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  1. Detailed analysis of recent drag models using multiple cases of mono-disperse fluidized beds with Geldart-B and Geldart-D particles

    Stanly, R. & Shoev, G., 12 Oct 2018, In: Chemical Engineering Science. 188, p. 132-149 18 p.

    Research output: Contribution to journalArticlepeer-review

  2. Craterlike structures on the laser cut surface

    Shulyatyev, V. B. & Orishich, A. M., 26 Oct 2017, Proceedings of the XXV Conference on High-Energy Processes in Condensed Matter, HEPCM 2017: Dedicated to the 60th Anniversary of the Khristianovich Institute of Theoretical and Applied Mechanics SB RAS. Fomin (ed.). American Institute of Physics Inc., Vol. 1893. 4 p. 030007. (AIP Conference Proceedings; vol. 1893).

    Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

  3. Correction: 'Different variants of R13 moment equations applied to the shock-wave structure' [Phys. Fluids, 29, (2017) 037105] DOI: 10.1063/1.4977978

    Timokhin, M. Y., Struchtrup, H., Kokhanchik, A. A. & Bondar, Y. A., 1 Apr 2017, In: Physics of Fluids. 29, 4, 1 p., 049901.

    Research output: Contribution to journalComment/debatepeer-review

  4. Controlling the Aerodynamic Drag of a Cylinder with Gas-Permeable Porous Inserts by Regulating Base Pressure

    Mironov, S. G., Valiullin, I. R. & Poplavskaya, T. V., May 2021, In: Technical Physics Letters. 47, 5, p. 396-398 3 p.

    Research output: Contribution to journalArticlepeer-review

  5. Comparison of Detailed Chemical Models of Hydrogen Combustion in Numerical Simulations of Detonation

    Borisov, S. P., Kudryavtsev, A. N. & Shershnev, A. A., May 2021, In: Combustion, Explosion and Shock Waves. 57, 3, p. 270-284 15 p.

    Research output: Contribution to journalArticlepeer-review

  6. Comparison of detailed and reduced kinetics mechanisms of silane oxidation in the basis of detonation wave structure problem

    Fedorov, A. V., Tropin, D. A. & Fomin, P. A., 28 Mar 2018, XV All-Russian Seminar "Dynamics of Multiphase Media", DMM 2017. Fomin (ed.). American Institute of Physics Inc., Vol. 1939. 6 p. 020010. (AIP Conference Proceedings; vol. 1939).

    Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

  7. Combustion of Round Hydrogen Microjet in Concurrent Flow

    Kozlov, V. V., Litvinenko, M. V., Litvinenko, Y. A., Pavlenko, A. M., Tambovtsev, A. S. & Shmakov, A. G., Apr 2021, In: Journal of Engineering Thermophysics. 30, 2, p. 213-224 12 p.

    Research output: Contribution to journalArticlepeer-review

  8. Combustion of round hydrogen microjet in a concurrent flow

    Kozlov, V. V., Grek, G. R., Litvinenko, M. V., Litvinenko, Y. A., Tambovtsev, A. S. & Shmakov, A. G., 6 Dec 2019, In: Journal of Physics: Conference Series. 1404, 1, 012061.

    Research output: Contribution to journalConference articlepeer-review

  9. Combustion of round hydrogen microjet in a cocurrent air flow with nanopowder

    Kozlov, V. V., Grek, G. R., Litvinenko, M. V., Litvinenko, Y. A., Tambovtsev, A. S. & Shmakov, A. G., 28 Nov 2019, In: Journal of Physics: Conference Series. 1382, 1, 8 p., 012057.

    Research output: Contribution to journalConference articlepeer-review

  10. Combustion of round hydrogen microjet in a cocurrent air flow

    Kozlov, V. V., Grek, G. R., Katasonov, M. M., Litvinenko, M. V., Litvinenko, Y. A., Tambovtsev, A. S. & Shmakov, A. G., 28 Nov 2019, In: Journal of Physics: Conference Series. 1382, 1, 9 p., 012056.

    Research output: Contribution to journalConference articlepeer-review

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