Oliver T. Stein
Oliver T. Stein
Akademischer Oberrat / Lecturer, Institut für Technische Verbrennung, Universität Stuttgart
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Towards comprehensive coal combustion modelling for LES
OT Stein, G Olenik, A Kronenburg, F Cavallo Marincola, BM Franchetti, ...
Flow, turbulence and combustion 90 (4), 859-884, 2013
LES of the Sydney swirl flame series: A study of vortex breakdown in isothermal and reacting flows
O Stein, A Kempf
Proceedings of the Combustion Institute 31 (2), 1755-1763, 2007
Flamelet LES modeling of coal combustion with detailed devolatilization by directly coupled CPD
M Rieth, AG Clements, M Rabaçal, F Proch, OT Stein, AM Kempf
Proceedings of the Combustion Institute 36 (2), 2181-2189, 2017
Large eddy simulations of swirling non-premixed flames with flamelet models: a comparison of numerical methods
A Kempf, W Malalasekera, KKJ Ranga-Dinesh, O Stein
Flow, turbulence and combustion 81 (4), 523-561, 2008
A posteriori testing of algebraic flame surface density models for LES
T Ma, OT Stein, N Chakraborty, AM Kempf
Combustion Theory and Modelling 17 (3), 431-482, 2013
LES of swirl-stabilised pulverised coal combustion in IFRF furnace No. 1
G Olenik, OT Stein, A Kronenburg
Proceedings of the Combustion Institute 35 (3), 2819-2828, 2015
Comparison of the Sigma and Smagorinsky LES models for grid generated turbulence and a channel flow
M Rieth, F Proch, OT Stein, MWA Pettit, AM Kempf
Computers & Fluids 99, 172-181, 2014
Resolved flow simulation of pulverized coal particle devolatilization and ignition in air-and O2/CO2-atmospheres
GL Tufano, OT Stein, A Kronenburg, A Frassoldati, T Faravelli, L Deng, ...
Fuel 186, 285-292, 2016
LES-CMC of a dilute acetone spray flame
S Ukai, A Kronenburg, OT Stein
Proceedings of the Combustion Institute 34 (1), 1643-1650, 2013
Carrier-phase DNS of pulverized coal particle ignition and volatile burning in a turbulent mixing layer
M Rieth, AM Kempf, A Kronenburg, OT Stein
Fuel 212, 364-374, 2018
LES of the Sydney swirl flame series: An initial investigation of the fluid dynamics
O Stein, AM KEMPF*, J Janicka
Combustion science and technology 179 (1-2), 173-189, 2007
LES of lifted flames in a gas turbine model combustor using top-hat filtered PFGM chemistry
C Olbricht, OT Stein, J Janicka, JA Van Oijen, S Wysocki, AM Kempf
Fuel 96, 100-107, 2012
Assessment of mixing time scales for a sparse particle method
S Vo, OT Stein, A Kronenburg, MJ Cleary
Combustion and Flame 179, 280-299, 2017
Large eddy simulation of dilute acetone spray flames using CMC coupled with tabulated chemistry
S Ukai, A Kronenburg, OT Stein
Proceedings of the Combustion Institute 35 (2), 1667-1674, 2015
Large Eddy Simulation of piloted pulverized coal combustion using the velocity-scalar joint filtered density function model
X Wen, H Jin, OT Stein, J Fan, K Luo
Fuel 158, 494-502, 2015
A flamelet/progress variable approach for modeling coal particle ignition
M Vascellari, GL Tufano, OT Stein, A Kronenburg, AM Kempf, ...
Fuel 201, 29-38, 2017
Imaging measurements and LES-CMC modeling of a partially-premixed turbulent dimethyl ether/air jet flame
B Coriton, M Zendehdel, S Ukai, A Kronenburg, OT Stein, SK Im, ...
Proceedings of the Combustion Institute 35 (2), 1251-1258, 2015
A stochastic multiple mapping conditioning computational model in OpenFOAM for turbulent combustion
S Galindo-Lopez, F Salehi, MJ Cleary, AR Masri, G Neuber, OT Stein, ...
Computers & Fluids 172, 410-425, 2018
Fully-resolved simulations of coal particle combustion using a detailed multi-step approach for heterogeneous kinetics
GL Tufano, OT Stein, A Kronenburg, G Gentile, A Stagni, A Frassoldati, ...
Fuel 240, 75-83, 2019
In-nozzle measurements of a turbulent opposed jet using PIV
B Böhm, O Stein, A Kempf, A Dreizler
Flow, turbulence and combustion 85 (1), 73-93, 2010
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