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Предыдущая версия справа и слева Предыдущая версия Следующая версия | Предыдущая версия | ||
ru:people:nikitin [2022/04/07 14:20] Kirill Nikitin |
ru:people:nikitin [2023/07/27 12:00] Kirill Nikitin |
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- | {{:ru:people:ava-austin-2.jpg?200|}} | + | {{:ru:people:ava-austin-2.jpg?240|}} |
====== Kirill Dm. Nikitin ====== | ====== Kirill Dm. Nikitin ====== | ||
- | {{:ru:people:nikitin-cv.pdf|Curriculum Vitae}} | + | |
+ | {{:ru:people:nikitin_cv_07_23.pdf | Curriculum Vitae}} | ||
===== Contacts ===== | ===== Contacts ===== | ||
* e-mail: nikitin.kira (at) gmail.com | * e-mail: nikitin.kira (at) gmail.com | ||
- | * LinkedIn: [[:www.linkedin.com/in/kirill-d-nikitin/|Kirill Nikitin]] | + | * LinkedIn: [[http://linkedin.com/in/kirill-d-nikitin/|Kirill Nikitin]] |
===== Member of ===== | ===== Member of ===== | ||
- | [[:freesurface|]] | + | * [[:freesurface|]] |
- | + | * [[:fvmon|]] | |
- | [[:fvmon|]] | + | |
===== Publications ===== | ===== Publications ===== | ||
Строка 19: | Строка 19: | ||
==== Free surface flows ==== | ==== Free surface flows ==== | ||
- | [1] K.D.Nikitin, M.A.Olshanskii, K.M.Terekhov, Y.V.Vassilevski, R.M.Yanbarisov. "An adaptive numerical method for free surface flows passing rigidly mounted obstacles" %%//%% Computers and Fluids, Vol.148, (2017), pp.56-69. http://dx.doi.org/10.1016/j.compfluid.2017.02.007 | + | [1] K. Nikitin, Y.Vassilevski, R.Yanbarisov, "An implicit scheme for simulation of free surface non-Newtonian fluid flows on dynamically adapted grids" %%//%% Russian Journal of Numerical Analysis and Mathematical Modelling, Vol. 36, I. 3, (June 2021), pp. 165-176. {{freesurface::rjnamm_nvy_2021.pdf|PDF}} |
- | [2] K. Nikitin, M. Olshanskii, K. Terekhov, Y. Vassilevski. "A splitting method for numerical simulation of free surface flows of incompressible fluids with surface tension" %%//%% Computational Methods in Applied Mathematics, 2014, DOI:10.1515/cmam-2014-0025 | + | [2] K. Nikitin, K.Terekhov, Y.Vassilevski, "Two methods of surface tension treatment in free surface flow simulations" %%//%% Applied Mathematics Letters, Vol. 86, (December 2018), pp. 236-242. {{::1-s2.0-s089396591830226x-main.pdf|PDF}} |
- | [3] A. Danilov, K. Nikitin, M. Olshanksii, K. Terekhov, Y. Vassilevski. "A unified approach for computing tsunami, waves, floods, and landslides" %%//%% Numerical mathematics and advanced applications – ENUMATH 2013 / Lecture Notes in Computational Science and Engineering, 2015, Vol. 103. | + | [3] K. Nikitin, M.Olshanskii, K.Terekhov, Y.Vassilevski, "A splitting method for free surface flows over partially submerged obstacles" %%//%% Russian Journal of Numerical Analysis and Mathematical Modelling, Vol. 33, No. 2, (2018), pp. 95-110. {{::semisubmerged.pdf|PDF}} |
- | [4] K.D.Nikitin, M.A.Olshanskii, K.M.Terekhov, Yu.V.Vassilevski. "CFD technology for 3D simulation of large-scale hydrodynamic events and disasters." %%//%% | + | [4] K. Nikitin, M. Olshanskii, K. Terekhov, Y. Vassilevski, R. Yanbarisov. "An adaptive numerical method for free surface flows passing rigidly mounted obstacles" %%//%% Computers and Fluids, Vol. 148, (2017), pp. 56-69. {{::1-s2.0-s0045793017300518-main.pdf|PDF}} |
