Dr.  Feichi Zhang

Dr. Feichi Zhang

  • Engler-Bunte-Ring 7
    76131 Karlsruhe

Scientific focus

Research topics

Simulation-added design of high temperature process devices

  • Computational fluid dynamics (LES, DNS, Euler-Lagrange, VoF, CPFD)

  • Numerical simulation of turbulent, chemically reacting flows

  • High temperature processing technology (combustion, pyrolysis, gasification)

  • High performance computing

 

Research projects

 

 

Career and Education

Education
2000 - 2005 Diploma in Mechanical Engineering (Aerospace Engineering) at Dresden University of Technology (TUD), Germany
2006 - 2013 PhD in Chemical and Process Engineering at Karlsruhe Institute of Technology (KIT), Germany
Work experience
2005 - 2006 Scientific staff at Institute of Fluid Machinery, University of Karlsruhe, Germany
2006 - 2022 Scientific staff at Engler-Bunte-Institute/Division for Combustion Technology at KIT, Germany
Since 2022 Senior scientist/group leader at Institute for Technical Chemistry (ITC) at KIT, Germany

 

Publications


2024
Numerical investigation of unsteady flame propagation assisted by low-temperature chemistry
Meier, R.; Zirwes, T.; Zhang, F.; Bockhorn, H.; Oliveira, A. A. M.
2024. Fuel, 364, Art.-Nr.: 130895. doi:10.1016/j.fuel.2024.130895
Assessment of dynamic characteristics of fluidized beds via numerical simulations
Zhang, F.; Tavakkol, S.; Dercho, S.; Zhou, J.; Zirwes, T.; Zeller, M.; Vogt, J.; Zhang, R.; Bockhorn, H.; Stapf, D.
2024. Physics of Fluids, 36 (2), Art.-Nr.: 023348. doi:10.1063/5.0189519
Effects of Intrinsic Instabilities on the Response of Premixed Hydrogen/Air Conical Flames to Inlet Flow Perturbations
Yang, L.; Wang, Y.; Zirwes, T.; Zhang, F.; Bockhorn, H.; Chen, Z.
2024. Flow, Turbulence and Combustion. doi:10.1007/s10494-024-00535-5
2023
Modelling the response of a turbulent jet flame to acoustic forcing in a linearized framework using an active flame approach
Kaiser, T. L.; Varillon, G.; Polifke, W.; Zhang, F.; Zirwes, T.; Bockhorn, H.; Oberleithner, K.
2023. Combustion and Flame, 253, Art.-Nr.: 112778. doi:10.1016/j.combustflame.2023.112778
Impact of carbon dioxide and nitrogen addition on the global structure of hydrogen flames
Eckart, S.; Pio, G.; Zirwes, T.; Zhang, F.; Salzano, E.; Krause, H.; Bockhorn, H.
2023. Fuel, 335, Art.-Nr.: 126929. doi:10.1016/j.fuel.2022.126929
Numerical simulation of thermal decomposition of polyethylene with a single-particle model
Zhang, F.
2023. 14th International Conference on Computational Heat and Mass Transfer (ICCHMT 2023), Düsseldorf, Germany, September 4–8, 2023
Assessment of Numerical Accuracy and Parallel Performance of OpenFOAM and its Reacting Flow Extension EBIdnsFoam
Zirwes, T.; Sontheimer, M.; Zhang, F.; Abdelsamie, A.; Pérez, F. E. H.; Stein, O. T.; Im, H. G.; Kronenburg, A.; Bockhorn, H.
2023. Flow, Turbulence and Combustion, 111 (2), 567–602. doi:10.1007/s10494-023-00449-8
Effect of nozzle up-scaling on coaxial, gas-assisted atomization
Zhang, F.; Wachter, S.; Zirwes, T.; Jakobs, T.; Zarzalis, N.; Trimis, D.; Kolb, T.; Stapf, D.
2023. Physics of Fluids, 35 (4), Art.-Nr.: 043302. doi:10.1063/5.0141156
Numerical simulations of air-assisted primary atomization at different air-to-liquid injection angles
Zhang, F.; Zirwes, T.; Wachter, S.; Jakobs, T.; Habisreuther, P.; Zarzalis, N.; Trimis, D.; Kolb, T.; Bockhorn, H.; Stapf, D.
2023. International journal of multiphase flow, 158, Art.-Nr.: 104304. doi:10.1016/j.ijmultiphaseflow.2022.104304
2022
