Andrey Ivantsov

 ivantsov

Tel: 89128899411

e-mail: aivantsov@icmm.ru

Position: Researcher, since 2009

Degree: Ph.D. protection at Perm State University in 2009.

Education: Perm State University, Faculty of Physics, Theoretical Physics, 2005

Research interests: dynamics of heterogeneous hydrodynamic systems in pulsation fields, crystal growing, parallel computing, porous media, modeling of multiphase media, linear and low-nonlinear analysis

Publications in the journals WAC, WOS and SCOPUS

  1. Ivantsov A.O. Shklyaev S.V. The effect of the acoustic field on the secondary convective current in the layer. I’m not going to say, Wounds. MYG. 2006, No. C. 204-209. A.O. Ivantsov, S.V. Shk. The effect of an acoustic field on a secondary convective flow in a layer. Fluid Dynamics, V. 41, N. 4, p. 668-673
    https://doi.org/10.1007/s10697-006-0086-z
  2. D.V.Lubimov, T.P.Lubimova, A.O.Ivantsov, A.A.Cherenova. Using the end-to-end account method to simulate the dynamics of systems with section surfaces.  I’ve been able to figure it out. Fur. It’s all over the place. Wednesday. 2008. T. 1, No. A. 53-62.
    https://elibrary.ru/item.asp?id=16395087
  3. Dmitriy Lyubimov, Tatyana Lyubimova, Yanina Parshakova and Andrey Ivantsov. Convection in a two-layer system with deformable interface in low gravity conditions. Microgravity   Science   and   Technology 2011. V 23, N 2, p. 143-150
    http://www.springerlink.com/content/t157xr4321164773/
  4. D.V.Lubimov, T.P.Lubimova, A.O.Ivantsov. The effect of vibrations on the hydrodynamics of the melt when growing crystals is contactless method bridgeman.  I’ve been able to figure it out. Fur. It’s all over the place. Wednesday. 2011. T. 4, No.  A. 52-62
    https://elibrary.ru/item.asp?id=17258203
  5. Sergey Shklyaev, Andrey Ivantsov, Misael Diaz, and Ubaldo Cordova-Figueroa. Dynamics of a Janus drop in an external flow. Physics of Fluids. Phys. Fluids 25, 082105 (2013)
    http://dx.doi.org/10.1063/1.4817541
  6. T.P. Lyubimova, D.V. Lyubimov, A.O. Ivantsov. The Influence of Vibrations on Melt Flow during Detached Bridgman Crystal Growth. Journal of Crystal Growth. V. 385, 2014, p. 77-81
    http://www.sciencedirect.com/science/article/pii/S0022024813004132
  7. A. V. Pimenova, D. S. Goldobin, J. Levesley, A. O. Ivantsov, P. Elkington and M. Bacciarelli. Magnetic Flux Leakage Method: Large-Scale Approximation. Math. It’s a model. Nat. Phenom. Vol. 10, No. 3, 2015, p. 61-70
    http://dx.doi.org/10.1051/mmnp/201510306
  8. Ivantsov, A. O. and T. P. Lyubimova. 2016. “Dynamics of a Liquid Drop in Porous Medium Saturated by Another Liquid Under Gravity.” Journal of Physics: Conference Series 681:012040. Retrieved February 6, 2016
    http://stacks.iop.org/1742-6596/681/i=1/a=012040?key=crossref.a3573ae9c94af04aa14afcf0a68bc170 (RSF)
  9. Parshakova, Ya N., T. P. Lyubimova, and A. O. Ivantsov. 2016. “Modelling of Stratified Flows in the Problem of the Morphological Behaviour of a Sandpit.” Journal of Physics: Conference Series 681:012030. Retrieved February 6, 2016