- | Russian Journal of Numerical Analysis and Mathematical Modelling, Vol.27, No.4, (2012), pp.399--412. {{:notv2012.pdf|}} | + | |
- | [5] K.D.Nikitin, M.A.Olshanskii, K.M.Terekhov, Yu.V.Vassilevski. "Numerical modelling of viscoplastic free surface flows in complex 3D geometries." %%//%% Proc. of European Congress on Computational Methods in Applied Sciences and Engineering, ECCOMAS 2012. | + | [5] K. Nikitin, K. Terekhov, M. Olshanskii, Y. Vassilevski. "A semi-largangian method on dynamically adapted octree meshes" %%//%% Russian Journal of Numerical Analysis and Mathematical Modelling, Vol. 30, No. 6, (2015), pp. 363-380. {{::semilagrn.pdf|PDF}} |
- | [6] K.D.Nikitin, M.A.Olshanskii, K.M.Terekhov, Yu.V.Vassilevski. "A numerical method for the simulation of free surface flows of viscoplastic fluid in 3D." %%//%% Journal of Computational Mathematics, Vol.29, No.6, 2011, 605–622. {{:notv2011.pdf|}} | + | [6] K. Nikitin, M. Olshanskii, K. Terekhov, Y. Vassilevski. "A splitting method for numerical simulation of free surface flows of incompressible fluids with surface tension" %%//%% Computational Methods in Applied Mathematics, 2014, DOI:10.1515/cmam-2014-0025 {{::cmam-2014-0025.pdf|PDF}} |
- | [7] К.Д.Никитин "Метод конечных объемов для задачи конвекции-диффузии и моделей двухфазных течений." Кандидатская диссертация, 2010. {{:nikitin-thesis.pdf|}}\\ | + | [7] A. Danilov, K. Nikitin, M. Olshanksii, K. Terekhov, Y. Vassilevski. "A unified approach for computing tsunami, waves, floods, and landslides" %%//%% Numerical mathematics and advanced applications – ENUMATH 2013 / Lecture Notes in Computational Science and Engineering, Vol. 103, (2015). {{ ::preprint_no13-24.pdf |PDF}} |
- | //K.D.Nikitin "Finite volume method for advection-diffusion equation and multiphase flows", Ph.D. thesis, 2010. nikitin-thesis.pdf (in Russian)// | + | |
- | [8] К.Д.Никитин. "Реалистичное моделирование свободной водной поверхности на адаптивных сетках типа восьмеричное дерево." %%//%% Научно-технический вестник СПбГУ ИТМО, Т.70, №6, (2010), С.60-64.\\ | + | [8] K.D.Nikitin, M.A.Olshanskii, K.M.Terekhov, Yu.V.Vassilevski. "CFD technology for 3D simulation of large-scale hydrodynamic events and disasters." %%//%% Russian Journal of Numerical Analysis and Mathematical Modelling, Vol.27, No.4, (2012), pp.399--412. {{:notv2012.pdf|PDF}} |
- | //K.D.Nikitin. "Realistic free surface flow modelling on adaptive octree meshes." %%//%% SpbGU ITMO, Vol.70, No.6, (2010), pp.60-64. (in Russian)// | + | |
- | [9] K.D.Nikitin, M.A.Olshanskii, K.M.Terekhov, Y.V.Vassilevski. "Preserving distance property of level set function and simulation of free surface flows on adaptive grids" %%//%% Numerical geometry, grid generation and high perfomance computing, (2010), pp.25-32. | + | [9] K.D.Nikitin, M.A.Olshanskii, K.M.Terekhov, Yu.V.Vassilevski. "A numerical method for the simulation of free surface flows of viscoplastic fluid in 3D." %%//%% Journal of Computational Mathematics, Vol.29, No.6, 2011, 605–622. {{:notv2011.pdf|PDF}} |
