Publications

Xu Wen, Oliver T. Stein, Giovanni Luigi Tufano, Andreas Kronenburg, Arne Scholtissek, und Christian Hasse. Multi-Dimensional and Transient Effects on Flamelet Modeling for Turbulent Pulverized Coal Combustion. Fuel, (255):115772, Elsevier, 2019. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Carmen Straub, Andreas Kronenburg, Oliver T. Stein, Robert S. Barlow, und Dirk Geyer. Modeling stratified flames with and without shear using multiple mapping conditioning. Proceedings of the Combustion Institute, (37)2:2317-2324, Elsevier Science, 2019. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Sanjeev Kumar Ghai, Santanu De, und Andreas Kronenburg. Numerical Simulations of Turbulent Lifted Jet Diffusion Flames in a Vitiated Coflow Using the Stochastic Multiple Mapping Conditioning Approach. Proceedings of the Combustion Institute, (37)2:2199-2206, Elsevier, 2019. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

G. L. Tufano, Oliver Thomas Stein, Bosen Wang, Andreas Kronenburg, M. Rieth, und A. M. Kempf. Coal Particle Volatile Combustion and Flame Interaction : Part I : Characterization of Transient and Group Effects. Renewable Energy, (125):262-269, Elsevier, 2018. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Gregor Neuber, Carlos E. Garcia, Andreas Kronenburg, Benjamin A. O. Williams, Frank Beyrau, Oliver T. Stein, und Matthew J. Cleary. Joint experimental and numerical study of silica particulate synthesis in a turbulent reacting jet. Proceedings of the Combustion Institute, (37)1:1213-1220, Elsevier, 2019. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Martin Rieth, Andreas M. Kempf, Oliver T. Stein, Andreas Kronenburg, Christian Hasse, und Michele Vascellari. Evaluation of a flamelet/progress variable approach for pulverized coal combustion in a turbulent mixing layer. Proceedings of the Combustion Institute, (37)3:2927-2934, Elsevier, 2019. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Gregor Neuber, Andreas Kronenburg, Oliver T. Stein, Carlos E. Garcia, Benjamin A. O. Williams, Frank Beyrau, und Matthew J. Cleary. Sparse-Lagrangian PDF Modelling of Silica Synthesis from Silane Jets in Vitiated Co-flows with Varying Inflow Conditions. Flow, Turbulence and Combustion, (106):1167-1194, Springer, 2020. [PUMA: unibibliografie ubs_10004 oa ubs_20004 ubs_30049 ubs_40358 wos]

Jan Wilhelm Gärtner, Andreas Kronenburg, Andreas Rees, Joachim Sender, Michael Oschwald, und Grazia Lamanna. Numerical and experimental analysis of flashing cryogenic nitrogen. International Journal of Multiphase Flow, (130):103360, Pergamon Press, 2020. [PUMA: ubs_30098 unibibliografie ubs_10004 ubs_10006 ubs_20004 ubs_30049 ubs_40358 wos mult ubs_20010 ubs_40153]

Fabio J. W. A. Martins, Jonas Kirchmann, Andreas Kronenburg, und Frank Beyrau. Experimental investigation of axisymmetric, turbulent, annular jets discharged through the nozzle of the SPP1980 SpraySyn burner under isothermal and reacting conditions. Experimental Thermal and Fluid Science, (114):110052, Elsevier, 2020. [PUMA: unibibliografie ubs_10004 oa ubs_20004 ubs_30049 ubs_40358 wos]

Carmen Straub, Andreas Kronenburg, Oliver Thomas Stein, S. Galindo-Lopez, und M. J. Cleary. Mixing Time Scale Models for Multiple Mapping Conditioning with Two Reference Variables. Flow, turbulence and combustion, (106)4:1143-1166, Springer, 2021. [PUMA: unibibliografie ubs_10004 oa ubs_20004 ubs_30049 ubs_40358 wos]

Ali Shamooni Pour Dezfouli, Paulo Debiagi, Bosen Wang, Tien Duc Luu, Oliver Thomas Stein, Andreas Kronenburg, Ghobad Bagheri, Alessandro Stagni, Alessio Frassoldati, Tiziano Faravelli, Andreas M. Kempf, Xu Wen, und Christian Hasse. Carrier-phase DNS of detailed NOx formation in early-stage pulverized coal combustion with fuel-bound nitrogen. Fuel, (291):119998, Elsevier, 2021. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

