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Author: Akin Ecer Publisher: ISBN: Category : Aerodynamics, Transonic Languages : en Pages : 116
Book Description
The finite element method is applied for the solution of transonic potential flows through a cascade of airfoils. Convergence characteristics of the solution scheme are discussed. Accuracy of the numerical solutions is investigated for various flow regions in the transonic flow configuration. The design of an efficient finite element computational grid is discussed for improving accuracy and convergence.
Author: Akin Ecer Publisher: ISBN: Category : Aerodynamics, Transonic Languages : en Pages : 116
Book Description
The finite element method is applied for the solution of transonic potential flows through a cascade of airfoils. Convergence characteristics of the solution scheme are discussed. Accuracy of the numerical solutions is investigated for various flow regions in the transonic flow configuration. The design of an efficient finite element computational grid is discussed for improving accuracy and convergence.
Author: George J. Fix Publisher: ISBN: Category : Languages : en Pages : 8
Book Description
Finite element algorithms were developed for the following class of problems: (1) Transonic flow problems governed by the potential equations; (2) Moving boundary problems; and (3) Incompressible flow problems governed by the Navier-Stokes equations.
Author: Shu-Yi Wang Publisher: ISBN: Category : Languages : en Pages : 73
Book Description
This study develops a new numerical solution technique to simulate the transonic cascade flow through turbomachines, and also improves the understanding of the basic characteristics of turbomachine flows through a systematic process of improvements to increase the level of model sophistication. The Finite Element Method FEM) is especially suitable for solving problems with irregular boundary geometry including curved as well as sharpcornered ones, because the shape and size of each element may be specified arbitrarily and sides of each element may be curved. Therefore, the complication of governing differential equations needed which through coordinated transformations yield a rectangular computation domain in finite difference scemes, can be avoided, and the accuracy as well as computing efficiency may be improved by adjusting the size and shape of the elements. (Author).
Author: Akin Ecer
Author: Akin Ecer
Author: H. U. Akay
Author: D. S. Whitehead
Author: W. G. Habashi
Author: Timothy Chandler Prince
Author: 
Author: S. T. K. Chan
Author: George J. Fix
Author: Charlotte Cody
Author: Shu-Yi Wang