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Combustion Science and Technology Volume 187, 2015 - Issue 12
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Original Articles

Numerical Investigation of Transient Soot Evolution Processes in an Aero-Engine Model Combustor

Christian EberleGerman Aerospace Center, Institute of Combustion Technology, Stuttgart, GermanyCorrespondence[email protected]
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,
Peter GerlingerUniversity of Stuttgart, Institute of Combustion Technology for Aerospace Engineering, Stuttgart, GermanyView further author information
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Klaus Peter GeigleGerman Aerospace Center, Institute of Combustion Technology, Stuttgart, GermanyView further author information
&
Manfred AignerGerman Aerospace Center, Institute of Combustion Technology, Stuttgart, GermanyView further author information
Pages 1841-1866 | Received 07 Jan 2015, Accepted 19 Jun 2015, Published online: 17 Sep 2015

Citations (26)

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Sung Hoon Park. (2023) Bi-modal moment model for predicting the formation and growth of soot aggregate particles. Particulate Science and Technology 41:1, pages 22-31.
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Christian Eberle, Peter Gerlinger, Klaus Peter Geigle & Manfred Aigner. (2018) Toward finite-rate chemistry large-eddy simulations of sooting swirl flames. Combustion Science and Technology 190:7, pages 1194-1217.
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Articles from other publishers (24)

