1 |
Belevich, M., A. Safray, K.J. Lee and K.H. Kim, 2002. Wave boundary layer: Parameterization technique and its proof. Int. J. Ocean. Eng. and Tech., 16(2), 1020
|
2 |
Fletcher, C.A.J, 1991. Computational techniques for fluid dynamics. Springer - Verlag, 2, 552
|
3 |
Kim, D.Y. and J.W. Kim, On the characteristics of internal waves between two stratified fluid layers. The Society of Naval Architects of Korea, 34(3), 1 - 8
|
4 |
Mahadevan, A., Oliger J. and Street R., 1996, A non hydrostatic mesoscale ocean model. Jour. of Phys. Oceangr. 26 1868 - 1880
|
5 |
Norrie, D.H., D. Vries, 1978. An introduction to finite element analysis. Academic Press, 112
|
6 |
Orlanski, I., 1976, A simple boundary condition for unbounded hyperbolic flows. J. Comput. Phys., 21, 251-269
DOI
ScienceOn
|
7 |
Safray, A.S. and I.V. Tkatchenko, 2001. Modeling the expansion of deep - sea water along area of arctic marginal sea. Research Activities in Atmospheric and Ocean Modeling, Rep. 31, 8. I 7, WMO/TD? No. 1064
|
8 |
Schachverdi G.G., 1993. The impact interaction of ship construction with fluid. Sudostoenie, St. Petersburg, 256
|
9 |
Flather, R.A., 1976. A tidal model of the Northwest European continental - shelf. Mem. Soc. R. Sci. Liege, Ser. 1-6, 10, 141-164
|
10 |
Small, J., Z. Hallock, G. Pavey and J. Scott, 1999. Observation of large amplitude internal waves at the marlin Shelf edge. Continental Shelf Research, 19, 1389 - 1436
DOI
ScienceOn
|
11 |
Muller, P., G. Holloway, F. Henyey and N. Pomphrey, 1986. Non -linear interactions among internal gravity waves. Reviews of Geophysics, 24, 493 - 536
DOI
|
12 |
Belevich, M., 1996. The Effect of Thermal Stratification on the Structure of the Wave Boundary Layer. Izv. Atmos. Ocean. Phys., .32, 397 - 401
|