The paper presents information on the history of designing Indiga Bay and the results of calculations of the hydrodynamic regime using the FESOM-C model. Time dependencies of the water surface level, current velocities, and maps of current distribution depending on wind strength and tide phases are obtained.
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Y. R. Rao, C. R. Murthy, and P. C. Sinha, “The coastal ocean,” in: C. R. Murthy, P. C. Sinha, and Y. R. Rao (eds.), Modelling and Monitoring of Coastal Marine Processes, Springer (Dordrecht) & Capital Publishing Company, New Delhi (2008), pp. 3 – 10.
H. Burchard, Applied Turbulence Modelling in Marine Waters, Lecture Notes in Earth Sciences. Vol. 100, Springer, Berlin – Heidelberg – New York (2002). https://doi.org/10.1007/3-540-45419-5
C. Chen, H. Huang, R. C. Beardsley, H. Liu, Q. Xu, and G. Cowles, “A finite volume numerical approach for coastal ocean circulation studies: Comparisons with finite difference models,” J. Geophys. Res. Oceans, 112(3) (2007). https://doi.org/10.1029/2006JC003485
A. Androsov, V. Fofonova, I. Kuznetsov, S. Danilov, N. Rakowsky, S. Harig, H. Brix, and H. K. Wiltshire, “FESOM-C v. 2: Coastal dynamics on hybrid unstructured meshes,” Geosci. Model Devel., 12(3), 1009 – 1028 (2019). https://doi.org/10.5194/gmd-12-1009-2019
I. Kuznetsov, A. Androsov, V. Fofonova, S. Danilov, N. Rakowsky, S. Harig, and K. H. Wiltshire, “Evaluation and application of newly designed finite volume coastal model FE- SOM-C, effect of variable resolution in the southeastern North Sea,”Water, 12(5), 1412 (2020). https://doi.org/10.3390/w12051412
K. J. Whittle, “Marine organisms and their contribution to organic matter in the oceans,” Marine Chem., 5, 381 – 411 (1997).
G. D. Sharp, “Fish populations and fisheries: their perturbations, natural and man induced,” in: H. Postma and J. Zijlstra (eds.), Ecosystems of the World. Vol. 27. Continental Shelves, Elsevier, Amsterdam (1988), pp. 155 – 202.
A. Yool and M. Fasham, “An examination of the ‘continental shelf pump’ in an open ocean general circulation model,” Global Biogeochem. Cycles, 15(4), 831 – 844 (2001).
O. B. Fringer, C. N. Dawson, R. He, D. K. Ralston, and Y. J. Zhang. “The future of coastal and estuarine modeling: Findings from a workshop,” Ocean Modelling, 143, 101458 (2019).
Indiga River. https://en.wikipedia.org/wiki/Indiga
V. Chereneva, “From Europe to Asia at a glance,” Ross. Gazeta. Stolich. Vyp., No. 217(6489) (2014). https://rg.ru/2014/09/24/secevmorput.html
M. I. Belov, Chronological Tables. Vol. III. 1918 – 1932 [in Russian]. http://www.polarpost.ru/forum/viewtopic.php?f=39&t=1305#p11563.
G. Nalivaiko, Preliminary Report on the Harbor Surveys in the Estuaries of the Indiga and Peshi Rivers of the Arctic Ocean, Conducted in 1920 – 1922 [in Russian], General Directorate of State Construction, Petrograd (1922).
G. Nalivaiko, Chronicle of the North. Vol. IV [in Russian], Gosudarstvennoe izdatel’stvo geograficheskoi literatury, Moscow (1964), pp. 77 – 79.
N. Moiseev, The Barrier to the Middle Ages [in Russian], Tidex, Moscow (2003).
Development of the Arctic Maritime Transport System [in Russian]. http://council.gov.ru/media/files/wuwse49cJY490fIfXCaj7Lnju54U9ZlJ.pdf
Investment Portal of the Arctic Zone of Russian Federation [in Russian]. https://arctic-russia.ru/project/port-indiga
S. Danilov, D. Sidorenko, Q. Wang, and T. Jung, “The FinitevolumE Sea ice-Ocean Model (FESOM2),” Geosci. Model Devel., 10(2), 765 – 789. 10.5194/gmd-10-765-2017
A. Blumberg and G. Mellor, “A description of a three-dimensional coastal ocean circulation model,” in: N. Heaps (ed.), Three-Dimensional Coastal Ocean Models. Vol. 4, American Geophysical Union (1987).
S. Danilov and A. Androsov, “Cell-vertex discretization of shallow water equations on mixed unstructured meshes,” Ocean Dynamics, 65, 33 – 47 (2015). https://doi.org/10.1007/sec10236-014-0790-x
T. Cebeci and A. Smith, Analysis of Turbulent Boundary Layers, Acad. Press, New York (1974).
L. Padman, S. Erofeeva, and S. Howard, AOTIM5: Arctic Ocean Inverse Tide Model, on 5 kilometer grid, developed in 2004, Arctic Data Center (2020). https://doi.org/10.18739/A2S17SS80.
H. Hersbach, B. Bell, P. Berrisford, G. Biavati, A. Horanyi, J. Munoz Sabater, J. Nicolas, C. Peubey, R. Radu, I. Rozum, D. Schepers, A. Simmons, C. Soci, D. Dee, and J.-N. Thepaut, ERA5 Hourly Data on Single Levels from 1979 to Present, Copernicus Climate Change Service (C3S) Climate Data Store (CDS) (2018). https://doi.org/10.24381/cds.adbb2d47
GRDC Pechora (Station Oksino), The Global Runoff Data Centre, Koblenz, Germany. https://portal.grdc.bafg.de/applications/public.html?publicuser=PublicUser#dataDownload/Stations
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Translated from Gidrotekhnicheskoe Stroitel’stvo, No. 8, August 2022, pp. 42 – 49. DOI: https://doi.org/10.34831/EP.2022.79.13.006
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Debolskaya, E.I., Kuznetsov, I.S. & Androsov, A.A. Numerical Simulation of Hydrodynamic Processes in Indiga Bay. Power Technol Eng 56, 691–697 (2023). https://doi.org/10.1007/s10749-023-01575-z
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DOI: https://doi.org/10.1007/s10749-023-01575-z