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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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2
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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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3
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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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4
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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
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5
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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
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6
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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
В сборнике
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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7
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Novikov M.
, Lisitsa V.
, Romenski E.
Numerical Modeling of Fluid-Saturated Porous Sample Loading Based on Thermodynamically Compatible System Theory
В сборнике
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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8
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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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9
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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
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10
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Romenski E.
, Reshetova G.
Computational Modeling of Temperature-Dependent Wavefields in Fluid-Saturated Porous Media
В сборнике
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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11
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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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12
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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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13
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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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14
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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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15
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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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16
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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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17
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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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18
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Romenski E.
, Reshetova G.
, Peshkov I.
Thermodynamically compatible hyperbolic model of a compressible multiphase flow in a deformable porous medium and its application to wavefields modeling
AIP Conference Proceedings. 2021.
V.2448. 020019
. DOI: 10.1063/5.0073314
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19
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Reshetova G.V.
, Romensky E.I.
Diffuse-Interface Simulation of Wave Fields in Porous Media
Doklady Earth Sciences. 2021.
V.497. N2. P.319-322. DOI: 10.1134/S1028334X21040139
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20
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Gabriel A.-A.
, Li D.
, Chiocchetti S.
, Tavelli M.
, Peshkov I.
, Romenski E.
, Dumbser M.
A unified first-order hyperbolic model for nonlinear dynamic rupture processes in diffuse fracture zones
Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 2021.
V.379. N2196. 20200130
. DOI: 10.1098/rsta.2020.0130
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