SIMULATION OF MULTICOMPONENT POLLUTION DISTRIBUTION IN RESERVOIR ON HIGH PERFORMANCE COMPUTING SYSTEMS
DOI:
https://doi.org/10.14529/cmse140108Keywords:
mathematical modeling, convective-diffusive transport, computational experiment, high-performance computingAbstract
Transport processes of multicomponent substances in the pond are considered. Examples of the substances are the radionuclide and oil pollution in natural waters. The resulting numerical problems are solved by high-performance computing systems using existing packages parallelized iterative methods. Azov Sea is considered as a test problem.
References
Krukier L.A. Implicit difference schemes and the iterative method for solving the class of systems of quasilinear equations // Russian Mathematics (Iz. VUZ). 1979. No. 7. P. 41–52.
Shabas I.N. Numerical solution of three-dimensional problem of substance concretion in the Azov Sea. Proceedings IX All-Russian Workshop "Modern Problems of Mathematical Modeling Rostov-on-Don, Publisher RSU 2001. P. 414–417.
Zheleznyak M.J. The mathematical modelling of radionuclide transport by surface water flow from the vicinity of the Chornobyl Nuclear Power Plant. Condensed Matter Physics. 1997. No. 12. P. 37–50.
Fay J.A. The spread of oil slicks on a calm sea // Oil on the sea. Plenum Press. New-York, 1969. P. 53–63.
Fay J.A. Physical processes in the spread of oil on a water surface // Proc. of h- о Joint Conf. on prevention and control of oil spills. Washington, 1971.
Zadeh E.S., Hejazi K. Eulerian Oil Spills Model Using Finite-Volume Method with Moving Boundary and Wet-Dry Fronts // Modelling and Simulation in Engineering Volume 2012 (2012), Article ID 398387.
Tkalich P. A CFD solution of oil spill problems // Environmental Modelling & Software. 2006. Vol. 21. P. 271–282.
Wang S.D., Shen Y.M., Guo Y.K., Tang J. Three-dimensional numerical simulation for transport of oil spills in seas // Ocean Engineering. 2008. Vol. 35, No. 5–6. P. 503–510.