    http://stacks.iop.org/1742-6596/681/i=1/a=012030?key=crossref.56b1ad45fc196160fc3ffbc1d67fda80 (RFBR)
  10. Tatyana Lyubimova, Dmitriy Lyubimov, Andrey Ivantsov, Grigory Khilko. Numerical modeling of frozen wave instability in fluids with high viscosity contrast. Fluid Dynamics Research. 2016. Volume 48, Number 6. 061415.
    http://dx.doi.org/10.1088/0169-5983/48/6/061415 (RSF)
  11. N.V.Kozlov, D.Pareau, A.Ivantsov, M.Stambouli. Steady flow instability in annulus with deflectors at rotational vibration. Fluid Dynamics Research. 2016. Volume 48, Number 6. 061416.
    http://dx.doi.org/10.1088/0169-5983/48/6/061416 
  12. T. Lyubimova, A. Ivantsov, Y. Garrabos, C. Lecoutre, G. Gandikota, and D. Beysens. Band instability in near-critical fluids is subjected to vibration under weightlessnessPhys. Rev. E 95, 013105 – Published 10 January 2017
    https://doi.org/10.1103/PhysRevE.95.013105 (RFBR)
  13. Dmitriy Lyubimov, Grigory Khilko, Andrey Ivantsov, Tatyana Lyubimova. Viscosity effect on the longwave instability of a fluid int
    erface. Journal of Fluid Mechanics. V. 814, 2017, pp. 24-41
    https://doi.org/10.1017/jfm.2017.28 (RSF)
  14. Anatoly Vorobev, Andrey  Ivantsov, Tatyana P.  Lyubimova. Phase-field modelling of gravity-capillary waves on a miscible interface. The European Physical Journal E, V. 40, 2017, pp. 99
    https://doi.org/10.1140/epje/i2017-11589-1 (RFBR)
  15. A. Ivantsov, T. Lyubimova. Numerical simulations of liquid drop dynamics in porous medium using adaptive mesh. 2018 Ivannikov Ispras Open Conference (ISPRAS). 2019. pp. 91-94 (RSF)
    https://doi.org/10.1109/ISPRAS.2018.00021
  16. T. Lyubimova, A. Ivantsov, Y. Garrabos, C. Lecoutre, D. Beysens. Faraday waves on band pattern under zero gravity conditions. Phys. Rev. Fluids 4, 2019, 064001 (RFBR)
    https://doi.org/10.1103/PhysRevFluids.4.064001
  17. Ivantsov A.O. Weak-nonlinear analysis of the stability of thermoacoustic advective flow. Herald of the University of Perm. Physics.  2019. № 3.  C. 28-44. (none)
    http://dx.doi.org/10.17072/1994-3598-2019-3-28-44
  18. T.P. Lyubimova, M.A. Gonik, A.O. Ivantsov, O. Khlybov, K. Zaidat, T. Duffar. Influence of submerged heating on vertical Bridgman crystal growth of silicon under travelling magnetic field. Journal of Crystal Growth, V. 531,2020, 125340 ( S. school)
    https://doi.org/10.1016/j.jcrysgro.2019.125340
  19. T. Lyubimova, A. Ivantsov,  D. Beysens. On dispersion relation for faraday waves in a near-critical fluid under weightlessness. J. Phys.: Conf. Ser., V. 1809, 2021, 012026 (Nauch. school)
    https://doi.org/10.1088/1742-6596/1809/1/012026
  20. D. Lyubimov, A. Ivantsov, T. Lyubimova. Control of fingering instability by vibrations. Math. It’s a model. Nat. Phenom. V. 16, 2021, 40 (RFBR)
    https://doi.org/10.1051/mmnp/2021031
  21. A.O. Ivantsov, Ya. N. Parshakova, Numerical modeling of solutal convection in the system of two porous layers with different permeabilities, Journal   of   PhysicsConference   Series, 2021 (RSF) adopted

