Producción CyT
Artículo
Autoría
OLLER ARAMAYO, SERGIO ALEJANDRO
;
NALLIM, LIZ GRACIELA
;
Oller, S.
Fecha
2015
Editorial y Lugar de Edición
Isfahan University of Technology
Revista
Journal of Applied Fluid Mechanics,
vol. 9
(pp. 537-542)
- ISSN 1735-3572
Isfahan University of Technology
Isfahan University of Technology
ISSN
1735-3572
Resumen
Información suministrada por el agente en
SIGEVA
This work presents a numerical analysis of the ability of the high lift airfoil profile Selig S1223 for working as hydrofoil under water conditions. The geometry of the hydrofoil blade is designed through a suitable airfoil profile and then studied carefully by means of Computational Fluid Dynamics (CFD) in order to check its hydrodynamic behavior, i.e., including lift and drag analysis, and determinations of streamlines velocities and pressures fields. Finally conclusions on the use of this pr...
This work presents a numerical analysis of the ability of the high lift airfoil profile Selig S1223 for working as hydrofoil under water conditions. The geometry of the hydrofoil blade is designed through a suitable airfoil profile and then studied carefully by means of Computational Fluid Dynamics (CFD) in order to check its hydrodynamic behavior, i.e., including lift and drag analysis, and determinations of streamlines velocities and pressures fields. Finally conclusions on the use of this profile in a possible application for hydrokinetic turbine blades are detailed.
Ver más
Ver menos
Palabras Clave
COMPUTATIONAL FLUIDS DYNAMICSHYDROKINETIC GENERATIONHYDROFOIL
Descargue o solicite el texto completo