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1
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Ferrari D.
, Peshkov I.
, Romenski E.
, Dumbser M.
A unified HTC multiphase model of continuum mechanics
Journal of Computational Physics. 2025.
V.521. N1. 113553
:1-49. DOI: 10.1016/j.jcp.2024.113553
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РИНЦ
OpenAlex
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2
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Reshetova G.
, Romenski E.
Numerical Implementation of Boundary Conditions for Finite Difference Method on Staggered Grid for Wave Propagation in Saturated Porous Medium
In compilation
Computational Science and Its Applications (ICCSA 2025 Workshops) : Proceedings.
– Springer Cham.,
2025.
– Т.Part III. – C.359-375. – ISBN 978-3-031-97596-7. DOI: 10.1007/978-3-031-97596-7_24
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3
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Peshkov I.
, Romenski E.
, Pavelka M.
Nonequilibrium model for compressible two-phase two-pressure flows with surface tension
Continuum Mechanics and Thermodynamics. 2025.
V.37. N5. 72
:1-26. DOI: 10.1007/s00161-025-01403-x
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4
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Reshetova G.
, Romenski E.
Modeling the variability of seismic properties of frozen multiphase media depending on temperature
Сибирские электронные математические известия (Siberian Electronic Mathematical Reports). 2024.
V.21. N2. P.B203-B231. DOI: 10.33048/semi.2024.21.B11
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5
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Sýkora M.
, Pavelka M.
, Peshkov I.
, Minakowski P.
, Klika V.
, Romenski E.
Comparison of the symmetric hyperbolic thermodynamically compatible framework with Hamiltonian mechanics of binary mixtures
Continuum Mechanics and Thermodynamics. 2024.
V.36. P.539–559. DOI: 10.1007/s00161-024-01281-9
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РИНЦ
OpenAlex
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6
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Новиков М.А.
, Роменский Е.И.
, Лисица В.В.
Численное моделирование нагружения флюидонасыщенного образца породы на основе термодинамически согласованной модели пороупругой среды
Интерэкспо ГЕО-Сибирь. 2024.
Т.2. №2. С.240-248. DOI: 10.33764/2618-981X-2024-2-2-240-248
РИНЦ
OpenAlex
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7
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Решетова Г.В.
, Роменский Е.И.
Моделирование температурно-зависимых волновых полей в деформируемых пористых средах, насыщенных жидкостью
Сибирский журнал вычислительной математики. 2024.
Т.27. №4. С.425-441. DOI: 10.15372/SJNM20240405
РИНЦ
OpenAlex
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8
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Reshetova G.
, Novikov M.
, Romenski E.
Computational Analysis of Seismic Waves Attenuation Caused by Porosity Variability in a Fluid-Saturated Porous Model of Thawing Permafrost
In compilation
Computational Science and Its Applications – ICCSA 2024 Workshops
Hanoi, Vietnam, July 1–4, 2024, Proceedings.
– Springer Nature.,
2024.
– Т.Part III. – C.321-333. – ISBN 978-3-031-65238-7. DOI: 10.1007/978-3-031-65238-7_22
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9
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Novikov M.
, Lisitsa V.
, Romenski E.
Numerical Modeling of Fluid-Saturated Porous Sample Loading Based on Thermodynamically Compatible System Theory
In compilation
Computational Science and Its Applications – ICCSA 2024 Workshops
Hanoi, Vietnam, July 1–4, 2024, Proceedings.
– Springer Nature.,
2024.
– Т.Part III. – C.237–249. – ISBN 978-3-031-65238-7. DOI: 10.1007/978-3-031-65238-7_16
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10
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Reshetova G.V.
, Romenski E.I.
Modeling of Temperature-Dependent Wave Fields in Deformable Porous Media Saturated with Fluid
Numerical Analysis and Applications. 2024.
V.17. N4. P.358–371. DOI: 10.1134/S1995423924040050
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РИНЦ
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11
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Роменский Е.И.
, Пешков И.М.
Термодинамически согласованная гиперболическая модель двухфазного течения сжимаемых жидкостей с учетом поверхностного натяжения
Прикладная математика и механика. 2023.
Т.87. №2. С.211-225. DOI: 10.31857/S0032823523020121
РИНЦ
OpenAlex
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12
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Romenski E.
, Reshetova G.
Computational Modeling of Temperature-Dependent Wavefields in Fluid-Saturated Porous Media
In compilation
Computational Science and Its Applications – ICCSA 2023 Workshops
Athens, Greece, July 3–6, 2023, Proceedings.
– Springer.,
2023.
– Т.Part III. – C.103-115. – ISBN 9783031371103. DOI: 10.1007/978-3-031-37111-0_8
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13
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Romenski E.
, Peshkov I.
Thermodynamically Compatible Hyperbolic Model for a Two-Phase Compressible Fluid Flow with Surface Tension
Fluid Dynamics. 2023.
V.58. N7. P.1255–1265. DOI: 10.1134/S0015462823602103
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РИНЦ
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14
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Busto S.
, Dumbser M.
, Peshkov I.
, Romenski E.
On Thermodynamically Compatible Finite Volume Schemes for Continuum Mechanics
SIAM Journal on Scientific Computing. 2022.
V.44. N3. P.A1723-A1751. DOI: 10.1137/21m1417508
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РИНЦ
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15
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Romenski E.
, Reshetova G.
, Peshkov I.
Two-phase hyperbolic model for porous media saturated with a viscous fluid and its application to wavefields simulation
Applied Mathematical Modelling. 2022.
V.106. P.567-600. DOI: 10.1016/j.apm.2022.02.021
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РИНЦ
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16
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Romenski E.
, Reshetova G.
Computational Model for Fluid and Elastic Solid Interaction Based on Symmetric Hyperbolic Thermodynamically Compatible Systems Theory
Lecture Notes in Computer Science. 2022.
V.13376 LNCS. P.303-313. DOI: 10.1007/978-3-031-10450-3_26
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17
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Thein F.
, Romenski E.
, Dumbser M.
Exact and Numerical Solutions of the Riemann Problem for a Conservative Model of Compressible Two-Phase Flows
Journal of Scientific Computing. 2022.
V.93. N3. 83
:1-60. DOI: 10.1007/s10915-022-02028-x
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РИНЦ
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18
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Reshetova G.
, Romenski E.
Diffuse interface approach to modeling wavefields in a saturated porous medium
Applied Mathematics and Computation. 2021.
V.398. 125978
. DOI: 10.1016/j.amc.2021.125978
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19
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Romenski E.
, Reshetova G.
, Peshkov I.
Computational Model for Compressible Two-Phase Flow in Deformed Porous Medium
Lecture Notes in Computer Science. 2021.
V.12949 LNCS. P.224-236. DOI: 10.1007/978-3-030-86653-2_16
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20
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Peshkov I.
, Dumbser M.
, Boscheri W.
, Romenski E.
, Chiocchetti S.
, Ioriatti M.
Simulation of non-Newtonian viscoplastic flows with a unified first order hyperbolic model and a structure-preserving semi-implicit scheme
Computers and Fluids. 2021.
V.224. 104963
. DOI: 10.1016/j.compfluid.2021.104963
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