  22. A.O. Ivantsov , L.S. Klimenko , T.P. Lyubimova , B. Ru. Numerical simulation of the engine exhaust pipe with active noise reduction system. I’ve been able to figure it out. Fur. It’s all over the place. Wednesday. 2021. T. 14, № 4. A. 389-397.  (Suc. school)
    https://doi.org/10.7242/1999-6691/2021.14.4.32

  23. Aleksey Isaevich, Mikhail Semin, Lev Levin, Andrey Ivantsov, Tatyana Lyubimova. Study on the dust content in dead-end drifts in the potash mines for various ventilation modes. Sustainability. 202214(5), 3030.  (RFBR)
    https://doi.org/10.3390/su14053030 
  24. Maryshev B.S., Parshakova Ya.N., Ivantsov A.O., Zubova N.A. Removal from the bottom layer of river systems of pollution accumulated in the process of discharge of water containing products of industrial processing. The computational mechanics of solid environments. 2022. T. 15, № 2. A. 209–222.  (RSF)
    https://doi.org/10.7242/1999-6691/2022.15.2.16
  25. T.P. Lyubimova, A.A. Fomicheva, A.O. Ivantsov. Dynamics of a bubble in oscillating viscous liquid. Phil. Trans. R. Soc. A. 2023. 381(2245):20220085 (РНФ)
    https://doi.org/10.1098/rsta.2022.0085
  26. Ivantsov, A.; Lyubimova, T.; Khilko, G.; Lyubimov, D. The Shape of a Compressible Drop on a Vibrating Solid Plate. Mathematics 202311, 4527.
    https://doi.org/10.3390/math11214527
  27. Хилько, Г., Иванцов, А., & Любимова, Т. (2023). О вибрационной неустойчивости Кельвина-Гельмгольца для жидкостей сравнимых вязкостей. Вестник Пермского университета. Физика, (3), 60–68.
    https://doi.org/10.17072/1994-3598-2023-3-60-68
  28. Evgeniy S. Voroshilov, Rinetta M. Mosina, Svetlana A. Gruzd, Andrey O. Ivantsov, Oleg Khlybov, Tatyana P. Lyubimova, Mikhail Krivilyov. Capillary effects and consolidation kinetics during selective laser melting of 316L powder. Physics of Fluids (2024), 36, 043306
    https://doi.org/10.1063/5.0195071

Tutorials  

  1. A.E. Samoilova, A.O. Ivantsov. Weakly nonlinear analysis in problems of hydrodynamics: a textbook / Perm State National Research University. Perm. 2021. 96 s.
    http://www.psu.ru/files/docs/science/books/uchebnieposobiya/samojlova-ivancov-slabonelinejnyj-analiz-vzadachah-gidrodinamiki.pdf

Articles in collections of scientific papers and peer-reviewed journals  

  1. Khilko G.L., Ivantsov A.O. Numerical simulation of Kelvin-Helmholtz instability in the long-wave case.  Bulletin of young scientists PGNIU: sb. Scientific. Works. Perm’: izd. Perm. State. national. issl. un-ta. 2011. T.1. A. 149-156.
  2. Ivantsov A.O. Acoustic vibrations of a hemispherical droplet. Bulletin of Perm University. Series: Physics. 2012. Vol.  3 (21). A. 16-23.
    http://elibrary.ru/item.asp?id=18352953download
  3. Ivantsov A.O. Lyubimova T.P. Numerical simulation of liquid drop deposition in a porous medium. Bulletin of Perm University. Series: Physics. 2012. Vol. 4 (22). A. 61-64.
    http://elibrary.ru/item.asp?id=20276170
  4. Ivantsov A.O. Lyubimova T.P. Lyubimov D.V. Dynamics of a through vertical channel that penetrates the hydrate layer. Bulletin of Perm University. Series: Physics. 2012. Vol. 4 (22). A. 65-68.
    http://elibrary.ru/item.asp?id=20276171
  5. Ivantsov A.O. Zubova N.A. Numerical simulation of the dynamics of a liquid drop in a porous medium under the action of an external pressure gradient. Bulletin of Perm University. Series: Physics. 2015. Vol. 2 (30). A. 51-55.
    http://elibrary.ru/item.asp?id=24307179
  6. Shklyaev S.V., Ivantsov A.O. Investigation of amplitude equations of long-wave convection of Marangoni in a layer of binary mixture. Herald of the University of Perm. Series: Physics. 2016. № 1 (32). A. 55-63.
    http://elibrary.ru/item.asp?id=26374943
  7. Alabuzhev A.A., Ivantsov A.O., Kaysina M.I., Kartavykh N.N., Kashina M.A., Konovalov V.V. Influence of external force fields on the dynamics of the surface of the section / Bulletin of the Perm Scientific Center of the Ural Branch of the Russian Academy of Sciences. 2017. No 2. A. 24-29.
    https://elibrary.ru/item.asp?id=29896638

