure Appl. Math., 13, 217-237 (1966) · Zbl 0152.44802 · doi:10.1002/cpa.3160130205
[48]	Lin C Q, Pahlke K 1991 Numerical solution of Euler equations for airfoils in arbitrary unsteady motion. DLR-FB 129-91/17
[49]	Longo J M A 1988 Research on three different Euler schemes applied to a delta wing with vortical flows.DGLR STAB Symposium
[50]	Longo J M A 1992aUntersuchungen der Umströmung von Deltaflügel-Konfigurationen mit und ohne Canard durch numerische Lösung der Euler-Gleichungen. Dissertation Technische Universitat Braunschweig
[51]	Longo J M A 1992b Viscous transonic flow simulation around a transport aircraft configuration. DGLR Jahrestagung
[52]	Longo J M A, Das A 1990 Numerical simulation of vortical flows over close-coupled canard-wing configuration. AIAA 90-3003
[53]	MacCormack, R., A numerical method for solving the equations of compressible viscous flow, AIAA J., 20, 1275-1281 (1982) · Zbl 0493.76068
[54]	MacCormack R 1985 Current status of numerical solutions of the Navier-Stokes equations. AIAA paper 85-0032 · Zbl 0567.76037
[55]	Maynard J D, Murphy M P 1950 Pressure distributions on the blade sections of the NACA 10(3) (066)-033 propeller under operating conditions. NACA RM L9L12
[56]	Murman E M, Rizzi A 1986 Application of Euler equaitona to sharp edge delta wing with leading edge vortices.AGARD Conf. Proc. No. 412 pp. 15-1 to 15-13
[57]	Newsome R W, Kandil O A 1987 Vortical flow aerodynamics — Physical aspects and numerical simulation. AIAA paper 87-0205
[58]	Nixon D (ed.) 1989 Unsteady transonic aerodynamics.AIAA, Progress in Astronautics and Aeronautics, vol. 120 · Zbl 0715.76001
[59]	Oelker H -Chr 1990Aerodynamische Untersuchungen an kurzgekoppelten Entenkonfigurationen bei symmetrischer Anströmung. Dissertation Technische Universitat Braunschweig, ZLR Forsc. Bericht der Technische Universitat Braunschweig 90-01
[60]	Pahlke K, Kroll N 1991 Grid generation for multi-blades and calculations with a 3-D Euler-code for helicopter rotors in hover. DLR-IB 129-91/4
[61]	Pan D, Lomax H 1986 A new approximate LU factorization scheme for the Reynolds’s-averaged Navier-Stokes equations. AIAA paper 86-0337
[62]	Pfitzner M, Weiland C 1987 Three-dimensional Euler solution for hypersonic Mach numbers. AGARD-CP 429
[63]	Pulliam, T. H.; Steger, J. L., Implicit finite difference simulation of three-dimensional compressible flow, AIAA J., 18, 159-167 (1980) · Zbl 0417.76039
[64]	Radespiel R 1988 Grid generation around transport aircraft configurations using a multiblock structured computational domain. InAGARDOgraph No. 309 pp. 139-153
[65]	Radespiel R 1989 A cell-vertex multigrid method for the Navier-Stokes equations. NASA-TM 101557
[66]	Radespiel R, Kroll N 1985 Progress in the development of an efficient finite volume code for the three dimensional Euler equations. DFVLR-FB 85-31
[67]	Radespiel R, Kroll N 1990 A multigrid scheme with semicoarsening for accurate computation of viscous flows.12th Int. Conf. on Numerical Methods in Fluid Dynamics. Lecture Notes in Physics. 371:
[68]	Radespiel R, Quast A 1989 Kraftmessungen, Druckverteilungen und Strömungssichtbarmachung am Raumgleitermodell FALKE im Niedergeschwindigkeitsbereich. DLR IB-129-89/37
[69]	Radespiel, R.; Rossow, C. -C; Swanson, R. C., An efficient cell-vertex multigrid scheme for the three-dimensional Navier-Stokes equations, AIAA J., 28, 1464-1472 (1990)
[70]	Radespiel R, Swanson R C 1991 Progress with multigrid schemes for hypersonic flow problems. NASA CR 189579 ICASE Report No. 91-89 · Zbl 0818.76056
[71]	Raj, P.; Sikora, J. S.; Keen, J. M., Free vortex flow simulation using a three-dimensional Euler aerodynamics method, ICAS Proc., 1, 604-617 (1988)
[72]	Redeker G, Müller R, Ashill P R, Elsenaar A, Schmitt V 1987 Experiments on the DFVLR-F4 wing-body configuration in several European wind tunnels. AGARD-CP 429, pp. 2.1-2.15
[73]	Rizetta, D. P.; Shang, J. S., Numerical simulation of leading edge vortex flows, AIAA J., 24, 237-245 (1987)
[74]	Rizk Y M, Chaussee D S, McRae D S 1981 Computation of hypersonic flows around three-dimensional bodies at high angles of attack. AIAA paper 81-1261
[75]	Roe, P. L., Approximate Riemann solvers, parameter vectors and difference schemes, J. Comput. Phys., 43, 357-372 (1981) · Zbl 0474.65066 · doi:10.1016/0021-9991(81)90128-5
[76]	Rossow C -C 1987 Comparison of cell centered and cell vertex finite volume schemes. InProc. 7th GAMM Conference, Louvain-La-Neuve/Belgium · Zbl 0684.76014