M. Sontheimer, Andreas Kronenburg, und Oliver Thomas Stein. A comparative study of two-phase coupling models for a sparse-Lagrangian particle method. Proceedings of the Combustion Institute, (39)2:2643-2652, Elsevier, 2023. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

G. Inci, Andreas Kronenburg, Rudolf Weeber, und Dirk Pflüger. Langevin Dynamics Simulation of Transport and Aggregation of Soot Nano-particles in Turbulent Flows. Flow turbulence and combustion, (98)4:1065-1085, Springer, 2017. [PUMA: ubs_20014 ubs_20004 unibibliografie ubs_10004 ubs_10008 ubs_40349 ubs_30136 ubs_30049 ubs_40358 ubs_40216 ubs_10005 ubs_20008 wos ubs_30082 mult]

Songbai Yao, Andreas Kronenburg, und Oliver Thomas Stein. Efficient modeling of the filtered density function in turbulent sprays using ensemble learning. Combustion and flame, (237)March:111722, Elsevier, 2022. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

S. Yao, Andreas Kronenburg, Ali Shamooni Pour Dezfouli, Oliver Thomas Stein, und W. Zhang. Gradient boosted decision trees for combustion chemistry integration. Applications in energy and combustion science, (11)September:100077, Elsevier, 2022. [PUMA: unibibliografie ubs_10004 oa ubs_20004 ubs_30049 ubs_40358 wos]

F. Salehi, M. J. Cleary, A. R. Masri, und Andreas Kronenburg. PDF-PBE modelling of polydisperse inertial particles in a turbulent recirculating flow. International Journal of Multiphase Flow, (117):42-52, Elsevier, 2019. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

B. Wang, Andreas Kronenburg, Dirk Dietzel, und Oliver Thomas Stein. Assessment of scaling laws for mixing fields in inter-droplet space. Proceedings of the Combustion Institute, (36)2:2451-2458, Elsevier, 2017. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Son Vo, Andreas Kronenburg, Oliver Thomas Stein, und Matthew J. Cleary. MMC-LES of a Syngas Mixing Layer Using an Anisotropic Mixing Time Scale Model. Combustion and Flame, (189):311-314, Elsevier, 2018. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Longfei Zhao, Matthew J. Cleary, Oliver T. Stein, und Andreas Kronenburg. A two-phase MMC-LES model for pyrolysing solid particles in a turbulent flame. Combustion and Flame, (209):322-336, Elsevier Science, 2019. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Nazmul Khan, Matthew J. Cleary, Oliver Thomas Stein, und Andreas Kronenburg. A two-phase MMC-LES model for turbulent spray flames. Combustion and Flame, (193):424-439, Elsevier, 2018. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Jiarui Zhang, Oliver Thomas Stein, Tien Duc Luu, Ali Shamooni Pour Dezfouli, Zhixun Xia, Zhenbing Luo, Likun Ma, Yunchao Feng, und Andreas Kronenburg. Detailed modeling of aluminum particle combustion : From single particles to cloud combustion in Bunsen flames. Chinese journal of aeronautics, (35)5:319-332, Elsevier, 2022. [PUMA: unibibliografie ubs_10004 oa ubs_20004 ubs_30049 ubs_40358 wos]

Jiarui Zhang, Zhixun Xia, Oliver T. Stein, Likun Ma, Fei Li, Yunchao Feng, Zihao Zhang, und Andreas Kronenburg. Combustion characteristics of aluminum particle jet flames in a hot co-flow. The chemical engineering journal, (442)1:135876, Elsevier, 2022. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Maximilian Karsch, Andreas Kronenburg, und Oliver T. Stein. Coagulation rate coefficients for fractal-like agglomerates in the diffusive and ballistic limits. Chemical engineering research and design, (187)November:611-622, Elsevier, 2022. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Songbai Yao, Bosen Wang, Andreas Kronenburg, und Oliver Thomas Stein. Conditional scalar dissipation rate modeling for turbulent spray flames using artificial neural networks. Proceedings of the Combustion Institute, (38)2:3371-3378, Elsevier, 2021. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Dominik Meller, Timo Lipkowicz, Martin Rieth, Oliver Thomas Stein, Andreas Kronenburg, Christian Hasse, und Andreas M. Kempf. Numerical Analysis of a Turbulent Pulverized Coal Flame Using a Flamelet/Progress Variable Approach and Modeling Experimental Artifacts. Energy & fuels, (35)9:7133-7143, American Chemical Society, 2021. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Weijia Qian, Andreas Kronenburg, Xin Hui, Yuzhen Lin, und Maximilian Karsch. Effects of agglomerate characteristics on their collision kernels in the free molecular regime. Journal of aerosol science, (159)January:105868, Elsevier, 2022. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Daniel D. Loureiro, Jonathan Reutzsch, Andreas Kronenburg, Bernhard Weigand, und Konstantina Vogiatzaki. Primary breakup regimes for cryogenic flash atomization. International journal of multiphase flow, (132)November:103405, Elsevier, 2020. [PUMA: ubs_30098 unibibliografie ubs_10004 oa ubs_10006 ubs_20004 ubs_30049 ubs_40358 wos mult ubs_20010 ubs_40153]