Publications in the materials of scientific events

  1. Ivantsov A.O. Thermoacoustic advective flow near stability threshold. Proc. of Int. conf. «Advanced Problems in Thermal Convection». Perm. 2004. P. 272-277
  2. Ivantsov A.O., Lyubimov D.V., Lyubimova T.P. The influence of vibrations on the process of growing crystals by the non-contact Method of Bridgman. Sat. materials succhi. seminar of scholarship holders of the program “Mikhail Lomonosov”. Moscow. 2008. A. 77-78.
  3. Dmitriy Lyubimov, Andrey Ivantsov, Tatyana Lyubimova, Grigoriy Sedelnikov, Oleg Zikanov, Effect of Vibrations on Stability off Displacement Front. CD-ROM Proceedings of Int. conf. XXII ICTAM, 25-29 August 2008, Adelaide, Australia.
  4. Ivantsov A.O., Lyubimov D.V., Lyubimova T.P. Wave relief on the surface of the separation of liquids of different viscosity under horizontal vibrations. Sat. materials of the All-Russian Conference of Young Scientists “Non-Equilibrium Processes in Continuous Media”. Perm. 2008. A. 138-142.
  5. Ivantsov A.O., Lyubimov D.V., Lyubimova T.P. Influence of vibrations on the stability of settling of compact inclusion in a porous medium. Sat. XVI Winter School on Continuum Mechanics (on CD-ROM). Perm (February 24-27, 2009)
  6. Ivantsov A.O., Lyubimov D.V., Lyubimova T.P. Numerical simulation of the effect of vibrations on the subsidence of compact inclusion in a porous medium. Sat. materials of the All-Russian Conference of Young Scientists “Non-Equilibrium Processes in Continuous Media”. Perm. 2009. A. 119-122
  7. Lyubimov D.V., Tsiberkin K.B., Lyubimova T.P., Ivantsov A.O. Simulation of the dynamics of a through vertical channel in a gas hydrate layer. Materials of the All-Russian Conference of Young Scientists “Non-Equilibrium Processes in Continuous Media”. Perm. 2010. A. 154-157
  8. Lepikhin A.P., Lyubimova T.P., Tiunov A.A., Parshakova Y.N., Konovalov V.V., Ivantsov A.O. Modern problems of hydrodynamics of Kama reservoirs. Modern problems of reservoirs and their catchments Proceedings of the III International Scientific and Practical Conference. 17-20 May 2011. T 1. Hydro- and geodynamic processes. Perm’, 2011, S.96-101.
  9. T. P. LyubimovaD. V. LyubimovA. O. Ivantsov. The influence of vibrations on melt flow during detached Bridgman crystal growth. Proceedings of the 7-th International Workshop on Modeling in Crystal Growth. 28-31 October. Taipei,Taiwan, National Taiwan University. ISBN: 978-986-03-3996-3. p. 94-95. 
  10. A.O. Ivantsov, T.P. Lyubumova, D.V. Lyubimov. Numerical modeling of melt flow during detached Bridgmen crystal growth under vibtations. Proceedings of 4-th Intenational Scientific School of Young Scientists. Moscow, November 26-29, 2013. pp. 13-14.
  11. Ivantsov A.O., Lyubimov D.V., Lyubimova T.P. Numerical simulation of the process of growing crystals by the non-contact Method of Bridgman under the influence of vibrations. Mathematical modeling in the natural sciences. 2013. № 1. A. 72-73.
    http://elibrary.ru/item.asp?id=20355238
  12. Parshakova Y.N., Lyubimova T.P., Ivantsov A.O. Modeling of stratified currents in the presence of a sand quarry. Mathematical modeling in the natural sciences. 2014. T. 1. A. 187-190.
    http://elibrary.ru/item.asp?id=22307420
