Analysis of the Super-Cavitating Flow Around 2-Dimensional Hydrofoil |
조충호
(한국 원자력 연구소)
김건도 (충남대학교 공과대학 선박해양공학) 김종운 (충남대학교 공과대학 선박해양공학) 이창섭 (충남대학교 공과대학 선박해양공학과) |
1 | Lee, J.T., 1987,A Potential-based Panel Method for the Analysis of Marine Propellers in Steady Flow, Ph.D. Thesis, M.I.T., Dept. of Ocean Engineering, Cambridge, Mass. |
2 | Geurst, J. A., 1960, “Linearized Theory for Fully Cavitated Hydrofoils,” International Shipbuilding Progress, Vol. 7, No. 65. |
3 | Johnson, V.E., Jr., 1958, “The Influence of Submersion, Aspect ratio, and Thickness on Supercavitating Hydrofoils Operating at Zero Cavitation Number,” Proc. Second Symp. On Naval Hydrodynamics, Washington, D.C. |
4 | Wade, R.B. and Acosta, A.J. 1966, “ExperimentalObservations on the Flow Past a Plano-Convex Hydrofoil,” J. of Basic Eng. Trans. ASME, Series D, Vol. 88, pp.273-283. DOI |
5 | Golden, D. W., 1975, A Numerical Method for Two Dimensional, Cavitating, Lifting Flow, M.S. Thesis, M.I.T., Dept. of Ocean Engineering, Cambridge, Mass. |
6 | Fine, N. E., 1992, Nonlinear Analysis of Cavitating Propellers in Nonuniform Flow, Ph.D. Thesis, M.I.T., Dept. of Ocean Engineering, Cambridge, Mass. |
7 | Kerwin, J. E., 1961, The Solution of Propeller Lifting Surface Problems by Vortex Lattice Methods, M.I.T., Dept. of Naval Architecture and Marine Engineering, Cambridge, Mass. |
8 | Lee, C.S., 1979, Prediction of Steady and Unsteady Performance of Marine Propellers with or without Cavitation by Numerical Lifting-Surface Theory, Ph.D. Thesis, M.I.T., Dept. of Ocean Engineering, Cambridge, Mass. |
9 | Kerwin, J. E., Kinnas, S. A., Wilson, M. B. and McHugh, J., 1986, “Experimental and Analytical Techniques for the Study of Unsteady Propeller Sheet Cavitation,” Proc. of 16th Symposium on Naval Hydrodynamics, Berkeley, Calif. |
10 | Kinnas, S. A., 1985, “Non-linear Corrections to the Linear Theory for the Prediction of the Cavitating Flow Around Hydrofoils,” Technical Report 85-10, M.I.T., Dept. of Ocean Engineering, Cambridge, Mass. |
11 | Lighthill, M. J., 1951,“A New Approach to Thin Aerofoil Theory,” The Aeronautical Quarterly, Vol. 3, No. 2, pp.193-210. DOI |
12 | 김영기, 1995, 패널법에 의한 프로펠러 주위의 비정상 공동 유동 해석, 박사학위 논문, 충남대학교 선박해양공학과. |
13 | Jiang, C. W., 1977, Experimental and Theoretical Investigation of Unsteady Supercavitating Hydrofoils of Finite Span, Ph.D. Thesis, M.I.T., Dept. of Ocean Engineering, Cambridge, Mass. |
14 | 한재문, 1996, Lighthill 수정법을 고려한 프로펠러 주위의 공동 유동 해석, 충남대학교 석사논문. |
15 | Geurst, J. A., 1959,“Linearized Theory for Partially Cavitated Hydrofoils,” International Shipbuilding Progress, Vol. 6, No. 60, pp. 369-384. |
16 | Nishiyama, T. and Ota, T,. 1971, “Linearized Potenital Flow Models for Hydrofoils in Supercavitating Flows,” J. of Basic Eng. Vol.93, pp.550-564. DOI |
17 | Tulin, M.P., 1953, Steady Two-Dimensional Cavity Flows About Slender Bodies, David Taylor Model Basin Report 834. |
18 | Tulin, M.P. and Burkart, M.P., 1955, Linearized Theory for Flows about Lifting Foils at Zero Cavitation Numbers, David Taylor Model Basin Report C-638. |