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Comparison of Flame Propagation Statistics Extracted from Direct Numerical Simulation Based on Simple and Detailed Chemistry—Part 1: Fundamental Flame Turbulence Interaction

Author

Listed:
  • Felix Benjamin Keil

    (Department of Aerospace Engineering, Bundeswehr University Munich, LRT1, Werner-Heisenberg-Weg 39, 85577 Neubiberg, Germany)

  • Marvin Amzehnhoff

    (Department of Aerospace Engineering, Bundeswehr University Munich, LRT1, Werner-Heisenberg-Weg 39, 85577 Neubiberg, Germany)

  • Umair Ahmed

    (School of Engineering, Newcastle University, Newcastle-upon-Tyne NE1 7RU, UK)

  • Nilanjan Chakraborty

    (School of Engineering, Newcastle University, Newcastle-upon-Tyne NE1 7RU, UK)

  • Markus Klein

    (Department of Aerospace Engineering, Bundeswehr University Munich, LRT1, Werner-Heisenberg-Weg 39, 85577 Neubiberg, Germany)

Abstract

In the present study, flame propagation statistics from turbulent statistically planar premixed flames obtained from simple and detailed chemistry, three-dimensional Direct Numerical Simulations, were evaluated and compared to each other. To this end, a new database was established encompassing five different conditions on the turbulent premixed combustion regime diagram, using nearly identical numerical methods and the same initial and boundary conditions. A detailed discussion of the advantages and limitations of both approaches is provided, including the difference in carbon footprint for establishing the database. It is shown that displacement speed statistics and their interrelation with curvature and tangential strain rate are in very good qualitative and reasonably good quantitative agreement between simple and detailed chemistry Direct Numerical Simulations. Hence, it is concluded that simple chemistry simulations should retain their importance for future combustion research, and the environmental impact of high-performance computing methods should be carefully chosen in relation to the goals to be achieved.

Suggested Citation

  • Felix Benjamin Keil & Marvin Amzehnhoff & Umair Ahmed & Nilanjan Chakraborty & Markus Klein, 2021. "Comparison of Flame Propagation Statistics Extracted from Direct Numerical Simulation Based on Simple and Detailed Chemistry—Part 1: Fundamental Flame Turbulence Interaction," Energies, MDPI, vol. 14(17), pages 1-18, September.
    • Handle: RePEc:gam:jeners:v:14:y:2021:i:17:p:5548-:d:629481
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    Citations

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    Cited by:

    1. Felix B. Keil & Marvin Amzehnhoff & Umair Ahmed & Nilanjan Chakraborty & Markus Klein, 2021. "Comparison of Flame Propagation Statistics Based on Direct Numerical Simulation of Simple and Detailed Chemistry. Part 2: Influence of Choice of Reaction Progress Variable," Energies, MDPI, vol. 14(18), pages 1-32, September.
    2. Vishnu Mohan & Marco Herbert & Markus Klein & Nilanjan Chakraborty, 2023. "A Direct Numerical Simulation Assessment of Turbulent Burning Velocity Parametrizations for Non-Unity Lewis Numbers," Energies, MDPI, vol. 16(6), pages 1-22, March.
    3. Cong Xu & Junguang Lin & Zhihua Wang & Kaidi Wan & Shien Sun & Zhijun Zhou, 2022. "Three-Dimensional Direct Numerical Simulation of Near-Field Ozone-Enhanced Lean Premixed Syngas Turbulent Jet Flame," Energies, MDPI, vol. 15(11), pages 1-15, May.

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