  13. Ivantsov A.O., Lyubimova T.P., Lyubimov D.V. The influence of the shape of the ampoule on the process of growing crystals by the non-contact Bridgman method in the presence of vibrations. Collection of reports of the All-Russian Scientific and Practical Conference with International Participation “Fundamental and Applied Problems of Mechanics, Mathematics, Informatics”. Perm’, 2015. A. 151-155.
    http://elibrary.ru/item.asp?id=24231116
  14. A.O. Ivantsov, T.P. Lyubimova, D.V. Lubimov. Simulation of vertical channel dynamics in a hydrate-saturated porous medium. Proceedings of the XI All-Russian Congress on Fundamental Problems of Theoretical and Applied Mechanics, Kazan, August 20 – 24, 2015. A. 1569-1571.
    http://elibrary.ru/item.asp?id=24823969
  15. Ivantsov A.O., Lyubimova T.P., Lyubimov D.V. Influence of periodic influence on the dynamics of the vertical channel in a hydrate-saturated porous medium. Mathematical modeling in the natural sciences. 2015. T. 1. A. 173-178.
    http://elibrary.ru/item.asp?id=24317641
  16. Ivantsov A.O. Slabonelinear analysis of long-wave oscillatory convection of Marangoni in a binary mixture layer. Mathematical modeling in the natural sciences. 2016. T. 1. A. 105-109.
    http://elibrary.ru/item.asp?id=26742837
  17. Lyubimova T.P., Ivantsov A.O. Simulation of drop dynamics in a porous medium within the framework of the Buckley-Leverett model. In the collection: Perm hydrodynamic scientific readings Materials of the IV All-Russian Conference dedicated to the memory of professors G.Z. Gershuni, E.M. Jukhovitzky and D.V. Lyubimova. 2016. A. 61-62.https://elibrary.ru/item.asp?id=30531469
  18. Ivantsov A. O., Lyubimova T. P., Vorobyov A. M. Numerical modeling of the evolution of gravitational and capillary waves in a system of two slightly mixing liquids / Proceedings of the International Symposium “Non-Equilibrium Processes in Continuous Media”, Vol. 1, 2017, P. 194-197. https://elibrary.ru/item.asp?id=32178104
  19. Ivantsov A. O., Lyubimova T. P. Modeling the dynamics of a deformable cylindrical drop in a stratified liquid under the influence of vibrations / Proceedings of the International Symposium “Non-Equilibrium Processes in Continuous Media”, Vol. 1, 2017, P. 198-201.
    https://elibrary.ru/item.asp?id=32178108
  20. Lyubimova T.P., Ivantsov A.O. Modeling of dynamics of multiphase media in porous media on the basis of the Buckley-Leverett model / Collection of materials of the V All-Russian Conference with International Participation, dedicated to the memory of professors G. Z. Gershuni, E. M. Zhukhovitsky and D. In the. Lyubimova “Perm Hydrodynamic Scientific Readings”, Perm, September 26–29, 2018, S. 180-182.
    https://www.elibrary.ru/item.asp?id=36856492
  21. Ivantsov A.O., Lyubimova T.P. Modeling the dynamics of the near-critical fluid under vibrational influence in zero gravity / Collection of materials of the VII All-Russian Conference with International Participation, dedicated to the memory of professors G. Z. Gershuni, E. M. Zhukhovitsky and D. In the. Lyubimova “Perm Hydrodynamic Scientific Readings”, Perm, October 22–24, 2020, S. 182-185.
  22. Ivantsov A.O., Lyubimova T.P. Dynamics of a drop of a miscable liquid in a porous medium in a field of gravity / Collection of materials of the VII All-Russian Conference with International Participation, dedicated to the memory of Professors G. Z. Gershuni, E. M. Zhukhovitsky and D. In the. Lyubimova “Perm Hydrodynamic Scientific Readings”, Perm, October 22–24, 2020, S. 186-188.

