Dynamical analysis of turbulent premixed hydrogen/air flames in the thin reaction zone regime

Efstathios Al Tingas; Roman Kashtanov; Francisco E. Hernández Pérez; Hong G. Im; Pietro Paolo Ciottoli; Riccardo Malpica Galassi; Mauro Valorani

Dynamical analysis of turbulent premixed hydrogen/air flames in the thin reaction zone regime

Efstathios Al Tingas
, Roman Kashtanov
, Francisco E. Hernández Pérez
, Hong G. Im
, Pietro Paolo Ciottoli
, Riccardo Malpica Galassi
, Mauro Valorani

UHI Perth

Producción científica › revisión exhaustiva

Resumen

In the current study, tools generated from the computational singular perturbation (CSP) are used to analyze the dynamics that develops in a three-dimensional (3D) turbulent H₂/air flame. On top of these tools, the recently proposed tangential stretch rate (TSR) approach is used to obtain physical understanding of the turbulent flame. The analysis is first conducted on a laminar premixed H₂/air flame followed by the analysis of the 3D turbulent flame at three distinct time steps. Using algorithmic tools, the flame front was identified along with the dominant processes reaction and transport (diffusive/convective) processes. Furthermore, the overall role of kinetics/transport was determined at each part of the flame.

Idioma original	English
Estado	Published - 1 ene 2017
Evento	11th Asia-Pacific Conference on Combustion, ASPACC 2017 - Sydney Duración: 10 dic 2017 → 14 dic 2017

Conference

Conference	11th Asia-Pacific Conference on Combustion, ASPACC 2017
País/Territorio	Australia
Ciudad	Sydney
Período	10/12/17 → 14/12/17

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https://www.scopus.com/record/display.uri?eid=2-s2.0-85046656491&origin=inward&txGid=7f61b9c34de7c5a7bda47aaf96197a3fLicencia:

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Tingas, E. A., Kashtanov, R., Hernández Pérez, F. E., Im, H. G., Ciottoli, P. P., Galassi, R. M., & Valorani, M. (2017). Dynamical analysis of turbulent premixed hydrogen/air flames in the thin reaction zone regime. Papel presentado en 11th Asia-Pacific Conference on Combustion, ASPACC 2017, Sydney, Australia. https://www.scopus.com/record/display.uri?eid=2-s2.0-85046656491&origin=inward&txGid=7f61b9c34de7c5a7bda47aaf96197a3f

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title = "Dynamical analysis of turbulent premixed hydrogen/air flames in the thin reaction zone regime",

abstract = "In the current study, tools generated from the computational singular perturbation (CSP) are used to analyze the dynamics that develops in a three-dimensional (3D) turbulent H2/air flame. On top of these tools, the recently proposed tangential stretch rate (TSR) approach is used to obtain physical understanding of the turbulent flame. The analysis is first conducted on a laminar premixed H2/air flame followed by the analysis of the 3D turbulent flame at three distinct time steps. Using algorithmic tools, the flame front was identified along with the dominant processes reaction and transport (diffusive/convective) processes. Furthermore, the overall role of kinetics/transport was determined at each part of the flame.",

author = "Tingas, \{Efstathios Al\} and Roman Kashtanov and \{Hern{\'a}ndez P{\'e}rez\}, \{Francisco E.\} and Im, \{Hong G.\} and Ciottoli, \{Pietro Paolo\} and Galassi, \{Riccardo Malpica\} and Mauro Valorani",

note = "Produced while E Tingas was at King Abdullah University of Science and Technology; 11th Asia-Pacific Conference on Combustion, ASPACC 2017 ; Conference date: 10-12-2017 Through 14-12-2017",

year = "2017",

month = jan,

day = "1",

language = "English",

}

Tingas, EA, Kashtanov, R, Hernández Pérez, FE, Im, HG, Ciottoli, PP, Galassi, RM & Valorani, M 2017, 'Dynamical analysis of turbulent premixed hydrogen/air flames in the thin reaction zone regime', Papel presentado en 11th Asia-Pacific Conference on Combustion, ASPACC 2017, Sydney, 10/12/17 - 14/12/17. <https://www.scopus.com/record/display.uri?eid=2-s2.0-85046656491&origin=inward&txGid=7f61b9c34de7c5a7bda47aaf96197a3f>

TY - CONF

T1 - Dynamical analysis of turbulent premixed hydrogen/air flames in the thin reaction zone regime

AU - Tingas, Efstathios Al

AU - Kashtanov, Roman

AU - Hernández Pérez, Francisco E.

AU - Im, Hong G.

AU - Ciottoli, Pietro Paolo

AU - Galassi, Riccardo Malpica

AU - Valorani, Mauro

N1 - Produced while E Tingas was at King Abdullah University of Science and Technology

PY - 2017/1/1

Y1 - 2017/1/1

N2 - In the current study, tools generated from the computational singular perturbation (CSP) are used to analyze the dynamics that develops in a three-dimensional (3D) turbulent H2/air flame. On top of these tools, the recently proposed tangential stretch rate (TSR) approach is used to obtain physical understanding of the turbulent flame. The analysis is first conducted on a laminar premixed H2/air flame followed by the analysis of the 3D turbulent flame at three distinct time steps. Using algorithmic tools, the flame front was identified along with the dominant processes reaction and transport (diffusive/convective) processes. Furthermore, the overall role of kinetics/transport was determined at each part of the flame.

AB - In the current study, tools generated from the computational singular perturbation (CSP) are used to analyze the dynamics that develops in a three-dimensional (3D) turbulent H2/air flame. On top of these tools, the recently proposed tangential stretch rate (TSR) approach is used to obtain physical understanding of the turbulent flame. The analysis is first conducted on a laminar premixed H2/air flame followed by the analysis of the 3D turbulent flame at three distinct time steps. Using algorithmic tools, the flame front was identified along with the dominant processes reaction and transport (diffusive/convective) processes. Furthermore, the overall role of kinetics/transport was determined at each part of the flame.

UR - https://www.scopus.com/pages/publications/85046656491

UR - https://www.scopus.com/pages/publications/85046656491#tab=citedBy

M3 - Paper

AN - SCOPUS:85046656491

T2 - 11th Asia-Pacific Conference on Combustion, ASPACC 2017

Y2 - 10 December 2017 through 14 December 2017

ER -

Dynamical analysis of turbulent premixed hydrogen/air flames in the thin reaction zone regime

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