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Analysis of a Dual-Mode Scramjet Engine Isolator Operating From Mach 3.5 to Mach 6

Received: 28 August 2016     Accepted: 10 September 2016     Published: 29 September 2016
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Abstract

Isolator is an important component of the hypersonic dual-mode scramjet engine, which plays a critical role on the stability of the engine. Flow structure inside an isolator is quite complicated due to separation zones and shock train. The main function of an isolator is to prevent the separated flow from deviating outside the engine, causing it to stop working. This paper will present a mathematical model of the flow through an isolator, then carry out theoretical flow calculation and CFD simulation in order to determine the length and the operational mode of the isolator of a dual-mode scramjet engine operating from Mach 3.5 to Mach 6. The theoretical and CFD results will also be compared to verify the mathematical model.

Published in International Journal of Mechanical Engineering and Applications (Volume 4, Issue 5)
DOI 10.11648/j.ijmea.20160405.14
Page(s) 189-198
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2016. Published by Science Publishing Group

Keywords

Dual-mode Scramjet, Isolator, Shock Train, CFD

References
[1] Marta Marimon Mateu, Study of An Air-breathing Engine for Hypersonic Flight, Technical Report, Universitat Politecnica de Catalunya, Spain, September 2013.
[2] Heiser, W. H. and Pratt, D. T., Hypersonic Airbreathing Propulsion, AIAA Education Series, 1994.
[3] E. T. Curran, S. N. B. Murthy, Scramjet Propulsion, Vol 189, Progress in Astronautics and Aeronautics, AIAA, 2000.
[4] Guy Norris, Skunk Works Reveals SR-71 Successor Plan, Aviation Week & Space Technology, 2013.
[5] Christian Max Fischer, Investigation of the Isolator Flow of Scramjet Engines, Ph. D. Thesis, RWTH Aachen Universiry, Germany, 2014.
[6] Ortwerth, P. J., Scramjet Vehicle Integration, Scramjet Propulsion, Progress in Astronautics and Aeronautics, AIAA Washington DC, 2001.
[7] The Engineering Department, Crane Co., Flow of Fluids through Valves, Fittings and Pipe, Technical Paper No. 410, 2010.
[8] Michael K. Smart, Scramjet Isolators, Centre for Hypersonics, The University of Queensland Brisbane 4072, Australia, September 2010.
[9] Vũ Ngọc Long, Design of Hypersonic Scramjet Engine Inlet, Graduation Thesis, Hanoi University of Science and Technology, Vietnam, 2016.
[10] ANSYS Inc, Introduction to ANSYS Meshing, Release 14.5, 2012.
Cite This Article
  • APA Style

    Vu Ngoc Long, Luu Hong Quan, Nguyen Phu Hung, Le Doan Quang. (2016). Analysis of a Dual-Mode Scramjet Engine Isolator Operating From Mach 3.5 to Mach 6. International Journal of Mechanical Engineering and Applications, 4(5), 189-198. https://doi.org/10.11648/j.ijmea.20160405.14

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    ACS Style

    Vu Ngoc Long; Luu Hong Quan; Nguyen Phu Hung; Le Doan Quang. Analysis of a Dual-Mode Scramjet Engine Isolator Operating From Mach 3.5 to Mach 6. Int. J. Mech. Eng. Appl. 2016, 4(5), 189-198. doi: 10.11648/j.ijmea.20160405.14

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    AMA Style

    Vu Ngoc Long, Luu Hong Quan, Nguyen Phu Hung, Le Doan Quang. Analysis of a Dual-Mode Scramjet Engine Isolator Operating From Mach 3.5 to Mach 6. Int J Mech Eng Appl. 2016;4(5):189-198. doi: 10.11648/j.ijmea.20160405.14

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  • @article{10.11648/j.ijmea.20160405.14,
      author = {Vu Ngoc Long and Luu Hong Quan and Nguyen Phu Hung and Le Doan Quang},
      title = {Analysis of a Dual-Mode Scramjet Engine Isolator Operating From Mach 3.5 to Mach 6},
      journal = {International Journal of Mechanical Engineering and Applications},
      volume = {4},
      number = {5},
      pages = {189-198},
      doi = {10.11648/j.ijmea.20160405.14},
      url = {https://doi.org/10.11648/j.ijmea.20160405.14},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijmea.20160405.14},
      abstract = {Isolator is an important component of the hypersonic dual-mode scramjet engine, which plays a critical role on the stability of the engine. Flow structure inside an isolator is quite complicated due to separation zones and shock train. The main function of an isolator is to prevent the separated flow from deviating outside the engine, causing it to stop working. This paper will present a mathematical model of the flow through an isolator, then carry out theoretical flow calculation and CFD simulation in order to determine the length and the operational mode of the isolator of a dual-mode scramjet engine operating from Mach 3.5 to Mach 6. The theoretical and CFD results will also be compared to verify the mathematical model.},
     year = {2016}
    }
    

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  • TY  - JOUR
    T1  - Analysis of a Dual-Mode Scramjet Engine Isolator Operating From Mach 3.5 to Mach 6
    AU  - Vu Ngoc Long
    AU  - Luu Hong Quan
    AU  - Nguyen Phu Hung
    AU  - Le Doan Quang
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    DO  - 10.11648/j.ijmea.20160405.14
    T2  - International Journal of Mechanical Engineering and Applications
    JF  - International Journal of Mechanical Engineering and Applications
    JO  - International Journal of Mechanical Engineering and Applications
    SP  - 189
    EP  - 198
    PB  - Science Publishing Group
    SN  - 2330-0248
    UR  - https://doi.org/10.11648/j.ijmea.20160405.14
    AB  - Isolator is an important component of the hypersonic dual-mode scramjet engine, which plays a critical role on the stability of the engine. Flow structure inside an isolator is quite complicated due to separation zones and shock train. The main function of an isolator is to prevent the separated flow from deviating outside the engine, causing it to stop working. This paper will present a mathematical model of the flow through an isolator, then carry out theoretical flow calculation and CFD simulation in order to determine the length and the operational mode of the isolator of a dual-mode scramjet engine operating from Mach 3.5 to Mach 6. The theoretical and CFD results will also be compared to verify the mathematical model.
    VL  - 4
    IS  - 5
    ER  - 

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Author Information
  • Department of Aeronautical and Space Engineering, School of Transportation Engineering, Hanoi University of Science and Technology, Hanoi, Vietnam

  • Department of Aeronautical and Space Engineering, School of Transportation Engineering, Hanoi University of Science and Technology, Hanoi, Vietnam

  • The Ministry of Science and Technology, Hanoi University of Science and Technology, Hanoi, Vietnam

  • Faculty of Aviation Technologies, Vietnam Aviation Academy, Ho Chi Minh City, Vietnam

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