Ali Shamooni, Oliver T. Stein, Andreas Kronenburg, Andreas M. Kempf, Paulo Debiagi, Tao Li, Andreas Dreizler, Benjamin Boehm, und Christian Hasse. Fully-resolved simulations of volatile combustion and NO X formation from single coal particles in recycled flue gas environments. Proceedings of the Combustion Institute, (39)4:4529-4539, Elsevier, 2023. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Jonas Kirchmann, F. J. W. A. Martins, Andreas Kronenburg, A. Kumar, und F. Beyrau. Investigation of elastic light scattering in flame spray pyrolysis modelled by a stochastic particle approach. Proceedings of the Combustion Institute, (39)1:1039-1048, Elsevier, 2023. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Maximilian Karsch, und Andreas Kronenburg. Modelling nanoparticle agglomeration in the transition regime : A comparison between detailed Langevin Dynamics and population balance calculations. Journal of aerosol science, (173)September:106228, Elsevier, 2023. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Jan Wilhelm Gärtner, Andreas Kronenburg, Andreas Rees, und Michael Oschwald. Investigating 3-D Effects on Flashing Cryogenic Jets with Highly Resolved LES. Flow, turbulence and combustion, (111)4:1175-1192, Springer, 2023. [PUMA: f2023 unibibliografie ubs_10004 oa hybrid transform ubs_20004 ubs_30049 ubs_40358 oafonds wos]

Emeric Boigné, Thorsten Zirwes, Dilworth Y. Parkinson, Guillaume Vignat, Priyanka Muhunthan, Harold S. Barnard, Alastair A. MacDowell, und Matthias Ihme. Integrated experimental and computational analysis of porous media combustion by combining gas-phase synchrotron μCT, IR-imaging, and pore-resolved simulations. Combustion and flame, (259)January:113132, Elsevier, 2024. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Carmen Straub, Andreas Kronenburg, Oliver Thomas Stein, Guido Kuenne, Johannes Janicka, Robert S. Barlow, und Dirk Geyer. Multiple mapping conditioning coupled with an artificially thickened flame model for turbulent premixed combustion. Combustion and Flame, (196):325-336, Elsevier, 2018. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Bosen Wang, Andreas Kronenburg, Giovanni L. Tufano, und Oliver Thomas Stein. Fully Resolved DNS of Droplet Array Combustion in Turbulent Convective Flows and Modelling for Mixing Fields in Inter-Droplet Space. Combustion and Flame, (189):347-366, Elsevier, 2018. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Sebastian Galindo-Lopez, Fatemeh Salehi, Matthew Cleary, Assaad Masri, Gregor Neuber, Oliver T. Stein, Andreas Kronenburg, Achinta Varna, Evatt Hawkes, Brruntha Sundaram, Alexander Klimenko, und Yipeng Ge. A stochastic multiple mapping conditioning computational model in OpenFOAM for turbulent combustion. Computers & fluids, (172):410-425, Elsevier, 2018. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Gregor Neuber, Andreas Kronenburg, Oliver Thomas Stein, und M. J. Cleary. MMC-LES modelling of droplet nucleation and growth in turbulent jets. Chemical engineering science, (167):204-218, Elsevier, 2017. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

D. Dietzel, T. Hitz, Claus-Dieter Munz, und Andreas Kronenburg. Numerical simulation of the growth and interaction of vapour bubbles in superheated liquid jets. International Journal of Multiphase Flow, (121):103112, Elsevier, 2019. [PUMA: unibibliografie ubs_10004 ubs_10006 ubs_20004 ubs_30049 ubs_40358 ubs_40137 ubs_30091 wos mult ubs_20010]