Martin Grader & Peter Gerlinger. (2023) Influence of operating conditions on flow field dynamics and soot formation in an aero-engine model combustor. Combustion and Flame 258, pages 112712.
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Amir Rowhani, Zhiwei Sun, Paul R. Medwell, Graham J. Nathan & Bassam B. Dally. (2022) Relationships between Soot and the Local Instantaneous Strain Rate in Turbulent Non-Premixed Bluff-Body Flames. Energy & Fuels 36:19, pages 12181-12191.
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Florian Eigentler & Peter Gerlinger. (2022) A Detailed PAH and Soot Model for Complex Fuels in CFD Applications. Flow, Turbulence and Combustion 109:1, pages 225-251.
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Sung Hoon Park. (2022) Simulation of the Formation and Growth of Soot Aerosol Particles in a Premixed Combustion Process Using a Soot Aerosol Dynamics Model. Atmosphere 13:5, pages 847.
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Ömer H. Cokuslu, Christian Hasse, Klaus P. Geigle & Federica Ferraro. (2022) Soot Prediction in a Model Aero-Engine Combustor using a Quadrature-based Method of Moments. Soot Prediction in a Model Aero-Engine Combustor using a Quadrature-based Method of Moments.
Florian Eigentler, Peter M. Gerlinger & Ruud Eggels. (2022) Soot CFD simulation of a real aero engine combustor. Soot CFD simulation of a real aero engine combustor.
Simone Paccati, Davide Bertini, Lorenzo Mazzei, Stefano Puggelli & Antonio Andreini. (2020) Large-Eddy Simulation of a Model Aero-Engine Sooting Flame With a Multiphysics Approach. Flow, Turbulence and Combustion 106:4, pages 1329-1354.
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Maxime Bouvier, Gilles Cabot, Jérôme Yon & Frédéric Grisch. (2021) On the use of PIV, LII, PAH-PLIF and OH-PLIF for the study of soot formation and flame structure in a swirl stratified premixed ethylene/air flame. Proceedings of the Combustion Institute 38:1, pages 1851-1858.
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Martin Grader, Zhiyao Yin, Klaus Peter Geigle & Peter Gerlinger. (2021) Influence of flow field dynamics on soot evolution in an aero-engine model combustor. Proceedings of the Combustion Institute 38:4, pages 6421-6429.
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Savvas Gkantonas, Mariano Sirignano, Andrea Giusti, Andrea D’Anna & Epaminondas Mastorakos. (2020) Comprehensive soot particle size distribution modelling of a model Rich-Quench-Lean burner. Fuel 270, pages 117483.
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Martin Grader, Christian Eberle & Peter Gerlinger. (2020) Large-Eddy Simulation and analysis of a sooting lifted turbulent jet flame. Combustion and Flame 215, pages 458-470.
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Raju R. Kumal, Jiawei Liu, Akshay Gharpure, Randy L. Vander Wal, John S. Kinsey, Bob Giannelli, Jeffrey Stevens, Cullen Leggett, Robert Howard, Mary Forde, Alla Zelenyuk, Kaitlyn Suski, Greg Payne, Julien Manin, William Bachalo, Richard Frazee, Timothy B. Onasch, Andrew Freedman, David B. Kittelson & Jacob J. Swanson. (2020) Impact of Biofuel Blends on Black Carbon Emissions from a Gas Turbine Engine. Energy & Fuels 34:4, pages 4958-4966.
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Savvas Gkantonas, Andrea Giusti & Epaminondas Mastorakos. (2020) Incompletely Stirred Reactor Network Modeling of a Model Gas Turbine Combustor. Incompletely Stirred Reactor Network Modeling of a Model Gas Turbine Combustor.
P. Rodrigues, O. Gicquel, N. Darabiha, K. P. Geigle & R. Vicquelin. (2019) Assessment of External Heat Transfer Modeling of a Laboratory-Scale Combustor: Effects of Pressure-Housing Environment and Semi-Transparent Viewing Windows. Journal of Engineering for Gas Turbines and Power 141:3.
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B. Franzelli, A. Vié & N. Darabiha. (2019) A three-equation model for the prediction of soot emissions in LES of gas turbines. Proceedings of the Combustion Institute 37:4, pages 5411-5419.
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Simone Paccati, Davide Bertini, Stefano Puggelli, Lorenzo Mazzei, Antonio Andreini & Bruno Facchini. (2018) Numerical analyses of a high pressure sooting flame with multiphysics approach. Energy Procedia 148, pages 591-598.
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Trupti Kathrotia, Patrick Oßwald, Markus Köhler, Nadezhda Slavinskaya & Uwe Riedel. (2018) Experimental and mechanistic investigation of benzene formation during atmospheric pressure flow reactor oxidation of n-hexane, n-nonane, and n-dodecane below 1200 K. Combustion and Flame 194, pages 426-438.
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Shao Teng Chong, Malik Hassanaly, Heeseok Koo, Michael E. Mueller, Venkat Raman & Klaus-Peter Geigle. (2018) Large eddy simulation of pressure and dilution-jet effects on soot formation in a model aircraft swirl combustor. Combustion and Flame 192, pages 452-472.
Crossref
Anne Felden, Eleonore Riber & Benedicte Cuenot. (2018) Impact of direct integration of Analytically Reduced Chemistry in LES of a sooting swirled non-premixed combustor. Combustion and Flame 191, pages 270-286.
Crossref
Pedro Rodrigues, Benedetta Franzelli, Ronan Vicquelin, Olivier Gicquel & Nasser Darabiha. (2018) Coupling an LES approach and a soot sectional model for the study of sooting turbulent non-premixed flames. Combustion and Flame 190, pages 477-499.
Crossref
Patrick Nau, Zhiyao Yin, Klaus Peter Geigle & Wolfgang Meier. (2017) Wall temperature measurements at elevated pressures and high temperatures in sooting flames in a gas turbine model combustor. Applied Physics B 123:12.
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C. Eberle, P. Gerlinger & M. Aigner. (2017) A sectional PAH model with reversible PAH chemistry for CFD soot simulations. Combustion and Flame 179, pages 63-73.
Crossref
Christian EberlePeter M. Gerlinger & Manfred Aigner. (2017) Large Eddy Simulations of a Sooting Lifted Turbulent Jet-Flame. Large Eddy Simulations of a Sooting Lifted Turbulent Jet-Flame.
Klaus Peter Geigle, Redjem Hadef, Michael Stöhr & Wolfgang Meier. (2017) Flow field characterization of pressurized sooting swirl flames and relation to soot distributions. Proceedings of the Combustion Institute 36:3, pages 3917-3924.
Crossref

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