Correlation of heat loss with quenching distance during transient flame-wall Interaction
Zhang, F.
2022, July. 39th International Symposium on Combustion (2022), Vancouver, Canada, July 24–29, 2022
Effects of low-temperature chemical reactions on ignition kernel development and flame propagation in a DME-air mixing layer
Wang, Y.; Han, W.; Zirwes, T.; Zhang, F.; Bockhorn, H.; Chen, Z.
2022. Proceedings of the Combustion Institute, 39 (2), 1515–1524. doi:10.1016/j.proci.2022.07.024
Numerical Study on Flame Stabilization and NO Formation in a Novel Burner System for Sulfur Combustion
Zhang, F.; Kurjata, M.; Sebbar, N.; Zirwes, T.; Fedoryk, M.; Harth, S.; Wang, R.; Habisreuther, P.; Trimis, D.; Bockhorn, H.
2022. Energy and Fuels, 36 (7), 4094–4106. doi:10.1021/acs.energyfuels.1c04007
Flame structure analysis and composition space modeling of thermodiffusively unstable premixed hydrogen flames. Part II. Elevated pressure
Wen, X.; Zirwes, T.; Scholtissek, A.; Böttler, H.; Zhang, F.; Bockhorn, H.; Hasse, C.
2022. Combustion and Flame, 238, Art.Nr. 111808. doi:10.1016/j.combustflame.2021.111808
Flame structure analysis and composition space modeling of thermodiffusively unstable premixed hydrogen flames. Part I. Atmospheric pressure
Wen, X.; Zirwes, T.; Scholtissek, A.; Böttler, H.; Zhang, F.; Bockhorn, H.; Hasse, C.
2022. Combustion and Flame, 238, Art.Nr. 111815. doi:10.1016/j.combustflame.2021.111815
Resolvent-based modelling of coherent structures in a turbulent jet flame using a passive flame approach
Casel, M.; Oberleithner, K.; Zhang, F.; Zirwes, T.; Bockhorn, H.; Trimis, D.; Kaiser, T. L.
2022. Combustion and Flame, 236, Art.-Nr.: 111695. doi:10.1016/j.combustflame.2021.111695
Memory effects of local flame dynamics in turbulent premixed flames
Zirwes, T.; Zhang, F.; Bockhorn, H.
2022. Proceedings of the Combustion Institute, 39 (2), 2349–2358. doi:10.1016/j.proci.2022.07.187
Correlation of heat loss with quenching distance during transient flame-Wall interaction
Zhang, F.; Zirwes, T.; Häber, T.; Bockhorn, H.; Trimis, D.; Suntz, R.; Stapf, D.
2022. Proceedings of the Combustion Institute, 39 (2), 2037–2045. doi:10.1016/j.proci.2022.10.010
Dynamics of Premixed Hydrogen/Air Flames in Unsteady Flow
Zhang, F.; Zirwes, T.; Wang, Y.; Chen, Z.; Bockhorn, H.; Trimis, D.; Stapf, D.
2022. Physics of Fluids, 34 (8), Art.-Nr.: 085121. doi:10.1063/5.0098883
Turbulent flame-wall interaction of premixed flames using Quadrature-based Moment Methods (QbMM) and tabulated chemistry: An a priori analysis
Steinhausen, M.; Zirwes, T.; Ferraro, F.; Popp, S.; Zhang, F.; Bockhorn, H.; Hasse, C.
2022. International Journal of Heat and Fluid Flow, 93, Art.-Nr.: 108913. doi:10.1016/j.ijheatfluidflow.2021.108913
2021
Simulations of Air-assisted Primary Atomization at Different Air-to-Liquid Injection Angles for Entrained Flow Gasification
Zhang, F.; Zirwes, T.; Wachter, S.; Jakobs, T.; Habisreuther, P.; Zarzalis, N.; Trimis, D.; Kolb, T.; Bockhorn, H.
2021. 30. Deutscher Flammentag, Deutsche Sektion des Combustion Institutes und DVV/VDI-Gesellschaft Energie und Umwelt. Ed.: F. Dinkelacker, 1116–1125
Correction to: Quasi-DNS Dataset of a Piloted Flame with Inhomogeneous Inlet Conditions
Zirwes, T.; Zhang, F.; Habisreuther, P.; Hansinger, M.; Bockhorn, H.; Pfitzner, M.; Trimis, D.
2021. Flow, turbulence and combustion, 107 (2), 517. doi:10.1007/s10494-021-00244-3
Heat Release Rate Markers for Highly Stretched Premixed CH/Air and CH/H/Air Flames
Chen, X.; Wang, Y.; Zirwes, T.; Zhang, F.; Bockhorn, H.; Chen, Z.
