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COMMUNICATIONS LINKED TO THE WORK PERFORMED IN SOTUF

 

Publications in international journals

(click here to download papers)
  1. B. Franzelli, J. Bonnety, J. Yi, Y. Ogata, A. Cuoci, C. Betrancourt. Numerical simulations of TiO2 production in a laminar coflow H2/Ar/TTIP diffusion flame: comparison with experiments and parametric sensitivity study, Proc. Combust. Ins. (2025), vol 40.
  2. A Maffina, M Roussillo, P Scouflaire, N Darabiha, D Veynante, S Candel, B. Franzelli. Role of the Equivalence Ratio on Soot Formation in a Perfectly Premixed Turbulent Swirled Flame: A Combined Experimental and Large Eddy Simulations Study, Journal of Engineering for Gas Turbines and Power (2023), vol 146.  
  3. J. Yi, C. Betrancourt, N. Darabiha, B. Franzelli. Estimation of spectral absorption function range via LII measurements of flame-synthesized TiO2 nanoparticles, Appl. Phys B (2023), vol 129.  
  4. J. Yi, C. Betrancourt, N. Darabiha, B. Franzelli. Initial interpretation of Laser-induced Incandescence (LII) signals from flame-generated TiO2 particles: Towards a quantitative characterization of the flame synthesis processes, Applications in Energy and Combustion Science (2023), vol 15.  
  5. G. Guy, C. Betrancourt, B. Franzelli.  Estimation of soot absorption function via the two separated pulses laser-induced incandescence technique ,Applied Physics B (2023), vol 129.  
  6. J. Yi, C. Betrancourt, N. Darabiha, B. Franzelli. Characterization of laser-induced emission of high-purity TiO2 nanoparticles: feasibility of laser-induced incandescence, Appl. Phys B (2023), vol 129.  
  7. B. Franzelli, L. Tardelli, M. Stöhr, K.P. Geigle, P Domingo. Assessment of LES of intermittent soot production in an aero-engine model combustor using high-speed measurements, Proc. Combust. Ins. (2023), vol 39.  
  8. J.-M. Orlac’h, N. Darabiha, S. Candel, D. Veynante, B. Franzelli.  Accounting for hydrolysis in the modeling of titanium dioxide nanoparticle synthesis in laminar TiCl4-seeded flames, Comb. Flame (2022), vol. 247. 
  9. B. Franzelli, P. Scouflaire, N. Darabiha. Using in situ measurements to experimentally characterize TiO2 nanoparticle synthesis in a turbulent isopropyl alcohol flame, Materials (2021), vol. 14, 7083. 
  10. J.-M. Orlac'h, N. Darabiha, V. Giovangigli, B. Franzelli. Importance of mass and enthalpy conservation in the modeling of titania nanoparticles flame synthesis, Combust. Theory and Modelling (2021), vol. 25, pp. 389-412.
  11. A. Bodor, A. Cuoci, T. Faravelli, B. Franzelli. A forward approach for the validation of soot sizing models using laser-induced incandescence (LII), Applied Physics B: Laser and Optics (2020), vol. 126(3), pp. 49.
  12. A. Bodor, B. Franzelli, T. Faravelli, A. Cuoci. A post processing technique to predict primary particle size of sooting flames based on a chemical discrete sectional model: Application to diluted coflow flames, Combust. Flame (2019), vol. 208, pp. 122 – 138.
  13. B. Franzelli, M. Roussillo, P. Scouflaire, J. Bonnety, R. Jalain, T. Dormieux, S. Candel, G. Legros, Multi-diagnostic soot measurements in a laminar diffusion flame to assess the ISF database consistency,  Proc. Combust. Ins. (2019), vol. 37 (4), 5411-5419.
  14. B. Franzelli, A. Vié, N. Darabiha, A three-equation model for the prediction of soot emissions in LES of gas turbines, Proc. Combust. Ins. (2019), vol. 37 (2), 1344-1363.
  15. M. Roussillo, P. Scouflaire, S. Candel, B. Franzelli,  Experimental investigation of soot production in a confined swirled flame operating under perfectly premixed rich conditions, Proc. Combust. Ins. (2019), vol. 37(1), pp. 893-901.
  16. P. Rodrigues, B. Franzelli, R. Vicquelin, O. Gicquel, N. Darabiha. Coupling an LES approach and a soot sectional model for the study of sooting turbulent non-premixed flames. Combust. Flame (2018), vol. 190, pp. 477 – 499.
  17. B. Franzelli, A. Cuoci, A. Stagni, M. Ihme, T. Faravelli, S. Candel. Numerical investigation of soot-flame-vortex interaction. Proc. Combust. Ins. (2017), vol. 36, pp. 753 – 761.
  18. P. Rodrigues, B. Franzelli, R. Vicquelin, O. Gicquel, N. Darabiha. Unsteady dynamics of PAH and soot particles in laminar counterflow diffusion flames. Proc. Combust. Ins. (2017), vol. 36, pp. 927 – 934.
  19. B. Franzelli, P. Scouflaire, S. Candel, Time-resolved spatial patterns and interactions of soot, PAH and OH in a turbulent diffusion flame, Proc. Combust. Ins. (2015), vol. 35(2), pp. 1921-1929.