Abstracts

  1. Ivantsov A.O. Numerical study of thermoacoustic advective flow. Theses of the 11th All-Russian School-Conference of Young Scientists and Students “Mathematical Modeling in the Natural Sciences”. Perm. 2002 . A. 16-17.
  2. Ivantsov A.O. Thermoacoustic advective flow near stability threshold. Int. conf. «Advanced Problems in Thermal Convection». Abstr. Perm. 2003. P. 113-114.
  3. Ivantsov A. AStudy of thermoacoustic advective flow near the stability threshold. Conference of Young ScientistsNonequilibrium Processes in Continuous Environments”. Tez. Reports. Perm. 2003. A. 36-37.
  4. Ivantsov A.O. Acoustic vibrations of a hemispherical drop on a solid substrate. Conference of young scientists “Non-equilibrium processes in continuous media”. Tez. Reports. Perm. 2004. A. 32-33.
  5. Ivantsov A.O. The averaged form of the compressible inclusion on the oscillating substrate. Theses of the 14th Winter School on Continuum Mechanics. Ekaterinburg: UrO RAS. 2005. A. 138.
  6. Ivantsov A.O. The behavior of the drop on the substrate in the field of high-frequency vibrations. Theses of the conference of young scientists “Nonequilibrium processes in continuous media” Perm, 2005 With. 37-38
  7. Dmitriy Lyubimov, Tatyana Lyubimova, Andrey Ivantsov. Numerical modeling of flows during detached Bridgman crystal growth under axial vibrations. XXXIV Summer School – Conference «Advance Problems in Mechanics». Abstr. Saint-Petersburg. 2006. P. 44
  8. Ivantsov A.O., Lyubimov D.V., Lyubimova T.P. Numerical simulation of the process of growing crystals by the non-contact Method of Bridgman under the influence of vibrations. Interuniversity Scientific and Practical Conference of Students, Postgraduates and Young Scientists “Physics for the Perm Territory”. Tez. Reports. Perm. 2008. A. 13-14.
  9. Lyubimov D.V., Lyubimova T.P., Ivantsov A.O. Wave structures on the interface surface of immiscible liquids under horizontal vibrations. 3rd All-Russian Conference with the participation of foreign scientists “Problems with free borders: theory, experiment and applications”, Biysk. Tez. Reports. Novosibirsk. 2008. A. 65.
  10. Dmitriy Lyubimov, Andrey Ivantsov, Tatyana Lyubimova. “Vibration effect on a stability of a compact inclusion sedimentation in porous medium”, Abstracts of Fourth International Topical Team Workshop on Two-phase systems for ground and space applications. Novosibirsk. 2009. P. 94.
  11. Ivantsov A.O., Lyubimov D.V., Lyubimova T.P. Numerical simulation of the effect of vibrations on the subsidence of compact inclusion in a porous medium. Theses of the All-Russian Conference of Young Scientists “Non-Equilibrium Processes in Continuous Media”. Perm. 2009. A. 45.
  12. Lyubimov D.V., Lyubimova T.P., Ivantsov A.O. Wave relief on the boundary of liquids of different viscosity with horizontal vibrations. Theses of the conference of young scientists “Fundamental and applied problems of nonlinear physics”, Nizhny Novgorod, 2010. A. 44-45
  13. Lyubimov D.V., Lyubimova T.P., Tsiberkin K.B., Ivantsov A.O. Numerical modeling of gas release process from methane hydrates. Abstract of International Summer School “Advanced Problems in Mechanics”, Russia, St. Petersburg, 2010. P. 65.
  14. Lyubimov D.V., Tsiberkin K.B., Lyubimova T.P., Ivantsov A.O. Simulation of the dynamics of a through vertical channel in a gas hydrate layer. Theses of the All-Russian Conference of Young Scientists “Non-Equilibrium Processes in Continuous Media”. Perm. 2010. A. 94.
  15. Lyubimova T.P., Lyubimov D.V., Ivantsov A.O. The effect of vibrations on the hydrodynamics of the melt when growing crystals by the non-contact Bridgman method. XIV National Conference on Crystal Growth. Abstracts, T. 1. Moscow.  2010. A. 127.
  16. Ivantsov A.O. The behavior of the drop on a solid substrate that makes high-frequency vibrations. XVII Winter School on Continuum Mechanics. Abstracts. Perm.  27 February – 3 March 2011  A. 141.
  17. Lyubimova T.P., Lyubimov D.V., Tsiberkin K.B., Ivantsov A.O. The behavior of gas inclusions in a porous matrix filled with hydrate. XVII Winter School on Continuum Mechanics. Abstracts. Perm. 27 February – 3 March 2011 A. 207.
  18. Lyubimova T.P., Lyubimov D.V., Ivantsov A.O. Simulation of the dynamics of gas inclusions in a hydrate-saturated porous medium. 4th All-Russian Conference with the participation of foreign scientists “Problems with free borders: theory, experiment and applications” Biysk 5-10 July 2011. Abstracts. Novosibirsk, 2011. A. 60-61