- | [10] К.Д.Никитин, А.Ф.Сулейманов, К.М.Терехов. "Технология моделирования течений со свободной поверхностью в реалистичных сценах." %%//%% Труды математического общества им. Н.И.Лобачевского, Казань: Казан.матем.об-во, T.39, (2009), с.305-307. | + | [10] K.D.Nikitin "Finite volume method for advection-diffusion equation and multiphase flows", Ph.D. thesis, 2010. {{:nikitin-thesis.pdf|PDF}} (in Russian) |
- | [11] К.Д.Никитин. "Технология расчёта течений со свободной границей с использованием динамических гексаэдральных сеток." %%//%% Численные методы, параллельные вычисления и информационные технологии: Сборник научных трудов / Под ред. Вл.В.Воеводина и Е.Е.Тыртышникова, Изд-во МГУ, (2008), с.183-198. | + | [11] K.D.Nikitin. "Realistic free surface flow modelling on adaptive octree meshes." %%//%% SpbGU ITMO, Vol.70, No.6, (2010), pp.60-64. (in Russian) |
- | [12] K.D.Nikitin, Yu.V.Vassilevski. "Free surface flow modelling on dynamically refined hexahedral meshes." %%//%% Russian Journal of Numerical Analysis and Mathematical Modelling, Vol.23, No.5, (2008), pp.469-485. {{:nikitin-vassilevski-08.pdf|}} | + | [12] K.D.Nikitin, M.A.Olshanskii, K.M.Terekhov, Y.V.Vassilevski. "Preserving distance property of level set function and simulation of free surface flows on adaptive grids" %%//%% Numerical geometry, grid generation and high perfomance computing, (2010), pp.25-32. |
- | ==== Advection-diffusion problems and multi-phase flows ==== | + | [13] [[freesurface/jcp|K.D.Nikitin, M.A.Olshanskii, K.M.Terekhov, Yu.V.Vassilevski, "Numerical simulations of free surface flows on adaptive cartesian grids with level set function method" // submitted, November 2010.]] {{:notv9.pdf|PDF}} |
- | [13] И.В.Капырин, К.Д.Никитин, А.В.Расторгуев, В.В.Сускин. Верификация моделей ненасыщенной фильтрации и переноса в зоне аэрации на примере расчетного кода GeRa %%//%% Вопросы атомной науки и техники, серия Математическое моделирование физических процессов, No. 1, (2017), С.60-75. | + | [14] K.D.Nikitin, Yu.V.Vassilevski. "Free surface flow modelling on dynamically refined hexahedral meshes." %%//%% Russian Journal of Numerical Analysis and Mathematical Modelling, Vol.23, No.5, (2008), pp.469-485. {{ :nikitin-vassilevski-08.pdf |PDF}} |
- | [14] K.Nikitin, K.Novikov, Y.Vassilevski. Nonlinear finite volume method with discrete maximum principle for the two-phase flow model %%//%% Lobachevskii Journal of Mathematics, Vol.37, No.5, (2016), 570–581. http://dx.doi.org/10.1134/S1995080216050097 | + | [15] K.D.Nikitin. "Computational technology for free surface flows with the use of dynamic hexahedral meshes." %%//%% Computational Methods, Parallel Computing and Information Technology, MSU Publishing House, (2008), pp.183--193. (in Russian) |
- | [15] K.D.Nikitin, K.M.Terekhov, Y.V.Vassilevski, "A monotone nonlinear finite volume method for diffusion equations and multiphase flows" %%//%% Computational Geosciences: Vol. 18, No 3 (2014), pp 311-324, DOI: 10.1007/s10596-013-9387-6. {{:nik-ter-vas-13.pdf|}} | + | ==== Nonlinear FV methods for advection-diffusion and multi-phase flows ==== |
- | [16] K.Nikitin, V.Kramarenko, Y. Vassilevski. Enhanced Nonlinear Finite Volume Scheme for Multiphase Flows %%//%% ECMOR-XV, 2016. http://www.earthdoc.org/publication/publicationdetails/?publication=86236 | + | [16] I.Berre, et al. Verification benchmarks for single-phase flow in three-dimensional fractured porous media. %%//%% Advances in Water Resourcesthis, 2021, 147, 103759. |
