Computational singular perturbation method and tangential stretching rate analysis of large scale simulations of reactive flows: Feature tracking, time scale characterization, and cause/effect identification. Part 2, analyses of ignition systems, laminar and turbulent flames

M. Valorani; F. Creta; P. P. Ciottoli; R. Malpica Galassi; D. A. Goussis; H. N. Najm; S. Paolucci; H. G. Im; E. A. Tingas; D. M. Manias; A. Parente; Z. Li; T. Grenga

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Computational singular perturbation method and tangential stretching rate analysis of large scale simulations of reactive flows: Feature tracking, time scale characterization, and cause/effect identification. Part 2, analyses of ignition systems, laminar and turbulent flames

Springer International Publishing, (2020), 65-88

DOI: 10.1007/978-3-030-44718-2_4

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Valorani, M., Creta, F., Ciottoli, P. P., Malpica Galassi, R., Goussis, D. A., Najm, H. N., … Grenga, T. (2020). Computational singular perturbation method and tangential stretching rate analysis of large scale simulations of reactive flows: Feature tracking, time scale characterization, and cause/effect identification. Part 2, analyses of ignition systems, laminar and turbulent flames. In Data Analysis for Direct Numerical Simulations of Turbulent Combustion: From Equation-Based Analysis to Machine Learning (pp. 65–88). Springer International Publishing. https://doi.org/10.1007/978-3-030-44718-2_4

Computational singular perturbation method and tangential stretching rate analysis of large scale simulations of reactive flows: Feature tracking, time scale characterization, and cause/effect identification. Part 2, analyses of ignition systems, laminar and turbulent flames

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