| Волновые процессы в пузырьковых системах | |
Agisheva U.O., Bolotnova R.Kh., Galimzianov M.N.
Investigation of shock-wave processes in a bubble liquid during the interaction with a barrier
|
17 |
Akhmetov A.T., Lukin S.V., Balapanov D.M., Urmancheev S.F., Gumerov N.M., Yakhin I.K.
Features of wave propagation in the sand of different saturation
|
25 |
Bolotnova R.Kh., Buzina V.A., Galimzianov M.N.
Features of adiabatic flows in a gas-liquid mixture
|
39 |
Volkova E.V., Nasibullaeva E.Sh.
Nonlinear Oscillations of a Spherically Symmetric Single Bubble in an Acoustic Field
|
45 |
Grimshaw R., Ostrovsky L.A., Topolnikov A.S., Khusnutdinova K.R.
Influence of Internal Wave on the Sound Propagation in the Subsurface Bubble Layer
|
54 |
Nasibullaeva E.Sh., Akhatov I.Sh.
Investigation of the applicability domains of the bubble cluster mathematical model
|
65 |
| Гидродинамические модели неоднородных сред | |
Akhmetov A.T., Mavletov M.V., Valiev A.A.
Dynamic blocking and dispersions rheology at phase transition
|
77 |
Akhmetov A.T., Sobanova O.B., Sametov S.P.
Emulsions generation in void space of the micromodel, their rheological properties
|
92 |
Kireev V.N., Solnyshkina O.A., Urmancheev S.F.
Numerical modeling of the dynamics of lymphatic vessels during the tumor growth
|
108 |
Malyshev V.L., Moiseeva E.F., Moiseyev K.V.
The effect of the temperature distribution along the perimeter of the boundary on the the flow in the convective Rayleigh–Benard cell
|
116 |
Malyshev V.L., Moiseyev K.V., Moiseeva E.F.
Regimes of fluid flow in mixed convection
|
124 |
Khabirov S.V., Akhmetov A.T.
Emulsion flow in the transition zone of tube-capillary
|
133 |
Khizbullina S.F.
Mathematical modeling of Couette flow in anomalous thermoviscous liquid
|
143 |
| Методы вычислительной гидродинамики | |
Itkulova Yu.A.
Three-dimensional numerical simulation of viscous liquid flow in channel of variable cross-section using boundary element method
|
155 |
Itkulova Yu.A., Solnyshkina O.A.
Modeling of drop dynamics in unbounded fluid flow using boundary element method in three dimensions
|
163 |
Malyshev V.L., Mikhaylenko C.I.., Moiseeva E.F.
Modeling the establishment of a saturated state of argon by molecular dynamics
|
172 |
Marin D.F.
Usage of graphics processing units for solving molecular dynamics problems
|
182 |
Solnyshkina O.A.
Acceleration of the calculations for solving large problems using the boundary element method for the Stokes equations on GPU.
|
189 |
| Прикладная механика и смежные задачи | |
Bogdanov R.M.
Using clusterization principles for the selection of repair sections of main oil pipelines based on diagnostic data
|
201 |
Bogdanov R.M., Lukin S.V.
Modeling of main oil pipelines operating duties
|
211 |
Bogdanov R.M., Lukin S.V.
Program complex for analysing the stress-strain behavior of a drill string during the constructing of an underwater passage for an oil-trunk pipeline by controlled drilling
|
219 |
Bogdanov R.M., Lukin S.V.
Software including the functions of automated analysis of electric power consumption in pipeline oil transportation
|
233 |
Denisova E.V., Nasibullaeva E.Sh., Chernikova M.A.
A new approach to the design of adaptive automatic control systems for a short-range gas turbine engine
|
239 |
Nasibullaeva E.Sh., Denisova E.V., Nasibullayev I.Sh.
Full-size mathematical model of the fuel metering unit
|
249 |
Nasibullayev I.Sh., Nasibullaeva E.Sh.
Influence of various types of frictional force on the movement of the piston in the pipe
|
257 |
Khakimov A.G.
Reflection of a bending wave from point mass attached to a rod
|
266 |
Yakupov R.G., Zaripov D.M.
Seismic stability of the underground main pipeline
|
275 |