  19. Ivantsov A.O. Dynamics of liquid drop on the substrate at high-frequency vibrations. 4th All-Russian Conference with the participation of foreign scientists “Problems with free borders: theory, experiment and applications” Biysk 5-10 July 2011. Abstracts. Novosibirsk, 2011. A. 43
  20. Lyubimov D., Lyubimova T., Ivantsov A. Wave patterns on the interface of two immiscible fluids in closed cavity subjected to the horizontal vibrations. Abstract of ELGRA Biennial Symposium and General Assembly. Bel gium, 6th – 9th September 2011. p. 72-73
  21. Khilko G.L., Lyubimov D.V., Ivantsov A.O. Long-wave instability of the surface of the media separation in a high-frequency vibration field. Theses of the 20th All-Russian School-Conference of Young Scientists and Students “Mathematical Modeling in the Natural Sciences”. Perm. October 5-8, 2011. A. 105-106.  
  22. T. P. LyubimovaD. V. LyubimovA. O. IvantsovK. B. TsiberkinO. ZikanovHydrodynamic  models  of  the  dynamics  of  methane  release  by  natural  hydratesAmerican Geosciences Union Fall Meeting 5-9 December 2011, San Francisco, California, USA.
  23. Ivantsov A.O. The behavior of the drop on the oscillating substrate. Theses of the XVI Scientific School “Nonlinear Waves”, Nizhny Novgorod, February 29 – Wednesday, March 06, 2012 A. 54-55
  24. U. Cordova, M. Diaz, A. Ivantsov and S. Shklyaev, Dynamics of a Janus Droplet in An External Flow. 2012 AIChE Annual Meeting, Pittsburgh, PA, USA, October 28 – November 2, 2012, p. 260178.
  25. S.Shklyaev, A.O.Ivantsov, M.Diaz, U.M.Cordova-Figueroa, Janus droplet motion in an external flow. Bull. of the Am. Phys. Soc., vol. 57, N 17 (65th Annual APS DFD Meeting, San Diego, CA, USA, November 18-20, 2012), p. 365-366.
  26.  T. Lyubimova, A. Fomicheva and A. Ivantsov, Dynamics of deformable inclusion in oscillating viscous fluid of different density. Seventh International Symposium on Two-Phase Systems for Ground and Space Applications, Beijing, China, September 17-21, 2012.
  27. Ivantsov A.O., Lyubimova T.P. Simulation of the dynamics of deformable inclusion in an oscillating stratified liquid.  XVIII Winter School on Continuum Mechanics. Abstracts. Perm. February 18-22, 2013 A. 386.
  28. Shklyaev S.V., Ivantsov A.O., Cordoba-Figeroa U.M. Dynamics of the drop-janus in the external flow. XVIII Winter School on Continuum Mechanics. Abstracts. Perm. February 18-22, 2013 A. 155.
  29. Shklyaev, Sergey; Ivantsov, Andrey O.; Cordova-Figueroa, Ubaldo M. Stokes flow past a Janus droplet . ACS Annual Meeting, New Orleans, Louisiana. April 9, 2013. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY Volume: 245
    http://meeting.aps.org/Meeting/DFD13/Event/202484
  30. Ivantsov A.O., Lyubimova T.P. Effect of pressure modulation on the stability of the moving inclusion of one liquid in a homogeneous porous medium saturated with another liquid. PERM HYDRODYNAMIC SCIENTIFIC READINGS, Perm, November 28-30, 2013 page. 20 (on CD)
  31. T.P. Lyubimova, A.O. Ivantsov. Numerical Investigation of Frozen Wave Instability in Zero Gravity Conditions. 29th American Society for Gravitational and Space Research and 5th International Symposium for Physical Sciences in Space November 3-8, 2013 Orlando, Florida, USA, p. 82.
  32. A.O. Ivantsov, T.P. Lyubimova, D.V. Lubimov. Influence of periodic influence on stability of moving inclusion in porous environment. Theses of the V All-Russian Conference with the participation of foreign scientists “Problems with free boundaries: theory, experiment and applications”, Biysk, June 29 – July 4, 2014, p. 45.
  33. J.N. Parshakova, A.O. Ivantsov. Modeling of stratified currents in the channel process of rivers associated with the extraction of non-metallic materials. Theses of the V All-Russian Conference with the participation of foreign scientists “Problems with free boundaries: theory, experiment and applications”, Biysk, June 29 – July 4, 2014, p. 76.
  34. T.P. Lyubimova, D.V. Lyubimov, A.O. Ivantsov. The influence of vibrations on the process of growing crystals by the non-contact Method of Bridgman. Theses of the V All-Russian Conference with the participation of foreign scientists “Problems with free boundaries: theory, experiment and applications”, Biysk, June 29 – July 4, 2014, p. 45.
