참고문헌
- Beckert, D.W. and Bartenwerfer, M., 1989. The viscous flow on surfaces with longitudinal ribs. Journal Fluid Mechanics, 206, pp.105-129. https://doi.org/10.1017/S0022112089002247
- Choi, K.S., Yang, X., Clayton, B.R., Glover, E.J., Atlar, M., Semenov, B.N. and Kulik, V.M., 1997. Turbulent drag reduction using compliant surfaces. Proceedings of the Royal Society of London, 453(1965), pp.2229-2240. https://doi.org/10.1098/rspa.1997.0119
- Hefner, J.N., Weinstein, L.M. and Bushnell, D.M., 1979. Large-Eddy breakup scheme for turbulent viscous drag reduction. Paper of the Symposium on Viscous Drag Reduction. In: Viscous flow drag reduction; Symposium, Dallas, Texas, 7-8 November 1979, p.110-127.
- Hutchins, N., 2003. An investigation of larger-scale coherent structures in fully developed turbulent boundary layers. Ph.D. University of Nottingham.
- Hutchins, N. and Choi, K.S., 2002. Towards a greater understanding of turbulent skin friction reduction. Proceedings of ASME FEDSM'02 2002 ASME Fluids Engineering Division Summer Meeting, Montreal, Quebec, Canada, 14-18 July 2002, Paper No. FEDSM2002-31060, pp.1449-1454.
- Moffat, R.J., 1982. Contributions to the theory of single-sample uncertainty analysis. Trans ASME Journal Fluids Engineering, 104, pp.250-260. https://doi.org/10.1115/1.3241818
- Park, H., An, N.H., Hutchins, N., Choi, K.S., Chun, H.H. and Lee, I., 2011. Experimental investigation on the drag reducing efficiency of the outer-layer vertical blades. Journal Marine Science Technology, 16(4), pp.390-401. https://doi.org/10.1007/s00773-011-0135-0
- Schlichting, H. and Gersten, K., 2000a. Boundary layer theory. 8th Ed. Berlin: Springer-Verlag.
- Schoppa, W. and Hussain, F., 1998. Genesis of longitudinal vortices in near-wall turbulence. Meccanica, 33, pp.489-501. https://doi.org/10.1023/A:1004320610285
- Walsh, M., 1980. Drag characteristics of V-groove and transverse curvature riblets. Symposium on Viscous flow drag reduction, Dallas, TX, 7-8 November 1979, pp.168-184.
- White, F.M., 1991. Viscous fluid flow. 2nd Ed. New York: McGraw Hill.