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수상안전을 위한 Sculling 동작의 전산유체역학적 연구

A Computational Fluid Dynamic Study on the Sculling Motion for Water Safety

  • 투고 : 2011.11.30
  • 심사 : 2012.01.02
  • 발행 : 2012.02.28

초록

This study analyses the effects of various angles in sculling on human body lift and drag by means of computational fluid dynamics, discusses the importance of sculling and provides a basis for the development of future water safety education programmes. Study subjects were based on the mean data collected from males in the age of 20s from a survey on the anthropometric dimensions of the Koreans. Moreover, lift, drag as well as coefficient values, all of which were governed by the angle of the palm, were calculated using 3-dimentional modelling produced by computational fluid dynamics programmes i.e. CFD. Interpretations were performed via general k-${\varepsilon}$ turbulence modelling in order to determine lift, drag and coefficient values. Turbulence intensity was set to one per cent as per the figures from preceding research papers and 3-dimentional simulations were performed for a total of five different angles $0^{\circ}$, $15^{\circ}$, $30^{\circ}$, $45^{\circ}$ and $60^{\circ}$. The drag and lift values for the differing angles of the hands during sculling movement are as follows. The lift and drag values gradually increased with the increasing angle of the palm, however, the magnitude of increase for drag started to predominate lift from $45^{\circ}$ and lift gradually decreased from $60^{\circ}$. Overall, it is concluded that the optimal efficiency of sculling can be achieved at the angles $15^{\circ}$ and $30^{\circ}$, and it is anticipated that greater safety and informative education can be ensured for Life saving trainees if the results were to be applied to practical settings. However, as the study was conducted using simulation programmes which performed analyses on the collected anthropometric dimension, the obtained results cannot be made universal, which warrants furthers studies involving varied study subjects with actual measurements taken in water.

키워드

참고문헌

  1. 권혁동(2004). 해양훈련이 신체에 미치는 영향, 한국수산해양교육학회지, 16(2), 156-162.
  2. 김성수(1991). 스포츠 의학 입문, 서울: 보경문화사. 314.
  3. 김정림(2011). 수영 For beginner's swimming. 부산: 동부산대학, 16-20.
  4. 대한적십자사(2003). 수상인명구조, 서울 : 대한적십자사, 42-43.
  5. 대한적십자사(2003). 안전수영, 서울 : 대한적십자사, 40-68.
  6. 배영훈. 김용재(2011). 해양스포츠참여자의 여가만족이 운동지속에 미치는 영향, 한국수산행양교육학회지, 23(3), 468-476.
  7. 백진호.강효민.김정규.김효식.양승민.한성진(2010). 체육지도자 수영 훈련지도서, 서울 : 국민체육진흥공단 체육과학연구원.
  8. 이한우.박충남(1999). 경남과 부산지역의 익수사고에 대한 실태조사연구, 경남 체육연구, 4권, 20-21.
  9. 조강래, 유정열, 강신형(2007). 유체역학 fourht edition : McGraw-Hill.
  10. 조윤제(1999). 수영지도와 수상안전, 부산 : 부산정보대학.
  11. 지삼업, 김용재, 이재형(2007). 어촌.어항을 활용한 해양스포츠 체험관광 활성화 방안, 한국수산해양교육학회지, 17(1), 86-105.
  12. 황차욱(2007). 부산지역 해수욕장의 수상안전에 관한 연구, 부경대학교 일반대학원 석사학위논문.
  13. Barry Bixler, Scott Riewald.(2002). Analysis of a swimmer's hand and arm in steady flow conditions using computational fluid dynamics, Journal of Biomechanics, 35, 713-717. https://doi.org/10.1016/S0021-9290(01)00246-9
  14. Berger, M.A,M., G. de Groot, and A.P. Hollander.(1995). Hydrodynamic drag and lift forces on human hand/ arm models, Journal of Biomechanics, 28(2), 125-133. https://doi.org/10.1016/0021-9290(94)00053-7
  15. Biomechanics and Medicine in Swimming X.(2006). Proceedings of the Xth International Symposium for Biomechanics and Medicine in Swimming, Portugese Journal of Sport Sciences, 6(2).
  16. Bixler, B.(1999). The computational fluid dynamics analysis of a swimmer's hand and arm. Report presented to the Sports Medicine Committee of U.S.A. Swimming, Colorado Springs.
  17. Bixler, B.(2002). Analysis of a swimmer's hand and ann in steady flow conditions using computational fluid dynamics, Journal of Biomechanics, 35, 713-717. https://doi.org/10.1016/S0021-9290(01)00246-9
  18. Cappaert, J.(1993). Biomechanical Analysis of the swimming events in the 1992 summer olympic games. Report, published and distributed by U.S.A. Swimming, Colorado springs.
  19. Ernest W. Maglischo.(2003). Swimming fastest, USA : Human Kinetics.
  20. Ferrell, M.D.(1991). An analysis of tile Bernoulli lift effect as a propulsive component of swimming strokes, Masters thesis, State University of New York, Cortland.
  21. Hideki Takagi, Barry Wilson.(1998). Evaluation Hydrodynamic Forces By Using Pressure Differences In Swimming.
  22. Schleihauf, R.E., Jr.(1979). A hydrodynamic analysis of swimming propulsion, In international series on sport sciences. Vol. 8, swimming 3, edited by J. Terauds and E.W. Bedingfield, 70-109, Baltimore: University Park Press.
  23. Thayer, A.M.(1990). Hand pressures as predictors of resultant and propulsive hand forces in swimming. Doctoral dissertation, University of Iowa, Iowa City.

피인용 문헌

  1. The Effect of After-school Physical Activity on Body Composition and Health Related Fitness of Middle School Students vol.26, pp.3, 2014, https://doi.org/10.13000/JFMSE.2014.26.3.525