  35. S. Shklayev, A.A Nepomnyashchy, A. Ivantsov. Large amplitude convection in a binary liquid. Abstracts of 7th Conference of the International Marangoni Association. Vienna, Austria, June 23-26 2014, p. 101.
  36. T. Lyubimova, D. Lyubimov and A. Ivantsov. Effect of periodic forcing on stability of inclusion in porous media. Abstracts of International Conference on Numerical and Mathematical Modeling of Flow and Transport in Porous Media. Dubrovnik, Croatia, 29 September – 3 October 2014, p. 33.
  37. Yanina Parshakova, Tatyana Lyubimova, Andrey Ivantsov, and Anatoly Lepikhin. Modeling of flows and sediment transport in riverbeds associated with the production of non-ore materials. General Assembly 2014 of European Geosciences Union, Vienna, Austria, 27 April – 02 May 2014. Geophysical Research Abstracts. Vol. 16, EGU2014-10435
  38. Ya Parshakova,  Andrey Ivantsov. Modeling of stratified flows in the problem of the morphological behavior of a sandpit. International Conference on Computer Simulation in Physics and beyond. September 6-10, 2015, Moscow, Russia. Book of Abstracts. p. 86.
  39. A.O. Ivantsov, T.P. Lyubimova. Settling of a liquid drop in a porous medium saturated by another liquid. International Conference on Computer Simulation in Physics and beyond. September 6-10, 2015, Moscow, Russia. Book of Abstracts. p. 87.
  40. Ivantsov A.O., Lyubimova T.P. Simulation of the dynamics of the displacement front in a porous medium under the influence of vibrations within the framework of the Buckley-Leverett model. Theses of reports of young scientists of the XVII scientific school “Nonlinear waves – 2016” February 27 – March 4, 2016, Nizhny Novgorod, 2016. A. 63.
  41. Ivantsov A.O., Lyubimova T.P. Numerical simulation of the dynamics of isolated inclusion in a porous medium within the framework of the Buckley-Leverett model. III All-Russian Scientific and Practical Conference with International Participation with Elements of the Scientific School for Youth “High Performance Computing on Graphics Processors”, dedicated to the 100th anniversary of Perm University, within the framework of the Forum “Mathematics and Global Challenges of the XXI Century” Perm, May 16-20, 2016
  42. D.V. Lyubimov, T.P. Lyubimova, A.A. Cherepanov, A.O. Ivantsov and A.V. Perminov.  Generation of average flows near fluid interface under tangential vibrations. Abstract of the 7th International Symposium “Bifurcations and Instabilities in Fluid Dynamics”. The Woodlands, TX, USA. July 11 – 14, 2017, p. 55.
  43. Lyubimova T.P., Ivantsov A.O., Sadilov E.S., Beysens D. Quasi-equilibrium structures on the interface surface of immiscible liquids under the action of tangent vibrations in zero gravity / Theses of reports of the XX Winter School on Continuum Mechanics, 2017, P. 202.
    https://elibrary.ru/item.asp?id=28886128
  44. Ivantsov A.O. Numerical modeling of convection in a binary liquid layer taking into account the sore effect / Abstracts of the XX Winter School on Continuum Mechanics, 2017, P. 145.
    https://elibrary.ru/item.asp?id=28870645
  45. Ivantsov A.O., Lyubimova T.P. Modeling the dynamics of the displacement front in a porous environment under the influence of vibrations within the framework of the Buckley-Leverett model / Theses of the reports of the IX All-Russian Conference with International Participation dedicated to the memory of Academician A.F. Sidorova, Abrau-Durso, September 03-08, 2018, pp. 32-33.
    https://elibrary.ru/item.asp?id=36269084
  46. Ivantsov A.O., Lyubimova T.P. Modeling of the dynamics of the displacement front in a porous medium under the influence of vibrations, taking into account the non-Newtonian properties of liquids – XXI Winter School on Continuum Mechanics. Abstracts. PFIC UrO RAS. Perm, February 18-22, 2019 A. 129.
    https://elibrary.ru/item.asp?id=37398891
  47. Ivantsov A.O., Klimenko L.S., Lyubimova T.P., B. Ru. Numerical simulation of the active noise reduction system of the internal combustion engine – XXII Winter School on Continuum Mechanics. Abstracts. PFIC UrO RAS. Perm, March 22 – 26, 2021, p. 142.
  48. Ivantsov A.O., Lyubimova T.P., Khlybov O.A. Influence of the running magnetic field on the process of growing a silicon crystal by methods of directed crystallization / XХII Winter School on Continuum Mechanics. Abstracts. PFIC UrO RAS. Perm, March 22 – 26, 2021, p. 143.