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Shamooni, A. ; Debiagi, P. ; Wang, B. ; Luu, T. D. ; Stein, O. T. ; Kronenburg, A. ; Bagheri, G. ; Stagni, A. ; Frassoldati, A. ; Faravelli, T. ; Kempf, A. M. ; Wen, X. ; Hasse, C. (2021)
Carrier-phase DNS of detailed NOx formation in early-stage pulverized coal combustion with fuel-bound nitrogen.
In: Fuel, 291
doi: 10.1016/j.fuel.2020.119998
Article, Bibliographie
Meller, D. ; Lipkowicz, T. ; Rieth, M. ; Stein, O. T. ; Kronenburg, A. ; Hasse, C. ; Kempf, A. M. (2021)
Numerical Analysis of a Turbulent Pulverized Coal Flame Using a Flamelet/Progress Variable Approach and Modeling Experimental Artifacts.
In: Energy & Fuels, 35 (9)
doi: 10.1021/acs.energyfuels.0c03477
Article, Bibliographie
Wang, B. ; Shamooni, A. ; Stein, Oliver T. ; Kronenburg, A. ; Kempf, A. M. ; Debiagi, P. ; Hasse, C. (2021)
Investigation of Turbulent Pulverized Solid Fuel Combustion with Detailed Homogeneous and Heterogeneous Kinetics.
In: Energy & Fuels, 35 (9)
doi: 10.1021/acs.energyfuels.0c03479
Article, Bibliographie
Wen, X. ; Shamooni, A. ; Stein, O. T. ; Cai, L. ; Kronenburg, A. ; Pitsch, H. ; Kempf, A. M. ; Hasse, C. (2021)
Detailed analysis of early-stage NOx formation in turbulent pulverized coal combustion with fuel-bound nitrogen.
In: Proceedings of the Combustion Institute, 38 (3)
doi: 10.1016/j.proci.2020.06.317
Article, Bibliographie
Wen, X. ; Stein, O. T. ; Debiagi, P. ; Scholtissek, A. ; Kronenburg, Andreas ; Kempf, A. M. ; Hasse, C. (2019)
Detailed simulations for flamelet modelling of SOx formation from coal.
90th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM). Fortezza da Basso
doi: 10.1002/pamm.201900367
Conference or Workshop Item, Bibliographie
Wen, X. ; Rieth, M. ; Scholtissek, A. ; Stein, O. T. ; Wang, H. ; Luo, K. ; Kempf, A. M. ; Kronenburg, A. ; Fan, J. ; Hasse, C. (2019)
A comprehensive study of flamelet tabulation methods for pulverized coal combustion in a turbulent mixing layer — Part I: A priori and budget analyses.
In: Combustion and Flame
doi: 10.1016/j.combustflame.2019.05.046
Article, Bibliographie
Wen, X. ; Debiagi, P. ; Stein, O. T. ; Kronenburg, A. ; Kempf, A. M. ; Hasse, C. (2019)
Flamelet tabulation methods for solid fuel combustion with fuel-bound nitrogen.
In: Combustion and Flame, 209
doi: 10.1016/j.combustflame.2019.07.039
Article, Bibliographie
Vascellari, M. ; Tufano, G. L. ; Stein, O. T. ; Kronenburg, A. ; Kempf, A. M. ; Scholtissek, A. ; Hasse, C. (2017)
A flamelet/progress variable approach for modeling coal particle ignition.
In: Fuel, 201
doi: 10.1016/j.fuel.2016.09.005
Article, Bibliographie
Tufano, G. L. ; Stein, O. T. ; Kronenburg, A. ; Frassoldati, A. ; Faravelli, T. ; Deng, L. ; Kempf, A. M. ; Vascellari, M. ; Hasse, C. (2016)
Resolved flow simulation of pulverized coal particle devolatilization and ignition in air- and O2/CO2-atmospheres.
In: Fuel, 186
doi: 10.1016/j.fuel.2016.08.073
Article, Bibliographie
Rabaccal, M. ; Franchetti, B. M. ; Marincola, F. C. ; Proch, F. ; Costa, M. ; Hasse, C. ; Kempf, A. M. (2015)
Large Eddy Simulation of coal combustion in a large-scale laboratory furnace.
In: Proceedings of the Combustion Institute, 35
doi: 10.1016/j.proci.2014.06.023
Article, Bibliographie
Stein, O. T. ; Olenik, G. ; Kronenburg, A. ; Marincola, F. C. ; Franchetti, B. M. ; Kempf, A. M. ; Ghiani, M. ; Vascellari, M. ; Hasse, C. (2013)
Towards comprehensive coal combustion modelling for LES.
In: Flow, Turbulence and Combustion, 90
doi: 10.1007/s10494-012-9423-y
Article, Bibliographie
Olbricht, C. ; Stein, O. T. ; Janicka, J. ; Oijen, J. A. van ; Wysocki, S. ; Kempf, A. M. (2012)
LES of lifted flames in a gas turbine model combustor using top-hat filtered PFGM chemistry.
In: Fuel, 96
Article, Bibliographie
Stein, O. T. ; Böhm, B. ; Dreizler, A. ; Kempf, A. M. (2010)
Highly-resolved LES and PIV Analysis of Isothermal Turbulent Opposed Jets for Combustion Applications.
In: Flow, Turbulence and Combustion, 87
doi: 10.1007/s10494-010-9310-3
Article, Bibliographie
Stein, O. ; Freitag, M. ; Flemming, F. ; Kempf, A. M. (2007)
Lean Premixed Combustion in Turbulent Opposed Nozzle Flows: Algebraic Modelling of the Flame Surface Density for Large Eddy Simulation.
Conference or Workshop Item, Bibliographie