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Combustion Science and Technology Volume 180, 2008 - Issue 3
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Original Articles

Large Eddy Simulation of a H2/N2 Lifted Flame in a Vitiated Co-Flow

C. Duwig Division of Fluid Mechanics, Department of Energy Sciences, Lund University, Lund, SwedenCorrespondence[email protected]
&
L. Fuchs Division of Fluid Mechanics, Department of Energy Sciences, Lund University, Lund, Sweden
Pages 453-480 | Published online: 23 Jan 2008

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Artur Tyliszczak, Agnieszka Wawrzak & Karol Wawrzak. (2023) Impact of a discretisation method and chemical kinetics on the accuracy of simulation of a lifted hydrogen flame. Combustion Theory and Modelling 27:2, pages 244-266.
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Erdzan Hodzic, Mehdi Jangi, Robert-Zoltan Szasz, Christophe Duwig, Marco Geron, Juliana Early, Laszlo Fuchs & Xue-Song Bai. (2019) Large Eddy Simulation of Bluff-Body Flame Approaching Blow-Off: A Sensitivity Study. Combustion Science and Technology 191:10, pages 1815-1842.
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Cédric Mehl, Jérôme Idier & Benoît Fiorina. (2018) Evaluation of deconvolution modelling applied to numerical combustion. Combustion Theory and Modelling 22:1, pages 38-70.
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Hongda Zhang, Chao Han, Taohong Ye & Zhuyin Ren. (2016) Large eddy simulation of turbulent premixed combustion using tabulated detailed chemistry and presumed probability density function. Journal of Turbulence 17:3, pages 327-355.
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Christophe Duwig, Karl-Johan Nogenmyr, Cheong-ki Chan & MatthewJ. Dunn. (2011) Large Eddy Simulations of a piloted lean premix jet flame using finite-rate chemistry. Combustion Theory and Modelling 15:4, pages 537-568.
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Christophe Duwig. (2011) Large Eddy Simulation of flame stabilisation dynamics and vortex control in a lifted H2/N2 jet flame. Combustion Theory and Modelling 15:3, pages 325-346.
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Articles from other publishers (40)

