Treffer: An adjoint approach to optimal design of turbine blades
Title:
An adjoint approach to optimal design of turbine blades
Authors:
Source:
Tenth Seminar on Numerical Solution of Differential and Differential-Algebraic Equations (NUMDIFF-10), 8-11 September, 2003, Halle, GermanyApplied numerical mathematics. 53(2-4):93-105
Publisher Information:
Amsterdam: Elsevier, 2005.
Publication Year:
2005
Physical Description:
print, 17 ref
Original Material:
INIST-CNRS
Subject Terms:
Mathematics, Mathématiques, Mechanics acoustics, Mécanique et acoustique, Sciences exactes et technologie, Exact sciences and technology, Sciences et techniques communes, Sciences and techniques of general use, Mathematiques, Mathematics, Combinatoire. Structures ordonnées, Combinatorics. Ordered structures, Combinatoire, Combinatorics, Plans d'expériences et configurations, Designs and configurations, Analyse mathématique, Mathematical analysis, Equations aux dérivées partielles, Partial differential equations, Calcul des variations et contrôle optimal, Calculus of variations and optimal control, Analyse numérique. Calcul scientifique, Numerical analysis. Scientific computation, Analyse numérique, Numerical analysis, Méthodes numériques en programmation mathématique, optimisation et calcul variationnel, Numerical methods in mathematical programming, optimization and calculus of variations, Analyse numérique, Numerical analysis, Análisis numérico, Aérodynamique, Aerodynamics, Aerodinámica, Equation Euler, Euler equation, Ecuación Euler, Mathématiques appliquées, Applied mathematics, Matemáticas aplicadas, Mécanique fluide, Fluid mechanics, Mecánica flúido, Méthode adjoint, Adjoint method, Método adjunto, Méthode optimisation, Optimization method, Método optimización, Programmation mathématique, Mathematical programming, Programación matemática, Sensibilité, Sensitivity, Sensibilidad, 05Bxx, 49XX, 65Kxx, Conception turbine, Turbine design, Sensitivity method
Document Type:
Konferenz
Conference Paper
File Description:
text
Language:
English
Author Affiliations:
Zentrum Mathematik, TU München, 85748 Garching b, München, Germany
IWRMM, Universitat Karlsruhe (TH), Engesserstr. 6, 76128 Karlsmhe, Germany
Siemens AG, Corporate Technology, Otto-Hahn-Ring 6, 81739 München, Germany
IWRMM, Universitat Karlsruhe (TH), Engesserstr. 6, 76128 Karlsmhe, Germany
Siemens AG, Corporate Technology, Otto-Hahn-Ring 6, 81739 München, Germany
ISSN:
0168-9274
Rights:
Copyright 2005 INIST-CNRS
CC BY 4.0
Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
CC BY 4.0
Sauf mention contraire ci-dessus, le contenu de cette notice bibliographique peut être utilisé dans le cadre d’une licence CC BY 4.0 Inist-CNRS / Unless otherwise stated above, the content of this bibliographic record may be used under a CC BY 4.0 licence by Inist-CNRS / A menos que se haya señalado antes, el contenido de este registro bibliográfico puede ser utilizado al amparo de una licencia CC BY 4.0 Inist-CNRS
Notes:
Mathematics
Accession Number:
edscal.16646407
Database:
PASCAL Archive
Weitere Informationen
In power plants, the aerodynamic optimization of turbine blades is crucial for efficiency considerations. The profile of the turbine blade is described by Bézier polynomials, where the coefficients are used as design variables in a nonlinear optimization procedure. The fluid-mechanics are modelled by the 2D Euler equations. This article deals with the application of an adjoint method for the optimization algorithm in the stationary case.