[77]	Rossow C -C 1989Berechnung von Strömungsfeldern durch Lösung der Euler-Gleichungen mit einer erweiterten Finite-Volumen Diskretisierungsmethode. Dissertation der Techniche Universitat Braunschweig, DLR-FB 89-38 · Zbl 0683.76055
[78]	Rossow C -C 1991a Flux balance splitting: A second order accurate cell vertex upwind scheme.9th GAMM Conference on Numerical Methods in Fluid Mechanics, Lausanne/Schweiz · Zbl 0800.76313
[79]	Rossow C -C 1991b Efficient computation of inviscid flow fields around complex configurations using a multiblock multigrid method.5th Copper Mountain Conf. of Multigrid Methods
[80]	Rossow C -C, Goodard J -L, Hoheisel H, Schmidt V 1992 Investigation of propulsion integration interference effects on a transport aircraft configuration.28th Joint Propulsion Conference, Nashville, TN, AIAA paper 92-3097
[81]	Rossow C -C, Ronzheimer A 1991a Investigation of interference phenomena of modern wingmounted high-bypass-ratio engines by the solution of the Euler-equations.AGARD Symposium on Engine/Airframe Integration, AGARD-CP-98, pp. 5.1-5.11
[82]	Rossow C -C, Ronzheimer A 1991b Multiblock grid generation around wing-body-enginepylon configurations.Numerical Grid Generation in Computational Fluid Dynamics and Related Fields pp. 357-368
[83]	Rudnik R 1991 Erweiterung eines dreidimensionalen Euler-Verfahrens zur Berechnung des Strömungsfeldes um Nebenstromtriebwerke mit Fan- und Kernstrahl.Z. Flugwiss. 15(5):
[84]	Scherr, S.; Das, A., Basic analysis of the flow fields of slender wings using the Euler equations, ICAS Proc., 2, 1428-1436 (1988)
[85]	Schmitt V, Charpin F 1979 Pressure distribution on the ONERA M6 wing at transonic Mach numbers. AGARD-AR-138
[86]	Schöne J, Bidault J 1991 Calculation of inviscid flow around a reentry configuration at supersonic speed. AIAA paper 91-0391
[87]	Schöne J, Streit Th, Kroll N 1990 Aerodynamische Berechnungen für eine HERMES-Studienkonfiguration bei Überschallanströmung durch Lösung der Euler Gleichungen. DGLR-Jahrestagung 1990, 1.-4. Oktober 1990, Friedrichshafen. Jahrbuch 1990 der DGLR
[88]	Schöne J, Streit Th, Kroll N 1991 Steps towards an efficient and accurate method solving the Euler equations around a re-entry configuration at super- and hypersonic speed.Proceedings 1st European Symposium on Aerothermodynamics for Space Vehicles, Noordwijk
[89]	Schwarz W 1986 Elliptic grid generation system for three-dimensional configurations using Poisson’s equation.Proc. 1st 1nt. Conf. on Numerical Grid Generation in Comput. Fluid Mech., (Pineridge Press) pp. 341-352
[90]	Sonar Th 1989 Grid generation using elliptic differential equations. DFVLR-FB 89-15 · Zbl 0669.76065
[91]	Sonar Th, Radespiel R 1986 Geometric modelling of complex aerodynamic surfaces and three-dimensional grid generation. In:“Numerical Grid Generation in CFD”, Proc. 2nd Int. Conf. Miami (Pineridge Press)
[92]	Steger J, Warming R F 1976 Flux vector splitting of inviscid gasdynamic equations with application to finite difference methods. NASA TM-78605 · Zbl 0468.76066
[93]	Swanson, R. C.; Radespiel, R., Cell centered and cell vertex multigrid schemes for the Navier-Stokes equations, AIAA J., 29, 697-703 (1991) · doi:10.2514/3.10643
[94]	Thompson, J. F.; Warsi, Z. U H.; Mastin, C. W., Numerical grid generation. Foundation and applications (1985), Amsterdam: North Holland, Amsterdam · Zbl 0598.65086
[95]	Van Leer, B., Upwind difference methods for aerodynamic problems governed by the Euler equations, Lect. Appl. Math., 23, 327-336 (1985) · Zbl 0582.76065
[96]	Van Leer B, Thomas J L, Roe P L, Newsome R W 1987 A comparison of numerical flux formulas for the Euler and Navier-Stokes equations. AIAA paper 87-1104
[97]	Volpe G, Jameson A 1988 An efficient method for computing transonic and supersonic flows about aircrafts. ICAS-88-4.8.3, pp. 1224-1235
[98]	Whitfield D L, Janus D M 1984 Three-dimensional unsteady Euler equations solution using flux vector splitting. AIAA paper 84-1552
[99]	Whitfield D Let al 1987 Three-dimensional unsteady Euler solutions for propfans and counterrotating propfans in transonic flow. AIAA paper 87-1197
[100]	Wichmann G 1992Untersuchungen zur Flügel-Rumpf-Interferenz durch Anwendung eines Eulerverfahrens für kompressible Strömungen. Dissert, Technische Universitat Braunschweig

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