Agnieszka Wawrzak, Lena Caban, Artur Tyliszczak & Epaminondas Mastorakos. (2024) Numerical analysis of turbulent nitrogen-diluted hydrogen flames stabilised by star-shaped bluff bodies. Applied Energy 364, pages 123075.
Crossref
Agnieszka Wawrzak, Karol Wawrzak, Andrzej Boguslawski, Artur Tyliszczak & Bernard J. Geurts. (2023) Hydrogen Jet Flame Control by Global Mode. Flow, Turbulence and Combustion 112:1, pages 61-83.
Crossref
Agnieszka Wawrzak, Karol Wawrzak, Andrzej Boguslawski, Artur Tyliszczak & Bernard J. Geurts. (2023) Global instability phenomenon as a physical mechanism controlling dynamics of a nitrogen-diluted hydrogen flame. International Journal of Heat and Mass Transfer 213, pages 124260.
Crossref
Huu-Tri Nguyen, Camille Barnaud, Pascale Domingo, Phuc-Danh Nguyen & Luc Vervisch. (2023) Large-Eddy Simulation of flameless combustion with neural-network driven chemistry. Applications in Energy and Combustion Science 14, pages 100126.
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Said Taileb, Alejandro Millán-Merino, Song Zhao & Pierre Boivin. (2022) Lattice-Boltzmann modeling of lifted hydrogen jet flames: A new model for hazardous ignition prediction. Combustion and Flame 245, pages 112317.
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Hongpeng Liu, Zhenxun Gao, Chongwen Jiang & Chun-Hian Lee. (2020) Studies of combustion effects on near-wall turbulence in supersonic flows by large eddy simulation. Aerospace Science and Technology 107, pages 106328.
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J.M. Desantes, J.M. García-Oliver, R. Novella & E.J. Pérez-Sánchez. (2020) Application of a flamelet-based CFD combustion model to the LES simulation of a diesel-like reacting spray. Computers & Fluids 200, pages 104419.
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Eduardo J Pérez-Sánchez, Jose M Garcia-Oliver, Ricardo Novella & Jose M Pastor. (2019) Understanding the diesel-like spray characteristics applying a flamelet-based combustion model and detailed large eddy simulations. International Journal of Engine Research 21:1, pages 134-150.
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Christoph M. Arndt & Wolfgang Meier. (2018) Influence of Boundary Conditions on the Flame Stabilization Mechanism and on Transient Auto-ignition in the DLR Jet-in-Hot-Coflow Burner. Flow, Turbulence and Combustion 102:4, pages 973-993.
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Luis Cifuentes, Ehsan Fooladgar & Christophe Duwig. (2018) Chemical Explosive Mode Analysis for a Jet-in-Hot-Coflow burner operating in MILD combustion. Fuel 232, pages 712-723.
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Rajavasanth Rajasegar, Constandinos M. Mitsingas, Eric K. Mayhew, Jihyung Yoo & Tonghun Lee. (2016) Proper Orthogonal Decomposition for Analysis of Plasma-Assisted Premixed Swirl-Stabilized Flame Dynamics. IEEE Transactions on Plasma Science 44:12, pages 2940-2951.
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Wang Han, Venkat Raman & Zheng Chen. (2016) LES/PDF modeling of autoignition in a lifted turbulent flame: Analysis of flame sensitivity to differential diffusion and scalar mixing time-scale. Combustion and Flame 171, pages 69-86.
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Xuejin Zhou, Xi Jiang & Daniel Mira Martinez. (2016) The effects of chemical kinetic mechanisms on large eddy simulation (LES) of a nonpremixed hydrogen jet flame. International Journal of Hydrogen Energy 41:26, pages 11427-11440.
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Alessandro Parente, Mohammad Rafi Malik, Francesco Contino, Alberto Cuoci & Bassam B. Dally. (2016) Extension of the Eddy Dissipation Concept for turbulence/chemistry interactions to MILD combustion. Fuel 163, pages 98-111.
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Bertrand Naud, Ricardo Novella, José Manuel Pastor & Johannes F. Winklinger. (2015) RANS modelling of a lifted H2/N2 flame using an unsteady flamelet progress variable approach with presumed PDF. Combustion and Flame 162:4, pages 893-906.
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Haiou Wang, Kun Luo, Kunzan Qiu & Jianren Fan. (2015) Conditional statistics of a laboratory-scale lifted turbulent H 2 /N 2 flame using direct numerical simulation. International Journal of Hydrogen Energy 40:4, pages 2004-2012.
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Chao Han, Pei Zhang, TaoHong Ye & YiLiang Chen. (2014) Numerical study of methane/air jet flame in vitiated co-flow using tabulated detailed chemistry. Science China Technological Sciences 57:9, pages 1750-1760.
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C. Duwig & P. Iudiciani. (2014) Large Eddy Simulation of turbulent combustion in a stagnation point reverse flow combustor using detailed chemistry. Fuel 123, pages 256-273.
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Haiou Wang, Kun Luo & Jianren Fan. (2014) Conditional reaction rate in a lifted turbulent H2/N2 flame using direct numerical simulation. International Journal of Hydrogen Energy 39:6, pages 2703-2714.