2021. Energy & fuels, 35 (16), 13349–13359. doi:10.1021/acs.energyfuels.1c02187
Implementation and Validation of a Computationally Efficient DNS Solver for Reacting Flows in OpenFOAM
Zirwes, T.; Zhang, F.; Habisreuther, P.; Denev, J.; Bockhorn, H.; Trimis, D.
2021. 14th WCCM-ECCOMAS Congress 2020: Collection of papers presented at the 14th edition of the WCCM-ECCOMAS, virtual congress, January, 11-15, 2021. Ed.: F. Chinesta, Scipedia S.L. doi:10.23967/wccm-eccomas.2020.175
DNS of Near Wall Dynamics of Premixed CH/Air Flames
Zhang, F.; Zirwes, T.; Häber, T.; Bockhorn, H.; Trimis, D.; Suntz, R.
2021. 14th WCCM-ECCOMAS Congress 2020: Collection of papers presented at the 14th edition of the WCCM-ECCOMAS, virtual congress, January, 11-15, 2021. Ed.: F. Chinesta, Scipedia S.L. doi:10.23967/wccm-eccomas.2020.123
Hybrid eulerian-lagrangian approach for dense spray simulations
Heidarifatasmi, H.; Zirwes, T.; Zhang, F.; Habisreuther, P.; Trimis, D.
2021. Graph Drawing and Network Visualization: 29th International Symposium, GD 2021, Tübingen, Germany, September 14–17, 2021, Revised Selected Papers. Ed.: H. C. Purchase, 1–12, Scipedia S.L. doi:10.23967/wccm-eccomas.2020.172
Enhancing OpenFOAM’s Performance on HPC Systems
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2021. High Performance Computing in Science and Engineering ’19 – Transactions of the High Performance Computing Center, Stuttgart (HLRS) 2019. Ed.: W. Nagel, 225–239, Springer International Publishing. doi:10.1007/978-3-030-66792-4_16
Numerical database of highly-resolved turbulent flame-wall interaction simulations for model validation
Zirwes, T.; Zhang, F.; Steinhausen, M.; Habisreuther, P.; Bockhorn, H.; Hasse, C.; Trimis, D.
2021. 30. Deutscher Flammentag, Deutsche Sektion des Combustion Institutes und DVV/VDI-Gesellschaft Energie und Umwelt. Ed.: Dinkelacker, Friedrich; Pitsch Heinz; Scherer, Viktor, 1144–1153
DNS of Unsteady Flame-Wall Interaction
Zhang, F.; Zirwes, T.; Häber, T.; Bockhorn, H.; Trimis, D.; Wang, R.; Suntz, R.
2021. 30. Deutscher Flammentag, Deutsche Sektion des Combustion Institutes und DVV/VDI-Gesellschaft Energie und Umwelt. Ed.: F. Dinkelacker, H. Pitsch, V. Scherer, 1106–1115
Implementation and Validation of a Computationally Efficient DNS Solver for Reacting Flows in OpenFOAM
Zirwes, T.; Zhang, F.; Habisreuther, P.; Denev, J. A.; Bockhorn, H.; Trimis, D.
2021. 14th World Congress on Computational Mechanics (WWCM 2020) - 8th European Congress on Computational Methods in Applie Sciences (ECCOMAS 2020) (2021), Online, January 11–15, 2021
DNS of Near Wall Dynamics of Premixed CH4/Air Flames
Zhang, F.; Zirwes, T.; Häber, T.; Bockhorn, H.; Trimis, D.; Suntz, R.
2021. 14th World Congress on Computational Mechanics (WWCM 2020) - 8th European Congress on Computational Methods in Applie Sciences (ECCOMAS 2020) (2021), Online, January 11–15, 2021
Identification of Flame Regimes in Partially Premixed Combustion from a Quasi-DNS Dataset
Zirwes, T.; Zhang, F.; Habisreuther, P.; Hansinger, M.; Bockhorn, H.; Pfitzner, M.; Trimis, D.
2021. Flow, turbulence and combustion, 106 (2), 373–404. doi:10.1007/s10494-020-00228-9
In-situ flame particle tracking based on barycentric coordinates for studying local flame dynamics in pulsating Bunsen flames
Zirwes, T.; Zhang, F.; Wang, Y.; Habisreuther, P.; Denev, J. A.; Chen, Z.; Bockhorn, H.; Trimis, D.
2021. Proceedings of the Combustion Institute, 38 (2), 2057–2066. doi:10.1016/j.proci.2020.07.033
Ignition of dimethyl ether/air mixtures by hot particles: Impact of low temperature chemical reactions
