Numerical simulation of 3D transonic flow through cascades

Jaroslav Fořt; Jiří Fürst; J. Halama; Karel Kozel

Mathematica Bohemica (2001)

  • Volume: 126, Issue: 2, page 353-361
  • ISSN: 0862-7959

Abstract

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The paper deals with the numerical solution of 3D transonic flow through axial turbine cascades. Finite volume methods based on TVD MacCormack cell-centered and Ni’s cell-vertex schemes are discussed. A comparison of numerical results for 3D stator and rotor cascades is presented.

How to cite

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Fořt, Jaroslav, et al. "Numerical simulation of 3D transonic flow through cascades." Mathematica Bohemica 126.2 (2001): 353-361. <http://eudml.org/doc/248854>.

@article{Fořt2001,
abstract = {The paper deals with the numerical solution of 3D transonic flow through axial turbine cascades. Finite volume methods based on TVD MacCormack cell-centered and Ni’s cell-vertex schemes are discussed. A comparison of numerical results for 3D stator and rotor cascades is presented.},
author = {Fořt, Jaroslav, Fürst, Jiří, Halama, J., Kozel, Karel},
journal = {Mathematica Bohemica},
keywords = {transonic flow; finite volume methods; Euler equations; turbines; axial turbine cascades; TVD MacCormack cell-centered scheme; Ni’s cell-vertex scheme; stator; rotor; transonic flows; finite volume methods; Euler equations; axial turbine cascades; TVD MacCormack cell-centered scheme; Ni's cell-vertex scheme; stator; rotor},
language = {eng},
number = {2},
pages = {353-361},
publisher = {Institute of Mathematics, Academy of Sciences of the Czech Republic},
title = {Numerical simulation of 3D transonic flow through cascades},
url = {http://eudml.org/doc/248854},
volume = {126},
year = {2001},
}

TY - JOUR
AU - Fořt, Jaroslav
AU - Fürst, Jiří
AU - Halama, J.
AU - Kozel, Karel
TI - Numerical simulation of 3D transonic flow through cascades
JO - Mathematica Bohemica
PY - 2001
PB - Institute of Mathematics, Academy of Sciences of the Czech Republic
VL - 126
IS - 2
SP - 353
EP - 361
AB - The paper deals with the numerical solution of 3D transonic flow through axial turbine cascades. Finite volume methods based on TVD MacCormack cell-centered and Ni’s cell-vertex schemes are discussed. A comparison of numerical results for 3D stator and rotor cascades is presented.
LA - eng
KW - transonic flow; finite volume methods; Euler equations; turbines; axial turbine cascades; TVD MacCormack cell-centered scheme; Ni’s cell-vertex scheme; stator; rotor; transonic flows; finite volume methods; Euler equations; axial turbine cascades; TVD MacCormack cell-centered scheme; Ni's cell-vertex scheme; stator; rotor
UR - http://eudml.org/doc/248854
ER -

References

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  1. A multiple grid scheme for solving Euler equations, AIAA J. 20 (1981). (1981) 
  2. High resolution finite volume schemes and computational aerodynamics, Notes on Numerical Fluid Mechanics, vol. 24, Braunschweig, Vieweg, 1989, pp. 63–74. (1989) MR0991352
  3. TVD and ENO schemes for multidimensional steady an unsteady flows—a comparative analysis, Proc. Finite Volumes for Complex Applications-Problems and Perspectives, F. Benkhaldoun, R. Vilsmeier Rouen (eds.), Hermes, 1996, pp. 283–290. (1996) 
  4. Numerical solution of several 2D and 3D internal flow problems, Proceedings of 15th International Conference on Numerical Methods in Fluid Dynamics, Monterey, USA, P. Kutler, J. Flores, J.-J. Chattot (eds.), Springer, Berlin, 1997, pp. 364–369. (1997) MR1608948
  5. Numerical solution of 3D inviscid transonic flows, Proceedings of The Seventh Asian Congress of Fluid Mechanics,, R. Narasimha (ed.), Madras, December, 1997, pp. 617–620. (1997) 

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