Gizem Inci, Axel Arnold, Andreas Kronenburg, und Rudolf Weeber. Modelling nano-particle agglomeration using local interactions. Aerosol Science and Technology, (48)8:842-852, Taylor & Francis, 2014. [PUMA: unibibliografie ubs_10004 ubs_20014 sent ubs_10008 ubs_30136 ubs_20004 ubs_30049 ubs_40358 ubs_40216 mult]

Jiarui Zhang, Zhixun Xia, Likun Ma, Oliver T. Stein, Yunchao Feng, Tien Duc Luu, und Andreas Kronenburg. Sensitivity of flame structure and flame speed in numerical simulations of laminar aluminum dust counterflow flames. Combustion and flame, (245)November:112363, Elsevier, 2022. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Nadezhda Iaroslavtceva, Andreas Kronenburg, und Oliver T. Stein. Multiple Mapping Conditioning Mixing Time Scales for Turbulent Premixed Flames. Flow, turbulence and combustion, (110)2:395-415, Springer, 2023. [PUMA: unibibliografie ubs_10004 oa ubs_20004 ubs_30049 ubs_40358 wos]

Prashant Shrotriya, Robert Schießl, Chunkan Yu, Viatcheslav Bykov, Thorsten Zirwes, und Ulrich Maas. An iterative methodology for REDIM reduced chemistry generation and its validation for partially-premixed combustion. Combustion theory and modelling, (28)1:65-98, Taylor & Francis, 2023. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Thorsten Zirwes, Guillaume Vignat, Edna R. Toro, Emeric Boigné, Khaled Younes, Dimosthenis Trimis, und Matthias Ihme. Improving volume-averaged simulations of matrix-stabilized combustion through direct X-ray µCT characterization : Application to NH3/H2-air combustion. Combustion and flame, (257)2:113020, Elsevier, 2023. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Xu Wen, Ali Shamooni Pour Dezfouli, Hendrik Nicolai, Oliver T. Stein, Andreas Kronenburg, Andreas M. Kempf, und Christian Hasse. Flame structure analysis and flamelet modeling of turbulent pulverized solid fuel combustion with flue gas recirculation. Proceedings of the Combustion Institute, (39)3:3409-3418, Elsevier, 2023. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Abhijeet Kumar, Jonas Kirchmann, Frank Beyrau, und Andreas Kronenburg. Jet flapping and its effect on flame oscillations in the SPP1980 SpraySyn burner. Experimental thermal and fluid science, (142):110826, Elsevier, 2023. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Xu Wen, Martin Rieth, Arne Scholtissek, Oliver T. Stein, Haiou Wang, Kun Luo, Andreas M. Kempf, Andreas Kronenburg, Jianren Fan, und Christian Hasse. A comprehensive study of flamelet tabulation methods for pulverized coal combustion in a turbulent mixing layer - Part I : A priori and budget analyses. Combustion and Flame, (216):439-452, Elsevier Science, 2020. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

B. Wang, Andreas Kronenburg, und Oliver Thomas Stein. Modelling Sub-Grid Passive Scalar Statistics in Moderately Dense Evaporating Sprays. Flow Turbulence and Combustion, (103)2:519-535, Springer, 2019. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Bosen Wang, Ali Shamooni Pour Dezfouli, Oliver Thomas Stein, Andreas Kronenburg, Andreas M. Kempf, Paulo Debiagi, und Christian Hasse. Investigation of Turbulent Pulverized Solid Fuel Combustion with Detailed Homogeneous and Heterogeneous Kinetics. Energy & fuels, (35)9:7077-7091, American Chemical Society, 2021. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Jonas Kirchmann, Andreas Kronenburg, Oliver Thomas Stein, und M. J. Cleary. Two-phase sparse-Lagrangian MMC-LES of dilute ethanol spray flames. Proceedings of the Combustion Institute, (38)2:3343-3350, Elsevier, 2021. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Marvin Sontheimer, Andreas Kronenburg, und Oliver Thomas Stein. Grid dependence of evaporation rates in Euler-Lagrange simulations of dilute sprays. Combustion and flame, (232)October:111515, Elsevier Science, 2021. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]

Fabio J. W. A. Martins, Andreas Kronenburg, und Frank Beyrau. Single-shot two-dimensional multi-angle light scattering (2D-MALS) technique for nanoparticle aggregate sizing. Applied physics. B, Lasers and optics, (127)4:51, Springer Nature, 2021. [PUMA: unibibliografie ubs_10004 ubs_20004 ubs_30049 ubs_40358 wos]