- | [17] I.Konshin, I.Kapyrin, K.Nikitin, K.Terekhov. Application of the parallel INMOST platform to subsurface flow and transport modelling %%//%% Parallel Processing and Applied Mathematics, Lecture Notes in Computer Science, Vol.9574, (2016), 277-286. http://dx.doi.org/10.1007/978-3-319-32152-3_26 | + | [17] R.Yanbarisov, K.Nikitin. Projection-based monotone embedded discrete fracture method for flow and transport in porous media. %%//%% Journal of Computational and Applied Mathematics, 2021, 392, 113484. |
- | [18] K.D.Nikitin, K.M.Terekhov, Y.V.Vassilevski, "Multiphase flows -- nonlinear monotone FV scheme and dynamic grids" %%//%% ECMOR XIV - 14th European conference on the mathematics of oil recovery, (2014). | + | [18] K.Nikitin, R.Yanbarisov. Monotone embedded discrete fractures method for flows in porous media. %%//%% Journal of Computational and Applied Mathematics, 2020, 365, 112353. |
- | [19] I.V.Kapyrin, K.D.Nikitin, K.M.Terekhov, Y.V.Vassilevski, "Nonlinear monotone FV schemes for radionuclide geomigration and multiphase flow models" %%//%% Finite Volumes for Complex Applications VII-Elliptic, Parabolic and Hyperbolic Problems. – Springer International Publishing, (2014), pp. 655-663. | + | [19] V.Kramarenko, K.Nikitin, Y.Vassilevski. A finite volume scheme with improved well |
+ | modeling in subsurface flow simulation. %%//%% Computational Geosciences, 2017. DOI: 10.1007/s10596-017-9685-5. | ||
+ | {{:cg-knv-v3.pdf|}} | ||
- | [20] K.D.Nikitin, Y.V.Vassilevski. "A monotone non-linear finite volume method for advection-diffusion equations and multiphase flows." %%//%% 13th European Conference on the Mathematics of Oil Recovery, (2012), pp.1-21. {{:nik-vas-ecmor2012.pdf|}} | + | [20] И.В.Капырин, К.Д.Никитин, А.В.Расторгуев, В.В.Сускин. Верификация моделей ненасыщенной фильтрации и переноса в зоне аэрации на примере расчетного кода GeRa %%//%% Вопросы атомной науки и техники, серия Математическое моделирование физических процессов, No. 1, (2017), С.60-75. |
- | [21] K.Nikitin, A.Danilov, I.Kapyrin, Yu.Vassilevski. "Application of nonlinear monotone finite volume schemes to advection-diffusion problems." %%//%% Finite Volumes for Complex Applications VI – Problems & Perspectives, Vol.1, (2011), pp.761-769. | + | [21] K.Nikitin, K.Novikov, Y.Vassilevski. Nonlinear finite volume method with discrete maximum principle for the two-phase flow model %%//%% Lobachevskii Journal of Mathematics, Vol.37, No.5, (2016), 570–581. http://dx.doi.org/10.1134/S1995080216050097 |
- | [22] K.D.Nikitin, Y.V.Vassilevski. "A monotone finite folume method for advection-diffusion equations on unstructured polyhedral meshes in 3D." %%//%% Russian Journal of Numerical Analysis and Mathematical Modelling, Vol.25, No.4, (2010), pp.335-358. {{:nikitin-vassilevski-10.pdf|}} | + | [22] K.Nikitin, V.Kramarenko, Y. Vassilevski. Enhanced Nonlinear Finite Volume Scheme for Multiphase Flows %%//%% ECMOR-XV, 2016. http://www.earthdoc.org/publication/publicationdetails/?publication=86236 |
- | [23] К.Д.Никитин. "Нелинейный метод конечных объемов для задач двухфазной фильтрации." %%//%% Математическое моделирование, Т.22, №11, (2010), С.131-147 {{:nikitin10.pdf|}}\\ | + | [23] V.Kramarenko, K.Nikitin, Y.Vassilevski. A nonlinear correction FV scheme for near-well regions. %%//%% Finite Volumes for Complex Applications VIII, 2017. |