Peer-reviewed conferences and other contributions

(click the following references to get the presentation)
Y. Ogata, A. Vié, R. Fox, J.M. Dupays, A. Adbelsamie, D. Thevenin, B. Franzelli, A priori validation of subgrid models for the simulation of nanoparticle flame synthesis19th International Conference on Numerical Combustion, Kyoto, Japan (2024).
B. Franzelli, J. Yi, C. Betrancourt. In-situ measurements of the spectral absorption function for flame-made TiO2 from light emission and LII, 6th International Symposium on Gas-Phase Synthesis of Functional Nanomaterial, Duisbourg, Germany (2024).
G. Guy, C. Betrancourt, J. Bonnety, B. Franzelli. Effect of hydrogene dilution in a laminar diffusion ethylene flame: focus on soot formation, 3rd edition of Low-Carbon Combustion Conference, Nancy, France (2024).
B. Franzelli. Numerical challenges for the prediction of nanoparticle flame synthesis, Invited presentation at 26th ICTAM 2024, Daegu, Korea (2024).
 J. Yi, C. Betrancourt, B. Franzelli. Overcoming LII measurement challenges on metal-oxide nanoparticles in flame to get quantitative information, 10th Workshop on LII, Canada (2024).
 B. Franzelli, J. Bonnet, J. Yi, C. Betrancourt. Can time-resolved LII measurements be used to extract size information on flame-synthesized TiO2 nanoparticles?, 10th Workshop on LII, Canada (2024).
B. Franzelli, J. Bonnety, J. Yi, Y. Ogata, A. Cuoci, C. Betrancourt. Numerical simulations of TiO2 production in a laminar coflow H2/Ar/TTIP diffusion flame: comparison with experiments and parametric sensitivity study, 40th International Symposium on Combustion, Milano, Italy (2024).

A. Maffina, S. Candel, B. Franzelli, Validation of State-of-the-Art LES Modelling for Soot Prediction in Rich Premixed Turbulent Flames: a Focus on Oxidation Processes, 11th European Combustion Meeting, Rouen (2023).

A Maffina, M Roussillo, P Scouflaire, N Darabiha, D Veynante, S Candel, B. Franzelli. Role of the Equivalence Ratio on Soot Formation in a Perfectly Premixed Turbulent Swirled Flame: A Combined Experimental and Large Eddy Simulations Study, ASME Turbo Expo paper GT2023-104174, Boston, USA (2023).

J. Yi, C. Betrancourt, N. Darabiha, B. Franzelli, Interpretation of the Laser-Induced Emissions for flame-synthesized TiO 2 nanoparticles , 11th European Combustion Meeting, Rouen (2023).

Y. Ogata, R. Fox, A. Abdelsamie, D. Thévenin, B. Franzelli, Numerical simulations of TiO2 nanoparticle synthesis in sooting and non-sooting laboratory-scale flames, 11th European Combustion Meeting, Rouen (2023).

Y. Ogata, J. Yi, A. Cuoci, C. Betrancourt, B. Franzelli, Numerical simulations of TiO2 nanoparticle synthesis in sooting and non-sooting laboratory-scale flames, 5th International Symposium on Gas-Phase Synthesis of Functional Nanomaterials, Duisbourg (2022).

B. Franzelli, L. Tardelli, M. Stohr, K.P. Geigle, P. Domingo, Assessment of LES of intermittent soot production in aero-engine model combustor using high-speed measurements, 39th International Symposium on Combustion, Vancouver (2022).

Y. Ogata, A. Adbelsamie, J. Yi, A. Cuoci, C. Betrancourt, N. Darabiha, D. Thevenin, B. Franzelli, Numerical simulations of TiO2 synthesis in laboratory-scale flames18th International Conference on Numerical Combustion, San Diego (2022).

