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Prikladnaya Mekhanika i Tekhnicheskaya Fizika, 2015, Volume 56, Issue 5, Pages 64–75
DOI: https://doi.org/10.15372/PMTF20150505 (Mi pmtf898) 		 
This article is cited in 13 scientific papers (total in 13 papers)

Numerical simulation of the interaction of a transverse jet with a supersonic flow using different turbulence models

K. N. Volkov, V. N. Emelyanov, M. S. Yakovchuk

Baltic State Technical University, St. Petersburg, 190005, Russia
Full-text PDF (448 kB) Citations (13)
DOI: https://doi.org/10.15372/PMTF20150505
Abstract: This paper presents a numerical simulation of the flow resulting from transverse jet injection into a supersonic flow through a slot nozzle at different pressures in the injected jet and the crossflow. Calculations on grids with different resolutions use the Spalart–Allmaras turbulence model, the kε model, the kω model, and the SST model. Based on a comparison of the calculated and experimental data on the wall pressure distribution, the length of the recirculation area, and the depth of jet penetration into the supersonic flow, conclusions are made on the accuracy of the calculation results for the different turbulence models and the applicability of these models to similar problems.
Keywords: supersonic flow, jet, injection, turbulence, shock wave, numerical modeling.
Received: 13.02.2015
Revised: 13.05.2015
English version:
Journal of Applied Mechanics and Technical Physics, 2015, Volume 56, Issue 5, Pages 789–798
DOI: https://doi.org/10.1134/S0021894415050053
Bibliographic databases:
Document Type: Article
UDC: 532.542.2
Language: Russian
Citation: K. N. Volkov, V. N. Emelyanov, M. S. Yakovchuk, “Numerical simulation of the interaction of a transverse jet with a supersonic flow using different turbulence models”, Prikl. Mekh. Tekh. Fiz., 56:5 (2015), 64–75; J. Appl. Mech. Tech. Phys., 56:5 (2015), 789–798
Citation in format AMSBIB
\Bibitem{VolEmeYak15}
\by K.~N.~Volkov, V.~N.~Emelyanov, M.~S.~Yakovchuk
\paper Numerical simulation of the interaction of a transverse jet with a supersonic flow using different turbulence models
\jour Prikl. Mekh. Tekh. Fiz.
\yr 2015
\vol 56
\issue 5
\pages 64--75
\mathnet{http://mi.mathnet.ru/pmtf898}
\crossref{https://doi.org/10.15372/PMTF20150505}
\elib{https://elibrary.ru/item.asp?id=25454197}
\transl
\jour J. Appl. Mech. Tech. Phys.
\yr 2015
\vol 56
\issue 5
\pages 789--798
\crossref{https://doi.org/10.1134/S0021894415050053}
Linking options:
  • https://www.mathnet.ru/eng/pmtf898
  • https://www.mathnet.ru/eng/pmtf/v56/i5/p64
    • This publication is cited in the following 13 articles:
    1. A. A. Boryaev, “Parameters to Assess the Operation of Thrust Vector Control Systems in Jet Engines”, Un. Sys., 12:01 (2024), 87  crossref
    2. Altynshash Naimanova, Assel Beketaeva, “A new non‐equilibrium modification of the k-ω$ k-\omega $ turbulence model for supersonic turbulent flows with transverse jet”, Numerical Methods in Fluids, 2024  crossref
    3. Andrey Pankov, Grigoriy Nechaev, Vadim Miroshnikov, Aleksandr Zaharchuk, Leonid Budikov, Dmitriy Korobeynikov, Irina Mihaylova, “Modeling and Experimental Research of Pneumatic Elements for Transportation Control Systems”, Transport automation research, 9:4 (2023), 342  crossref
    4. Jiang-Fei Yu, Tao Tang, Jin-Cheng Zhang, Da-Peng Xiong, Hong-Bo Wang, Ming-Bo Sun, “Analysis of influencing factors on numerical simulation of transverse jet in supersonic flow”, Advances in Mechanical Engineering, 15:11 (2023)  crossref
    5. Vladislav Emelyanov, Konstantin Volkov, Mikhail Yakovchuk, “Unsteady flow simulation of compressible turbulent flow in dual-bell nozzle with movement of extendible section from its initial to working position”, Acta Astronautica, 194 (2022), 514  crossref
    6. V. N. Emelyanov, K. N. Volkov, M. S. Yakovchuk, “Unsteady Flow in a Dual-Bell Nozzle with Displacement of an Extendible Section from the Initial to Working Position”, Fluid Dyn, 57:S1 (2022), S35  crossref
    7. S. Valger, N. Fedorova, INTERNATIONAL CONFERENCE ON THE METHODS OF AEROPHYSICAL RESEARCH (ICMAR 2020), 2351, INTERNATIONAL CONFERENCE ON THE METHODS OF AEROPHYSICAL RESEARCH (ICMAR 2020), 2021, 040019  crossref
    8. Vladislav Emelyanov, Mikhail Yakovchuk, Konstantin Volkov, “Multiparameter Optimization of Thrust Vector Control with Transverse Injection of a Supersonic Underexpanded Gas Jet into a Convergent Divergent Nozzle”, Energies, 14:14 (2021), 4359  crossref
    9. K. N. Volkov, V. N. Emelyanov, M. S. Yakovchuk, “Unsteady transverse gas injection in a supersonic nozzle flow”, High Temperature, 58:2 (2020), 238–246  mathnet  mathnet  crossref  crossref  isi  scopus
    10. H.O. Strelnykov, O.L. Tokareva, O.D. Ihnatiev, N.S. Pryadko, K.V. Ternova, “Increasing the efficiency of an interceptor system for rocket engine thrust vector control”, Teh. Meh., 2020:4 (2020), 13  crossref
    11. K. N. Volkov, V. N. Emelyanov, M. S. Yakovchuk, “Flow structure and thrust change at gas jet injection into the supersonic part of a nozzle”, Tech. Phys., 64:3 (2019), 317–323  mathnet  mathnet  crossref  crossref
    12. Apurva Bhagat, Harshal Gijare, Nishanth Dongari, “Modeling of a reaction control jet interacting with high-speed cross-flow in slip flow regime”, Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 233:13 (2019), 5029  crossref
    13. A. O. Beketaeva, P. Bruel, A. Zh. Naimanova, “Detailed comparative analysis of interaction of a supersonic flow with a transverse gas jet at high pressure ratios”, Tech. Phys., 64:10 (2019), 1430–1440  mathnet  mathnet  crossref  crossref
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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