+ | |||
+ | [24] I.Konshin, I.Kapyrin, K.Nikitin, K.Terekhov. Application of the parallel INMOST platform to subsurface flow and transport modelling %%//%% Parallel Processing and Applied Mathematics, Lecture Notes in Computer Science, Vol.9574, (2016), 277-286. http://dx.doi.org/10.1007/978-3-319-32152-3_26 | ||
+ | |||
+ | [25] K.D.Nikitin, K.M.Terekhov, Y.V.Vassilevski, "Multiphase flows -- nonlinear monotone FV scheme and dynamic grids" %%//%% ECMOR XIV - 14th European conference on the mathematics of oil recovery, (2014). | ||
+ | |||
+ | [26] I.V.Kapyrin, K.D.Nikitin, K.M.Terekhov, Y.V.Vassilevski, "Nonlinear monotone FV schemes for radionuclide geomigration and multiphase flow models" %%//%% Finite Volumes for Complex Applications VII-Elliptic, Parabolic and Hyperbolic Problems. – Springer International Publishing, (2014), pp. 655-663. | ||
+ | |||
+ | [27] K.D.Nikitin, K.M.Terekhov, Y.V.Vassilevski, "A monotone nonlinear finite volume method for diffusion equations and multiphase flows" %%//%% Computational Geosciences: Vol. 18, No 3 (2014), pp 311-324, DOI: 10.1007/s10596-013-9387-6. {{:nik-ter-vas-13.pdf|}} | ||
+ | |||
+ | [28] K.D.Nikitin, Y.V.Vassilevski. "A monotone non-linear finite volume method for advection-diffusion equations and multiphase flows." %%//%% 13th European Conference on the Mathematics of Oil Recovery, (2012), pp.1-21. {{:nik-vas-ecmor2012.pdf|PDF}} | ||
+ | |||
+ | [29] K.Nikitin, A.Danilov, I.Kapyrin, Yu.Vassilevski. "Application of nonlinear monotone finite volume schemes to advection-diffusion problems." %%//%% Finite Volumes for Complex Applications VI – Problems & Perspectives, Vol.1, (2011), pp.761-769. | ||
+ | |||
+ | [30] K.D.Nikitin, Y.V.Vassilevski. "A monotone finite folume method for advection-diffusion equations on unstructured polyhedral meshes in 3D." %%//%% Russian Journal of Numerical Analysis and Mathematical Modelling, Vol.25, No.4, (2010), pp.335-358. {{:nikitin-vassilevski-10.pdf|PDF}} | ||
+ | |||
+ | [31] К.Д.Никитин. "Нелинейный метод конечных объемов для задач двухфазной фильтрации." %%//%% Математическое моделирование, Т.22, №11, (2010), С.131-147 {{:nikitin10.pdf|PDF}}\\ | ||
//K.D.Nikitin. "Nonlinear finite volume method for two-phase flows." %%//%% Mathematical Modelling, Vol.22, No.11, (2010), pp.131-147. (in Russian)// | //K.D.Nikitin. "Nonlinear finite volume method for two-phase flows." %%//%% Mathematical Modelling, Vol.22, No.11, (2010), pp.131-147. (in Russian)// | ||
Строка 74: | Строка 89: | ||
=== The research was supported by === | === The research was supported by === | ||
+ | * Russian Science Foundation grants 18-71-10111; | ||
* RFBR grants 12-01-31275, 12-01-33084, 14-01-00830, 15-35-20991 and 17-01-00886; | * RFBR grants 12-01-31275, 12-01-33084, 14-01-00830, 15-35-20991 and 17-01-00886; | ||
* Federal program grants № P1127, P753, 02.740.11.0746, 14.740.11.1389 and 14.514.11.4057; | * Federal program grants № P1127, P753, 02.740.11.0746, 14.740.11.1389 and 14.514.11.4057; | ||
Строка 79: | Строка 95: | ||
---- | ---- | ||
- | ===== Visualizations: ===== | + | ===== Visualization ===== |
