Monografia mario Aspectos biomecânicos do andar e do correr em meio aquático
Apresentação_Geane da Cruz Santos
1. Simulação em torno de hidrofólios
submersos com ângulo de ataque
variável através do software
“FLUENT”
INSTITUIÇÃO: INSTITUTO FEDERAL DE EDUCAÇÃO, CIÊNCIA E TECNOLOGIA DA BAHIA
ORIENTADOR: HENRIQUE JOSÉ CARIBÉ RIBEIRO
BOLSISTA: GEANE DA CRUZ SANTOS
CURSO: ENGENHARIA INDUSTRIAL MECÂNICA
13. - Conclusões Finais
- Referências:
ISO 2631, 1978, Guia para avaliação da exposição humana às vibrações de corpo inteiro, Segunda Edição.
REICHEL, M., BEDNAREK, A., 2007, The experimental studies on hydrofoil resistance, Archives Of Civil And Mechanical Engineering, Vol 7, No 2, pp 167-
175.
JOHNSTON, R. J., 1985, Hydrofoils, Naval Engineers Journal, Modern Ships and Craft, American Society of Naval Engineers, Virginia, USA, Vol 97, No 2, PP
142-199, February, 1985.
KIM, S. H., YAMATO, H., 2004, An experimental study of the longitudinal motion control of a fully submerged hydrofoil model in following seas, Ocean
Engineering, 31, pp 523-537.
KIM, S. H., YAMATO, H., On the design of a longitudinal motion control system of a fully-submerged hydrofoil craft based on the optimal preview servo
system, Ocean Engineering, 31, pp 1637-1653.
RHEE, S. H., KIM, S. E., AHN, H., OH, J., KIM, H., 2003, Analysis of a jetcontrolled high-lift hydrofoil with a flap, Ocean Engineering 30, pp 2117–2136.
ABBOTT, I. H., 1942, Test of a highly cambered low-drag-airfoil section with a lift control flap, Special Report, NASA Technical Report Server.
ABBOTT, I. R., 1949, Theory of Wing Sections, NASA Technical Report.
ISO 2631, 1978, Guia para avaliação da exposição humana às vibrações de corpo inteiro, Segunda Edição.
REICHEL, M., BEDNAREK, A., 2007, The experimental studies on hydrofoil resistance, Archives Of Civil And Mechanical Engineering, Vol 7, No 2, pp 167-
175.
JOHNSTON, R. J., 1985, Hydrofoils, Naval Engineers Journal, Modern Ships and Craft, American Society of Naval Engineers, Virginia, USA, Vol 97, No 2, PP
142-199, February, 1985.
KIM, S. H., YAMATO, H., 2004, An experimental study of the longitudinal motion control of a fully submerged hydrofoil model in following seas, Ocean
Engineering, 31, pp 523-537.
KIM, S. H., YAMATO, H., On the design of a longitudinal motion control system of a fully-submerged hydrofoil craft based on the optimal preview servo
system, Ocean Engineering, 31, pp 1637-1653
RHEE, S. H., KIM, S. E., AHN, H., OH, J., KIM, H., 2003, Analysis of a jetcontrolled high-lift hydrofoil with a flap, Ocean Engineering 30, pp 2117–2136.
ABBOTT, I. H., 1942, Test of a highly cambered low-drag-airfoil section with a lift control flap, Special Report, NASA Technical Report Server.
ABBOTT, I. R., 1949, Theory of Wing Sections, NASA Technical Report.