Zobrazeno 1 - 10
of 75
pro vyhledávání: '"N. S. Zhdanova"'
Autor:
M. V. Gerov, A. G. Kolmakov, D. V. Prosvirnin, A. O. Kayasova, N. S. Zhdanova, M. E. Prutskov
Publikováno v:
Russian Metallurgy (Metally). 2022:1218-1226
Publikováno v:
Mathematical Models and Computer Simulations. 14:716-726
Autor:
V. O. Tsvetkova, I. V. Abalakin, V. G. Bobkov, N. S. Zhdanova, T. K. Kozubskaya, L. N. Kudryavtseva
Publikováno v:
Mathematical Models and Computer Simulations. 14:224-240
Publikováno v:
Computational Mathematics and Mathematical Physics. 61:1315-1329
A characteristic based volume penalization method for numerical simulation of viscous compressible gas flows near solid bodies with immersed boundaries is presented. In contrast to other immersed boundary methods based on penalty functions, character
Autor:
Lyudmila Nikolaevna Kudryavtseva, N. S. Zhdanova, T. K. Kozubskaya, V. G. Bobkov, Valeriya Olegovna Tsvetkova, I. V. Abalakin
Publikováno v:
Математическое моделирование. 33:59-82
Представлена методика моделирования обтекания вязким сжимаемым газом подвижного тела на односвязной неструктурированной сетке, что в
Publikováno v:
Философия образования. 21:136-147
Publikováno v:
Философия образования. 21:27-40
Publikováno v:
Mathematical Models and Computer Simulations. 12:422-432
The paper presents two computational techniques that do not require a change in the topology of the mesh to simulate the flow around oscillating bodies. The first technique uses the immersed boundary method, the second technique uses the method of de
Autor:
A. A. Gerke, N. S. Zhdanova
Publikováno v:
Kazan medical journal. 50:107-108
The book is intended for third-year students of the medical Institute. The authors focused on the characteristics of the most common research methods that give an idea of anatomical and, most importantly, functional disorders of the cardiovascular sy
Publikováno v:
Mathematical Models and Computer Simulations. 11:35-45
An integrated technology is developed for the numerical simulation of the aerodynamics of moving bodies described by the immersed body method on unstructured meshes. The calculation accuracy is enhanced by the dynamic adaptation of the meshes. The me