=== Octree-MAC method === | === Octree-MAC method === | ||
Строка 85: | Строка 101: | ||
Simulation of the flow around cylinder with circular cross-section in inviscid limit with grid refined towards absolute value of vorticity. Colored in absolute value of vorticity. | Simulation of the flow around cylinder with circular cross-section in inviscid limit with grid refined towards absolute value of vorticity. Colored in absolute value of vorticity. | ||
- | [[http://dodo.inm.ras.ru/research/_media/movies:inviscid1.avi|{{:movies:inviscid1.png?518x103|Adaptively refined grid}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:inviscid1.mp4|{{:movies:inviscid1.png?518x103|Adaptively refined grid}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:inviscid2.avi|{{:movies:inviscid2.png?518x103|Adaptively refined grid}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:inviscid2.mp4|{{:movies:inviscid2.png?518x103|Adaptively refined grid}}]] |
=== Metro Station === | === Metro Station === | ||
Строка 93: | Строка 109: | ||
Flooding of the Polezhaevskaya Moscow Metro Station | Flooding of the Polezhaevskaya Moscow Metro Station | ||
- | [[http://dodo.inm.ras.ru/nikitink/Movies/Station/station-2.avi|{{:movies:station:0071.png?270x180|Flooding of the Polezhaevskaya Moscow Metro Station}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:station:station-2.mp4|{{:movies:station:0071.png?270x180|Flooding of the Polezhaevskaya Moscow Metro Station}}]] |
Строка 100: | Строка 116: | ||
1) Break of the Sayano–Shushenskaya Dam, 2) Landslide over the Sayano–Shushenskaya Dam | 1) Break of the Sayano–Shushenskaya Dam, 2) Landslide over the Sayano–Shushenskaya Dam | ||
- | [[http://dodo.inm.ras.ru/nikitink/Movies/BD/hes-break2.avi|{{:movies:bd:hes-break2.png?270x180|Break of the Sayano–Shushenskaya Dam}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:bd:hes-break2.mp4|{{:movies:bd:hes-break2.png?270x180|Break of the Sayano–Shushenskaya Dam}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:bd:hes-landslide2.avi|{{:movies:bd:hes-landslide.png?270x180|Landslide over the Sayano–Shushenskaya Dam}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:bd:hes-landslide2.mp4|{{:movies:bd:hes-landslide.png?270x180|Landslide over the Sayano–Shushenskaya Dam}}]] |
- | + | ||
- | + | ||
- | === Viscoplastic dam break flow over incline plane === | + | |
- | + | ||
- | Dam break flow over incline plane with alpha = 18°.\\ | + | |
- | Herschel-Bulkley fluid with **K = 47.68 Pa/s^n, n = 0.415, tau_s = 89 Pa**. | + | |
- | + | ||
- | [[http://dodo.inm.ras.ru/research/_media/movies:bd:incline_no_gate.avi|{{:movies:bd:incline_no_gate.png?270x180|Flow with no gate}}]] | + | |
- | [[http://dodo.inm.ras.ru/research/_media/movies:bd:incline_gate.avi|{{:movies:bd:incline_gate.png?270x180|Flow with a gate}}]] | + | |
- | + | ||
- | === Freely oscillating viscoplastic droplet === | + | |
- | + | ||
- | * No plasticity: **K = 1/150, tau_s = 0**. | + | |
- | * Low plasticity: **K = 1/150, tau_s = 0.02**. | + | |
- | * High plasticity: **K = 1/150, tau_s = 0.04**. | + | |
- | + | ||
- | [[http://dodo.inm.ras.ru/research/_media/movies:drop/drop_no_plast.avi|{{:movies:drop:drop_no_plast.png?270x180|No plasticity drop}}]] | + | |