Wang, Y.; Zhang, H.; Zirwes, T.; Zhang, F.; Bockhorn, H.; Chen, Z.
2021. Proceedings of the Combustion Institute, 38 (2), 2459–2466. doi:10.1016/j.proci.2020.06.254
Numerical Study of Quenching Distances for Side-Wall Quenching Using Detailed Diffusion and Chemistry
Zirwes, T.; Häber, T.; Zhang, F.; Kosaka, H.; Dreizler, A.; Steinhausen, M.; Hasse, C.; Stagni, A.; Trimis, D.; Suntz, R.; Bockhorn, H.
2021. Flow, turbulence and combustion, 106, 649–679. doi:10.1007/s10494-020-00215-0
Near Wall Dynamics of Premixed Flames
Zhang, F.; Zirwes, T.; Häber, T.; Bockhorn, H.; Trimis, D.; Suntz, R.
2021. Proceedings of the Combustion Institute, 38 (2), 1955–1964. doi:10.1016/j.proci.2020.06.058
Numerical Computation of Turbulent Flow Fields in a Fan-stirred Combustion Bomb
Zhang, F.; Zirwes, T.; Habisreuther, P.; Zarzalis, N.; Bockhorn, H.; Trimis, D.
2021. Combustion science and technology, 193 (4), 594–610. doi:10.1080/00102202.2019.1665520
2020
Effect of elevated pressure on air-assisted primary atomization of coaxial liquid jets : Basic research for entrained flow gasification
Zhang, F.; Zirwes, T.; Müller, T.; Wachter, S.; Jakobs, T.; Habisreuther, P.; Zarzalis, N.; Trimis, D.; Kolb, T.
2020. Renewable & sustainable energy reviews, 134, Article no: 110411. doi:10.1016/j.rser.2020.110411
Numerical evaluation of a novel double-concentric swirl burner for sulfur combustion
Zhang, F.; Heidarifatasmi, H.; Harth, S.; Zirwes, T.; Wang, R.; Fedoryk, M.; Sebbar, N.; Habisreuther, P.; Trimis, D.; Bockhorn, H.
2020. Renewable & sustainable energy reviews, 133, Art. Nr.: 110257. doi:10.1016/j.rser.2020.110257
The Eulerian Stochastic Fields Method Applied to Large Eddy Simulations of a Piloted Flame with Inhomogeneous Inlet
Hansinger, M.; Zirwes, T.; Zips, J.; Pfitzner, M.; Zhang, F.; Habisreuther, P.; Bockhorn, H.
2020. Flow, turbulence and combustion, 105 (3), 837–867. doi:10.1007/s10494-020-00159-5
Numerical Simulations of Turbulent Flame Propagation in a Fan-Stirred Combustion Bomb and Bunsen-Burner at Elevated Pressure
Zhang, F.; Zirwes, T.; Habisreuther, P.; Zarzalis, N.; Bockhorn, H.; Trimis, D.
2020. Flow, turbulence and combustion, 106, 925–944. doi:10.1007/s10494-020-00209-y
Implementation of Lagrangian Surface Tracking for High Performance Computing
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2020. 23rd High Performance Computing in Science & Engineering - High Performance Computing in Science & Engineering - Results and Review Workshop of the HLRS, 8 - 9 Oktober 2020
Lagrangian Tracking of Material Surfaces in reacting Flows
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2020. The 15th OpenFOAM Workshop
Implementation of an Efficient Synthetic Inflow Turbulence-Generator in the Open-Source Code OpenFOAM for 3D LES/DNS Applications
Galeazzo, F. C. C.; Zhang, F.; Zirwes, T.; Habisreuther, P.; Bockhorn, H.; Zarzalis, N.; Trimis, D.
2020. 23rd High Performance Computing in Science & Engineering - High Performance Computing in Science & Engineering - Results and Review Workshop of the HLRS (2020), Online, October 8–9, 2020
Experimental and numerical investigations of a high-power density sulphur burner
Fedoryk, M.; Zhang, F.; Heidarifatasmi, H.; Sebbar, N.; Harth, S.; Trimis, D.
2020. 12th European Conference on Industrial Furnaces and Boilers (INFUB-12) : 10th and 11th November 2020
Quasi-DNS Dataset of a Piloted Flame with Inhomogeneous Inlet Conditions
Zirwes, T.; Zhang, F.; Habisreuther, P.; Hansinger, M.; Bockhorn, H.; Pfitzner, M.; Trimis, D.
