1. Maderich V., Brovchenko I., Terletska K., Hutter K. (2012) Numerical simulations of the nonhydrostatic transformation of basin-scale internal gravity waves and wave-enhanced meromixis in lakes. Ch. 4 in Hutter K. (Ed.) Nonlinear internal waves in lakes. Springer. Series: Advances in Geophysical and Environmental Mechanics, p. 192-276. 


1. R. Periáñez, R. Bezhenar, I. Brovchenko, C. Duffa, M. Iosjpe, K.T. Jung, K.O. Kim, T. Kobayashi, L. Liptak, A. Little, V. Maderich, P. McGinnity, B.I. Min, H. Nies, I. Osvath, K.S. Suh, G. de With, Marine radionuclide transport modelling: Recent developments, problems and challenges // Environmental Modelling & Software, 122, 2019 https://doi.org/10.1016/j.envsoft.2019.104523
2. R. Periáñez, R. Bezhenar, I. Brovchenko, K.T. Jung, Y. Kamidara, K.O. Kim, T. Kobayashi, L. Liptak, V. Maderich, B.I. Min, K.S. Suh Fukushima. 137Cs releases dispersion modelling over the Pacific Ocean. Comparisons of models with water, sediment and biota data // 2019, Journal of environmental radioactivity, 198, p. 50-63.
3. R. Periáñez, I. Brovchenko, K.T. Jung, K.O. Kim, V. Maderich, The marine kd and water/sediment interaction problem // Journal of Environmental Radioactivity, 2018, https://doi.org/10.1016/j.jenvrad.2018.02.014.
4. Maderich V., Jung K.T., Brovchenko I., Kim K.O. Migration of radioactivity in multi-fraction sediments. // Environmental Fluid Mechanics, 2017, Vol. 17(6), 1207-1231.
5. R. Periáñez, R. Bezhenar, I. Brovchenko, C. Duffa, M. Iosjpe, K.T. Jung, T. Kobayashi, F. Lamego, V. Maderich, B.I. Min, H. Nies, I. Osvath, I. Outola, M. Psaltaki, K.S. Suh, G. de With, Modelling of marine radionuclide dispersion in IAEA MODARIA program: Lessons learnt from the Baltic Sea and Fukushima scenarios // Science of The Total Environment, Volumes 569-570 (2016) 594-602.
6. Kateryna Terletska, Kyung Tae Jung, Tatiana Talipova, Vladimir Maderich, Igor Brovchenko and Roger Grimshaw Internal breather-like wave generation by the second mode solitary wave interaction with a step Physics of fluids,2016, 28 (11) pp. 10.1063/1.4967203.
7. Raúl Perianez, Igor Brovchenko, Celine Duffa, Kyung-Tae Jung, Takuya Kobayashi, Fernando Lamego, Vladimir Maderich, Byung-Il Min, Hartmut Nies, Iolanda Osvath, Maria Psaltaki, Kyung-Suk Suh "A new comparison of marine dispersion model performances for Fukushima Dai-ichi releases in the frame of IAEA MODARIA program" Journal of Environmental Radioactivity 150 (2015), 247-269.
8. V. Maderich, K. Jung, E.Terletska, T. Talipova, I. Brovchenko. Incomplete similarity of internal solitary waves with trapped core Fluid Dynamics Research // Fluid Dyn. Res. 47 (2015) 035511 (19 pp.)
9. Talipova T., Terletska K., Maderich V., Brovchenko I., Jung K.T., Pelinovsky E., Grimshaw R., (2013) Internal solitary wave transformation over a bottom step: loss of energy, Physics of Fluids 25, 032110; doi: 10.1063/1.4797455
10. Roland A., Zhang Y.J., Wang H.V., Meng Y, Teng Y.-C., Maderich V., Brovchenko I., Dutour-Sikiric M., Zanke U. (2012) A fully coupled 3D wave-current interaction model on unstructured grids. J. Geophys Res., 117, C00J33, p.1-18 doi:10.1029/2012JC007952
11. Maderich V., Brovchenko I., K.T. Jung (2012) Oil spreading in instantaneous and continuous spills on rotating Earth. Environmental Fluid Mechanics 12, 361-378. doi: 10.1007/s10652-012-9239-2
12. Maderich V., Talipova T., Grimshaw R., Terletska K., Brovchenko I., Pelinovsky E., Choi B.H. (2010) Interaction of a large amplitude interfacial solitary wave of depression with a bottom step. Physics of Fluids, 22, 076602, doi:10.1063/1.3455984
13. Maderich V., Talipova T., Grimshaw R., Pelinovsky E., Choi B.H., Brovchenko I., Terletska K., Kim D.C. (2009) The transformation of an interfacial solitary wave of elevation at a bottom step. Nonlinear Processes in Geophysics, 16, 33-42.
14. Maderich V., Heling R., Bezhenar R., Brovchenko I., Jenner H., Koshebutskyy V., Kuschan A., Terletska K. (2008) Development and application of 3D numerical model THREETOX to the prediction of cooling water transport and mixing in the inland and coastal waters. Hydrological Processes, 22, 1000-1013.
15. Brovchenko I., Kanarska Y., Maderich V., Terletska K. (2007) 3D non-hydrostatic modelling of bottom stability under impact of the turbulent ship propeller jet. Acta Geophysica, 55, no 1, pp. 47-55.
16. Brovchenko I., Maderich V. (2005) Oil dispersion by breaking waves and currents. Modeling of transport of spilled oil in wind and wave driven sea. Sea Technology, 46, No. 4, p.17-21.
17. Kyrychko, Y.N., Blyuss, K.B. & Brovchenko, I. Mathematical modelling of the dynamics and containment of COVID-19 in Ukraine. // Sci. Rep.10,19662 (2020).https://doi.org/10.1038/s41598-020-76710-1.


      Останнє оновлення: Feb 4, 2021