- | [[http://dodo.inm.ras.ru/research/_media/movies:drop/drop_low_plast.avi|{{:movies:drop:drop_low_plast.png?270x180|Low plasticity drop}}]] | + | |
- | [[http://dodo.inm.ras.ru/research/_media/movies:drop/drop_high_plast.avi|{{:movies:drop:drop_high_plast.png?270x180|High plasticity drop}}]] | + | |
- | + | ||
- | === A von Karman vortex street behind cylinder === | + | |
- | + | ||
- | 1) Semi-Lagrangian method (2nd order interpolation), 2) Semi-Lagrangian method (3srd order interpolation), 3) 2nd order upwind TVD | + | |
- | + | ||
- | [[http://dodo.inm.ras.ru/research/_media/movies:karman:karman-sl.avi|{{:movies:karman:karman-sl.png?150x300|Semi-Lagrangian method}}]] | + | |
- | [[http://dodo.inm.ras.ru/research/_media/movies:karman:karman-sl2.avi|{{:movies:karman:karman-sl2.png?150x300|Semi-Lagrangian method}}]] | + | |
- | [[http://dodo.inm.ras.ru/research/_media/movies:karman:karman-uw2tvd.avi|{{:movies:karman:karman-uw2tvd.png?150x300|2nd order upwind TVD}}]] | + | |
=== The breaking dam problem === | === The breaking dam problem === | ||
Строка 134: | Строка 123: | ||
{{:movies:bd:bd_scheme_1.jpg?270x180|Breaking dam scheme}} | {{:movies:bd:bd_scheme_1.jpg?270x180|Breaking dam scheme}} | ||
- | [[http://www.inm.ras.ru/research/_media/movies:bd:bd.avi|{{:movies:bd:bd.png?270x180|Breaking dam}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:bd:bd.mp4|{{:movies:bd:bd.png?270x180|Breaking dam}}]] |
{{:movies:bd:dam-1.png?250|}}{{:movies:bd:front_new.png?240x210|}} | {{:movies:bd:dam-1.png?250|}}{{:movies:bd:front_new.png?240x210|}} | ||
- | |||
- | === Picnic chocolate === | ||
- | |||
- | [[http://dodo.inm.ras.ru/research/_media/movies:picnic.avi|{{:movies:picnic.png?270x180|Drop}}]] | ||
=== Flooding the city === | === Flooding the city === | ||
- | [[http://dodo.inm.ras.ru/research/_media/movies:city:city1.avi|{{:movies:city:city1.jpg?270x180|Flood}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:city:city1.mp4|{{:movies:city:city1.jpg?270x180|Flood}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:city:city2.avi|{{:movies:city:city2.jpg?270x180|Flood}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:city:city2.mp4|{{:movies:city:city2.jpg?270x180|Flood}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:city:city3.avi|{{:movies:city:city3-2.png?270x180|Flood}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:city:city3.mp4|{{:movies:city:city3-2.png?270x180|Flood}}]] |
- | + | [[http://dodo.inm.ras.ru/research/_media/movies:city:city4.mp4|{{:movies:city:city4.png?380x180|Flood}}]] | |
- | [[http://dodo.inm.ras.ru/research/_media/movies:city:city4.avi|{{:movies:city:city4.png?380x180|Flood}}]] | + | |
=== A drop, falling into a shallow water === | === A drop, falling into a shallow water === | ||
- | [[http://dodo.inm.ras.ru/nikitink/Movies/Drop/dropfall.avi|{{:movies:drop:dropfall.png?270x180|Drop}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:drop:dropfall.mp4|{{:movies:drop:dropfall.png?270x180|Drop}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:drop:falling_drops.avi|{{:movies:drop:falling_drops.png?270x150|Drop}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:drop:falling_drops.mp4|{{:movies:drop:falling_drops.png?270x150|Drop}}]] |