2020. Flow, turbulence and combustion, 104, 997–1027. doi:10.1007/s10494-019-00081-5
2019
Impact of Combustion Modeling on the Spectral Response of Heat Release in LES
Zhang, F.; Zirwes, T.; Habisreuther, P.; Bockhorn, H.; Trimis, D.; Nawroth, H.; Paschereit, C. O.
2019. Combustion science and technology, 191 (9), 1520–1540. doi:10.1080/00102202.2018.1558218
Quasi-DNS of the Partially Premixed Sydney Flame
Zirwes, T.; Zhang, F.; Habisreuter, P.; Bockhorn, H.; Trimis, D.
2019. Simulation of reactive Thermo-Fluid Systems (STFS 2019), Darmstadt, Germany, September 22, 2019
Effect of Transient Flame Stretch
Zirwes, T.; Zhang, F.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2019. Simulation of reactive Thermo-Fluid Systems (STFS 2019), Darmstadt, Germany, September 22, 2019
Numerical Investigation of a Sulfur Combustor
Zhang, F.; Heidarifatasmi, H.; Harth, S.; Zirwes, T.; Fedoryk, M.; Sebbar, N.; Habisreuther, P.; Trimis, D.; Bockhorn, H.
2019. 29. Deutscher Flammentag (2019), Bochum, Germany, September 17–18, 2019
Numerical and Experimental Investigations of Primary Breakup of High-Viscous Fluid at Elevated Pressure [in press]
Zhang, F.; Zirwes, T.; Wachter, S.; Jakobs, T.; Habisreuther, P.; Zarzalis, N.; Dimosthenis, T.; Kolb, T.
2019. 29th European Conference on Liquid Atomization and Spray Systems, Paris, 2-4 Sep 2019
Unsteady pure straining effects on lean premixed flames of different Lewis numbers
Denev, J. A.; Naydenova, I.; Zhang, F.; Zirwes, T.; Bockhorn, H.
2019. 9th European Combustion Meeting (ECM), Lissabon, Portugal, 14 - 17 April 2019
2D and 3D numerical simulation of chemiluminescent radical concentrations during side-wall quenching of premixed methane and propane flames [in press]
Zirwes, T.; Häber, T.; Zhang, F.; Kosaka, H.; Bockhorn, H.; Suntz, R.; Dreizler, A.; Janicka, J.
2019. 9th European Combustion Meeting (ECM), Lissabon, Portugal, 14 - 17 April 2019
Numerical simulation of sulfur combustors with high-power-density [in press]
Zhang, F.; Heidarifatasmi, H.; Zirwes, T.; Fedoryk, M.; Harth, S.; Sebbar, N.; Habisreuther, P.; Trimis, D.; Bockhorn, H.
2019. 9th European Combustion Meeting (ECM), Lissabon, Portugal, 14 - 17 April 2019
Numerical Simulation of Turbulent Flame Propagation in a Fan-Stirred Combustion Bomb at Elevated Pressures [in press]
Zhang, F.; Zirwes, T.; Habisreuther, P.; Zarzalis, N.; Bockhorn, H.; Trimis, D.
2019. 27th International Colloquium on the Dynamics of Explosions and Reactive Systems, Beijing, China, 8th July - 2nd August 2019
Large-Scale Quasi-DNS of Mixed-Mode Turbulent Combustion [in press]
Zirwes, T.; Zhang, F.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2019. 90th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM), Vienna, Austria, February 18-22, 1019. Ed.: J. Eberhardsteiner, TU Verlag
Ignition behaviour of sulfur in air based on modified reaction kinetics [in press]
Zirwes, T.; Sebbar, N.; Habisreuther, P.; Harth, S.; Zhang, F.; Bockhorn, H.; Trimis, D.
2019. 11th Mediterranean Combustion Symposium (MCS11), Tenerife, Spain, 16-20 June 2019
Large-Scale Quasi-DNS of Mixed-Mode Turbulent Combustion
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2019. 90th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM 2019), Vienna, Austria, February 18–22, 2019
2D and 3D numerical simulation of chemiluminescent radical concentrations during side-wall quenching of premixed methane and propane flames
Zirwes, T.; Häber, T.; Zhang, F.; Kosaka, H.; Bockhorn, H.; Suntz, R.; Dreizler, A.; Janicka, J.
