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Warianty tytułu
Konferencja
Seminar/summer school on "CFD for turbomachinery applications" (01-03.09.2001, Gdańsk, Poland)
Języki publikacji
Abstrakty
A short overview of the main techniques for turbomachinery blade design based on CFD is followed by a more detailed description on an Optimisation- and Inverse Design method, developed at the von Karman Institute. The optimisation method uses an Artificial Neural Network to extract knowledge from a Database containing the results of previous designs and a Genetic Algorithm to define the optimum blade. The inverse design method makes use of the Euler or Navier-Stokes equations to predict how a given 3D blade shape should be modified to reach a prescribed pressure or Mach number distribution along the blade surface. Examples of transonic compressor and turbine blades, designed by both methods, illustrate the potential of these modern aero-design systems. Special attention is given to the problems related to existence and uniqueness and to those features that facilitate the practical use of these methods.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
39--61
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
Twórcy
- Turbomachinery and Pulsation Department - von Karman Institute, Waterloose steenweg 72, B-1640 Sint-Genesius-Rode, Belgium
Bibliografia
- [1] Thilmany J 2000 Mechanical Engineering 11 98
- [2] Pierret S and Van den Bracmbussche R A 1999 AS ME J. Turbomachinery 121 326
- [3] Vanderplaats G N 1984 Numerical Optimization Techniques for Engineering Design, McGraw-Hill
- [4] Pierret S, Demculcnaere A, Gouverncur B, Hirsch Ch and Van den Bracmbussche R A 2000 AIAA Paper 2000-2479
- [5] Picrret S and Van den Bracmbussche R A 1998 Proc. RTA/AVT Symposium on Design Principles and Methods for Aircraft Gas Turbine Engines, Toulouse, RTO-MP-8
- [6] Coscntino R, Alsalihi Z and Van den Braembussche R A 2001 Proc. 4th European Conference on Turbomachinery, Florence, Italy, pp. 481-490
- [7] Rini P, Alsalihi Z and Van den Braembussche R A 2001 Proc. 5th ISAIF Gdansk, Poland, pp. 535-547
- [8] Papailiou K D 1971 ASME J. Eng. for Power 93 147
- [9] Sanger N L and Schreeve R P 1986 ASME J. Turbomachinery 108 43
- [10] Demculenaere A and Van den Braembussche R A 1998 Proc. RTA/AVT Symp. Design Principles and Methods for Aircraft Gas Turbine Engines, Toulouse, France, RTO-MP-8
- [11] Demculenaere A and Van den Braembussche R A 1998 ASME J. Turbomachinery 120 247
- [12] Demculenacre A and Van den Bracmbussche R A 1999 J. Inverse Problems in Engineering 7 (3) 235
- [13] Lighthill J M 1945 A new method of two dimensional aerodynamic design ARC R&M 2112
- [14] Demculenaere A, Leonard O and Van den Braembussche R A 1998 ASME Paper 98-GT-127
- [15] Passrucker H and Van den Braembussche R 2000 ASME Paper 2000-GT-457
- [16] Demculenaere A, Leonard O and Van den Braembussche R A 1997 Proc. 2nd European Turbomachinery Conference on Turbomachinery, Fluid Dynamics and Thermodynamics, Antwerpen, Belgium, pp. 339-346
- [17] Wang Z, Cai R, Chen H and Zhang D 1998 ASME Paper 98-GT-126
- [18] de Vito L and Van den Braembussche R A 2001 A Novel Viscous Inverse Design Method: Blending a Navier-Stokes Solver for the Analysis with an Euler Solver for the Inverse Design VKI Pr-2001.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT3-0010-0065