=== Boat under the waves === | === Boat under the waves === | ||
- | [[http://dodo.inm.ras.ru/research/_media/movies:bay:yalikbay3.avi|{{:movies:bay:yalikbay3.jpg?270x180|Bay}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:bay:yalikbay3.mp4|{{:movies:bay:yalikbay3.jpg?270x180|Bay}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:bay:yalikbay4.avi|{{:movies:bay:yalikbay4.jpg?270x180|Bay}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:bay:yalikbay4.mp4|{{:movies:bay:yalikbay4.jpg?270x180|Bay}}]] |
=== Model of Armadillo === | === Model of Armadillo === | ||
- | [[http://dodo.inm.ras.ru/research/_media/movies:armadillo:arma1.avi|{{:movies:armadillo:arma1.jpg?270x180|Armadillo}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:armadillo:arma1.mp4|{{:movies:armadillo:arma1.jpg?270x180|Armadillo}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:armadillo:arma2.avi|{{:movies:armadillo:arma2.jpg?270x180|Armadillo}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:armadillo:arma2.mp4|{{:movies:armadillo:arma2.jpg?270x180|Armadillo}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:armadillo:arma3.avi|{{:movies:armadillo:arma3.jpg?270x180|Armadillo}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:armadillo:arma3.mp4|{{:movies:armadillo:arma3.jpg?270x180|Armadillo}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:armadillo:arma5.avi|{{:movies:armadillo:arma5.jpg?270x180|Armadillo}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:armadillo:arma5.mp4|{{:movies:armadillo:arma5.jpg?270x180|Armadillo}}]] |
=== Waves on a surface === | === Waves on a surface === | ||
- | [[http://dodo.inm.ras.ru/research/_media/movies:wave:wave1.avi|{{:movies:wave:wave1.jpg?270x180|Filling a glass}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:wave:wave1.mp4|{{:movies:wave:wave1.jpg?270x180|Filling a glass}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:wave:wave2.avi|{{:movies:wave:wave2.jpg?270x180|Filling a glass}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:wave:wave2.mp4|{{:movies:wave:wave2.jpg?270x180|Filling a glass}}]] |
=== Filling a glass with a liquid === | === Filling a glass with a liquid === | ||
- | [[http://dodo.inm.ras.ru/research/_media/movies:glass:glass3.avi|{{:movies:glass:glass3.jpg?270x180|Filling a glass}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:glass:glass3.mp4|{{:movies:glass:glass3.jpg?270x180|Filling a glass}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:glass:glass8.avi|{{:movies:glass:glass8.jpg?270x180|Filling a glass}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:glass:glass8.mp4|{{:movies:glass:glass8.jpg?270x180|Filling a glass}}]] |
=== A drop, falling into a glass with water === | === A drop, falling into a glass with water === | ||
- | [[http://dodo.inm.ras.ru/research/_media/movies:drop:drop3-4.avi|{{:movies:drop:drop3-4.jpg?270x180|Falling drop}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:drop:drop3-4.mp4|{{:movies:drop:drop3-4.jpg?270x180|Falling drop}}]] |
- | [[http://dodo.inm.ras.ru/research/_media/movies:drop:drop3-5.avi|{{:movies:drop:drop3-5.jpg?270x180|Falling drop}}]] | + | [[http://dodo.inm.ras.ru/research/_media/movies:drop:drop3-5.mp4|{{:movies:drop:drop3-5.jpg?270x180|Falling drop}}]] |