2019. 9th European Combustion Meeting (ECM 2019), Lisbon, Portugal, April 14–17, 2019
Numerical simulation of sulfur combustors with high-power-density
Zhang, F.; Heidarifatasmi, H.; Zirwes, T.; Fedoryk, M.; Harth, S.; Sebbar, N.; Habisreuther, P.; Trimis, D.; Bockhorn, H.
2019. 9th European Combustion Meeting (ECM 2019), Lisbon, Portugal, April 14–17, 2019
Unsteady pure straining effects on lean premixed flames of different Lewis numbers
Denev, J. A.; Naydenova, I.; Zhang, F.; Zirwes, T.; Bockhorn, H.
2019. 9th European Combustion Meeting (ECM 2019), Lisbon, Portugal, April 14–17, 2019
Entwicklung von Schwefelbrennern mit hohen Leistungsdichten
Fedoryk, M.; Zhang, F.; Heidarifatasmi, H.; Zirwes, T.; Sebbar, N.; Harth, S.; Trimis, D.
2019. Jahrestreffen der ProcessNet-Fachgruppe "Hochtemperaturtechnik" (2019), Karlsruhe, Germany, April 2–3, 2019
LES of Combustion Noise from a Turbulent Premixed Jet Flame
Zhang, F.; Zirwes, T.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2019. 17th International Conference on Numerical Combustion (2019), Aachen, Germany, May 6–8, 2019
Spectral response of heat release in LES combustion modeling
Zhang, F.; Zirwes, T.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2019. 17th International Conference on Numerical Combustion (2019), Aachen, Germany, May 6–8, 2019
Implementation of Flame Particle Tracking for Studying Laminar and Turbulent Flame Dynamics
Zirwes, T.; Zhang, F.; Habisreuther, P.; Denev, J. A.; Bockhorn, H.; Trimis, D.
2019. 17th International Conference on Numerical Combustion (2019), Aachen, Germany, May 6–8, 2019
Numerical Simulation of Turbulent Flame Propagation in a Fan-Stirred Combustion Bomb at Elevated Pressures
Zhang, F.; Zirwes, T.; Habisreuther, P.; Zarzalis, N.; Bockhorn, H.; Trimis, D.
2019. 27th International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS 2019), Beijing, China, July 28–August 2, 2019
Numerical and Experimental Investigations of Primary Breakup of High-Viscous Fluid at Elevated Pressure
Zhang, F.; Zirwes, T.; Wachter, S.; Jakobs, T.; Habisreuther, P.; Zarzalis, N.; Trimis, D.; Kolb, T.
2019. 29th European Conference Liquid Atomization & Spray Systems (ILASS 2019), Paris, France, September 2–4, 2019
Numerische Untersuchung eines Schwefelverbrennungssystem
Zhang, F.; Heidarifatasmi, H.; Harth, S.; Zirwes, T.; Sebbar, N.; Fedoryk, M.; Trimis, D.
2019. 29. Deutscher Flammentag (2019), Bochum, Germany, September 17–18, 2019
Effect of elevated pressure on primary jet-breakup: Basic research for entrained flow gasification
Zhang, F.; Müller, T.; Zirwes, T.; Wachter, S.; Jakobs, T.; Habisreuther, P.; Zarzalis, N.; Trimis, D.; Kolb, T.
2019. 29. Deutscher Flammentag (2019), Bochum, Germany, September 17–18, 2019
Analysis of Thermoacoustic Sources of Lean Premixed Flames
Pausch, K.; Herff, S.; Zhang, F.; Bockhorn, H.; Schröder, W.
2019. International Workshop on Clean Combustion: Principles and Applications (2019), Darmstadt, Germany, September 25–26, 2019
Identification of Flame Regimes in Partially Premixed Combustion from a Quasi-DNS Dataset [in press]
Zirwes, T.; Zhang, F.; Hansinger, M.; Bockhorn, H.; Pfitzner, M.; Trimis, D.
2019. International Workshop on Clean Combustion: Principles and Applications (2019), Darmstadt, Germany, September 25–26, 2019
Improved Vectorization for Efficient Chemistry Computations in OpenFOAM for Large Scale Combustion Simulations