J. Yi , C. Betrancourt , N. Darabiha , B. Franzelli, Feasibility of Laser-Induced Incandescence technique on titanium-dioxide nanoparticles, 9th International Workshop on LII, University of Strathclyde (2022).

B. Franzelli, P. Scouflaire, N. Darabiha, Using in situ measurements to characterize TiO2 nanoparticle synthesis in a turbulent isopropyl alcohol flameProceedings of the 10th European Combustion Meeting, Virtual meeting (2021).

J. Yi , C. Betrancourt , N. Darabiha , B. Franzelli, On the feasibility of Laser-Induced Incandescence technique for TiO2 nanoparticles analysis, Proceedings of the 10th European Combustion Meeting, Virtual meeting (2021).

J.M. Orlac’h, N. Darabiha, S. Candel, D. Veynante, B. Franzelli, Numerical investigation of titanium dioxide nanoparticles synthesis in laminar flames, Proceedings of the 10th European Combustion Meeting, Virtual meeting (2021).

B. Franzelli, A. Vié, D. Veynante, A validation strategy for LES subgrid scale modelsProceedings of the 10th European Combustion Meeting, Virtual meeting (2021).

M. Roussillo, P. Scouflaire, N. Darabiha, D. Veynante, S. Candel, B. Franzelli, Investigating the effect of the injector design and ot the operating conditions on soot production in a rich premixed model scale combustor, 5e Colloque du réseau d’initiative en Combustion Avancée (INCA), Virtual meeting (2021).

L. Pereira Tardelli, N. Darabiha, D. Veynante, B. Franzelli, Reconsidering the good practice guidelines for LES of turbulent sooting flames5e Colloque du réseau d’initiative en Combustion Avancée (INCA), Virtual meeting (2021).

A. Bodor, A. Cuoci, J. Yi, B. Betrancourt, N. Darabiha, B. Franzelli, Primary particle diameters in sooting flames: a challenge for LII measurements and for validation of numerical modeling5e Colloque du réseau d’initiative en Combustion Avancée (INCA), Virtual meeting (2021).

L. Pereira Tardelli, N. Darabiha, D. Veynante, B. Franzelli,  Validating soot models in LES of turbulent flames: the contribution of soot subgrid intermittency model to the prediction of soot production in an aero-engine model combustor, ASME Turbo Expo paper GT2021-60296, Virtual meeting (2021).

J.M. Orlac'h, N. Darabiha, D. Veynante, S. Candel, B. Franzelli Numerical study of titania nanoparticle production in 1-D premixed methane/air flames,  17th Conference in Numerical Combustion, Aachen,  Germany (2019).

L. Pereira Tardelli, B. Franzelli, N. Darabiha, D. Veynante Study of the impact of soot sub-grid scales in an aero-engine model combustor,  17th Conference in Numerical Combustion, Aachen,  Germany (2019).

L. Pereira Tardelli, B. Franzelli, P. Rodrigues, N. Darabiha, Impact of the reaction mechanism model on soot growth and oxidation in laminar and turbulent flames,  ASME Turbo Expo paper GT2019-90873, Phoenix, USA (2019).

B. Franzelli, M. Roussillo, P. Scouflaire, J. Bonnety, R. Jalain, T. Dormieux, S. Candel, G. Legros, Multi-diagnostic soot measurements in a laminar diffusion flame to assess the ISF database consistency,  37th International Symposium on Combustion, Dublin, Ireland (2018).

M. Roussillo, P. Scouflaire, S. Candel, B. Franzelli,  Experimental investigation of soot production in a confined swirled flame operating under perfectly premixed rich conditions, 37th International Symposium on Combustion, Dublin, Ireland (2018).

B. Franzelli, A. Vié, N. Darabiha, A three-equation model for the prediction of soot emissions in LES of gas turbines, 37th International Symposium on Combustion, Dublin, Ireland (2018).

M. Roussillo, P. Scouflaire, N. Darabiha, S. Candel, B. Franzelli, A new experimental database for the investigation of soot in a model scale swirled combustor under perfectly premixed conditions, ASME Turbo Expo paper GT2018-76205, Oslo, Norway (2018).

B. Franzelli, E. Riber, B. Cuenot, M. Ihme, Numerical modeling of soot production in aero-engine combustors using large eddy simulations, ASME Turbo Expo paper GT2015-43630, Montreal, Canada (2015).