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Vinayaka N. Prasad, Assaad R. Masri, Salvador Navarro-Martinez & Kai H. Luo. (2013) Investigation of auto-ignition in turbulent methanol spray flames using Large Eddy Simulation. Combustion and Flame 160:12, pages 2941-2954.
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Seyed Mohammad Mir Najafizadeh, Mohammad Taghi Sadeghi, Rahmat Sotudeh-Gharebagh & Dirk J.E.M. Roekaerts. (2013) Chemical structure of autoignition in a turbulent lifted H2/N2 jet flame issuing into a vitiated coflow. Combustion and Flame 160:12, pages 2928-2940.
Crossref
Christophe Duwig & Matthew J. Dunn. (2013) Large Eddy Simulation of a premixed jet flame stabilized by a vitiated co-flow: Evaluation of auto-ignition tabulated chemistry. Combustion and Flame 160:12, pages 2879-2895.
Crossref
Erdzan Hodizc, Christophe Duwig, Robert Szasz, Oliver Krüger & Laszlo J. Fuchs. (2013) Large Eddy Simulation of lean blow off. Large Eddy Simulation of lean blow off.
Yi-Shuai Niu, Luc Vervisch & Pham Dinh Tao. (2013) An optimization-based approach to detailed chemistry tabulation: Automated progress variable definition. Combustion and Flame 160:4, pages 776-785.
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I. A. Dodoulas & S. Navarro-Martinez. (2013) Large Eddy Simulation of Premixed Turbulent Flames Using the Probability Density Function Approach. Flow, Turbulence and Combustion 90:3, pages 645-678.
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Oliver Krüger, Steffen Terhaar, Christian Oliver Paschereit & Christophe Duwig. (2013) Large Eddy Simulations of Hydrogen Oxidation at Ultra-Wet Conditions in a Model Gas Turbine Combustor Applying Detailed Chemistry. Journal of Engineering for Gas Turbines and Power 135:2.
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S.M. Mir Najafizadeh, M.T. Sadeghi & R. Sotudeh-Gharebagh. (2013) Analysis of autoignition of a turbulent lifted H2/N2 jet flame issuing into a vitiated coflow. International Journal of Hydrogen Energy 38:5, pages 2510-2522.
Crossref
Stephen B. Pope. (2013) Small scales, many species and the manifold challenges of turbulent combustion. Proceedings of the Combustion Institute 34:1, pages 1-31.
Crossref
C.B. Devaud, I. Stanković & B. Merci. (2013) Deterministic Multiple Mapping Conditioning (MMC) applied to a turbulent flame in Large Eddy Simulation (LES). Proceedings of the Combustion Institute 34:1, pages 1213-1221.
Crossref
Kun Luo, Haiou Wang, Fuxing Yi & Jianren Fan. (2012) Direct Numerical Simulation Study of an Experimental Lifted H 2 /N 2 Flame. Part 1: Validation and Flame Structure . Energy & Fuels 26:10, pages 6118-6127.
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Christophe Duwig, Sébastien Ducruix & Denis Veynante. (2012) Studying the Stabilization Dynamics of Swirling Partially Premixed Flames by Proper Orthogonal Decomposition. Journal of Engineering for Gas Turbines and Power 134:10.
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Paul R. Medwell & Bassam B. Dally. (2012) Experimental Observation of Lifted Flames in a Heated and Diluted Coflow. Energy & Fuels 26:9, pages 5519-5527.
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William O’Loughlin & Assaad R. Masri. (2012) The Structure of the Auto-Ignition Region of Turbulent Dilute Methanol Sprays Issuing in a Vitiated Co-flow. Flow, Turbulence and Combustion 89:1, pages 13-35.
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Salvador Navarro-Martinez & Andreas Kronenburg. (2011) Flame Stabilization Mechanisms in Lifted Flames. Flow, Turbulence and Combustion 87:2-3, pages 377-406.
Crossref
W. O’Loughlin & A.R. Masri. (2011) A new burner for studying auto-ignition in turbulent dilute sprays. Combustion and Flame 158:8, pages 1577-1590.
Crossref
Wei Feng, Zhi-jun Wu, Jun Deng & Li-guang Li. (2011) Auto-ignition and stabilization mechanism of diluted H2 jet flame. Journal of Zhejiang University-SCIENCE A 12:2, pages 154-161.
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Matthieu Masquelet & Suresh Menon. (2010) Large-Eddy Simulation of Flame-Turbulence Interactions in a Shear Coaxial Injector. Journal of Propulsion and Power 26:5, pages 924-935.
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Christophe Duwig & Piero Iudiciani. (2009) Extended Proper Orthogonal Decomposition for Analysis of Unsteady Flames. Flow, Turbulence and Combustion 84:1, pages 25-47.
Crossref
Jean-Baptiste Michel, Olivier Colin & Denis Veynante. (2008) Comparison of Differing Formulations of the PCM Model by their Application to the Simulation of an Auto-igniting H 2/air Jet. Flow, Turbulence and Combustion 83:1, pages 33-60.
Crossref
Epaminondas Mastorakos. (2009) Ignition of turbulent non-premixed flames. Progress in Energy and Combustion Science 35:1, pages 57-97.
Crossref

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