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2019. High Performance Computing in Science and Engineering ’18 - Transactions of the High Performance Computing Center, Stuttgart (HLRS) 2018. Ed.: W. E. Nagel, 209–224, Springer International Publishing
Numerical and experimental investigation of chemiluminescent radical concentrations during side-wall quenching [in press]
Zirwes, T.; Häber, T.; Zhang, F.; Steinhausen, M.; Kosaka, H.; Bockhorn, H.; Suntz, R.; Hasse, C.; Dreizler, A.
2019. International Workshop on “Clean Combustion: Principles and Applications”, Darmstadt, Germany, September 25 - 26, 2019
Sulfur combustion as closing step in a sulfur based solar-thermal cycle
Sebbar, N.; Harth, S.; Fedoryk, M.; Heidarifatasmi, H.; Zhang, F.; Bozzelli, J. W.; Bockhorn, H.; Trimis, D.
2019. 1st Conference on smart energy carriers (2019), Napoli, Italy, January 21–23, 2019
Noise Sources of Lean Premixed Flames
Pausch, K.; Herff, S.; Zhang, F.; Bockhorn, H.; Schröder, W.
2019. Flow, turbulence and combustion. doi:10.1007/s10494-019-00032-0
Ignition of combustible mixtures by hot particles at varying relative speeds
Zirwes, T.; Zhang, F.; Häber, T.; Bockhorn, H.
2019. Combustion science and technology, 191 (1), 178–195. doi:10.1080/00102202.2018.1435530
2018
Towards reduction of computational cost for large-scale combustion modelling with a multi-regional concept
Zhang, F.; Zirwes, T.; Habisreuther, P.; Bockhorn, H.
2018. Progress in computational fluid dynamics, 18 (6), 333–346. doi:10.1504/PCFD.2018.096616
Automated Code Generation for Maximizing Performance of Detailed Chemistry Calculations in OpenFOAM
Zirwes, T.; Zhang, F.; Habisreuther, P.; Denev, J. A.; Bockhorn, H.
2018. Innovatives Supercomputing in Deutschland, 16 (1), 54–58
Optimized Chemistry and Detailed Transport for Massively Parallel Simulations of Turbulent Combustion with OpenFOAM
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2018. The 13th OpenFOAM Workshop (OFW13), Shanghai, China, June 24-29 2018. Ed.: J. Wang
Optimizing Load Balancing of Reacting Flow Solvers in OpenFOAM for High Performance Computing
Zirwes, T.; Zhang, F.; Habisreuther, P.; Denev, J. A.; Bockhorn, H.; Trimis, D.
2018. 6th ESI OpenFOAM User Conference 2018, Hamburg, 23.-25. Oktober 2018, 1–13, ESI Group
Improved Vectorization for Efficient Chemistry Computations in OpenFOAM for Large Scale Combustion Simulations
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2018. High Performance Computing in Science & Engineering : 21th Results and Review Workshop of the HLRS, Stuttgart, October 4-5, 2018
Spectral response of different combustion models in LES of direct combustion noise
Zhang, F.; Zirwes, T.; Nawroth, H.; Li, N.; Habisreuther, P.; Bockhorn, H.; Trimis, D.; Paschereit, C. O.
2018. Joint Meeting of the German and Italian Sections of the Combustion Institute (2018), Sorrento, Italy, May 23–26, 2018
Large Eddy Simulation of Turbulent Flow in a Fan-stirred Combustion Vessel
Zhang, F.; Zirwes, T.; Habisreuther, P.; Zarzalis, N.; Trimis, D.; Bockhorn, H.
2018. Joint Meeting of the German and Italian Sections of the Combustion Institute (2018), Sorrento, Italy, May 23–26, 2018
Detailed Transport and Performance Optimization for Massively Parallel Simulations of Turbulent Combustion with OpenFOAM
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Trimis, D.
2018. The 13th OpenFOAM Workshop (OFW13), Shanghai, China, June 24-29, 2018. Ed.: J. Wang, 142–145, CMHL
Spectral response of different combustion models in LES of direct combustion noise
Zhang, F.; Zirwes, T.; Nawroth, H.; Li, N.; Habisreuther, P.; Bockhorn, H.; Trimis, D.; Paschereit, C. O.
2018. Joint Meeting German and Italian Sections of the Combustion Institute, 41st Meeting of the Italian Section of The Combustion Institute, Sorrento, I, May 23-26, 2018. Proceedings. Ed.: H. Bockhorn, Article I8, ASICI
Large Eddy Simulation of Turbulent Flow in a Fan-stirred Combustion Vessel
Zhang, F.; Zirwes, T.; Habisreuther, P.; Zarzalis, N.; Trimis, D.; Bockhorn, H.
2018. Joint Meeting German and Italian Sections of the Combustion Institute, 41st Meeting of the Italian Section of The Combustion Institute, Sorrento, I, May 23-26, 2018. Proceedings. Ed.: H. Bockhorn, Article I10, ASICI
Automated Code Generation for Maximizing Performance of Detailed Chemistry Calculations in OpenFOAM
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.
2018. High Performance Computing in Science and Engineering ’ 17 - Transactions of the High Performance Computing Center, Stuttgart (HLRS) 2017. Ed.: W. Nagel, 189–204, Springer Verlag. doi:10.1007/978-3-319-68394-2_11
2017
Response of Local and Global Consumption Speed to Stretch in Laminar Steady-State Flames
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Zarzalis, N.
2017. 8th European Combustion Meeting, Dubrovnik, HR, April 18-21, 2017
Direct numerical simulation of ignition by hot moving particles
Zirwes, T.; Zhang, F.; Häber, T.; Roth, D.; Bockhorn, H.
2017. 26th International Colloquium on the Dynamics of Explosions and Reactive System (ICDERS), Boston, MA, July 30 - August 4, 2017
Einfluss von erhöhtem Druck auf die Änderung der 549 Flammendynamik durch Streckung in vorgemischten Flammen
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Zarzalis, N.
2017. 28. Deutscher Flammentag (2017), Darmstadt, Germany, September 6–7, 2017
Einfluss von erhöhtem Druck auf die Änderung der 549 Flammendynamik durch Streckung in vorgemischten Flammen
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Zarzalis, N.
2017. Verbrennung und Feuerung : 28. Deutscher Flammentag 2017, Darmstadt, Germany, 6th - 7th September 2017, 549–562, VDI Verlag
Direct numerical simulation of ignition by hot moving particles
Zirwes, T.; Zhang, F.; Häber, T.; Roth, D.; Bockhorn, H.
2017. 26th International Colloquium on the Dynamics of Explosions and Reactive System (ICDERS), Boston, MA, July 30 - August 4, 2017. Papers publ.online
Response of Local and Global Consumption Speed to Stretch in Laminar Steady-State Flames
Zirwes, T.; Zhang, F.; Denev, J. A.; Habisreuther, P.; Bockhorn, H.; Zarzalis, N.
2017. Proceedings of the 8th European Combustion Meeting, Dubrovnik, HR, April 18-21, 2017. Ed.: N. Duic
Numerical Simulation of the Ignition of Fuel/Air Gas Mixtures Around Small Hot Particles
Häber, T.; Zirwes, T.; Roth, D.; Zhang, F.; Bockhorn, H.; Maas, U.
2017. Zeitschrift für physikalische Chemie, 231 (10), 1625–1654. doi:10.1515/zpch-2016-0933
Effect of unsteady stretching on the flame local dynamics
Zhang, F.; Zirwes, T.; Habisreuther, P.; Bockhorn, H.
2017. Combustion and flame, 175, 170–179. doi:10.1016/j.combustflame.2016.05.028
Combustion-Generated Noise : An Environment-Related Issue for Future Combustion Systems
Zhang, F.; Zirwes, T.; Nawroth, H.; Habisreuther, P.; Bockhorn, H.; Paschereit, C. O.
2017. Energy technology, 5 (7), 1045–1054. doi:10.1002/ente.201600526
2016
Multi-regional large eddy simulation of turbulent combustion
Zhao, Q.-L.; Zhang, F.-C.; Zhang, L.; Henning, B.; Xu, W.-G.; Liu, L.
2016. Tuijin-jishu, 37 (2), 324–331. doi:10.13675/j.cnki.tjjs.2016.02.017
Impact of infinite thin flame approach on the evaluation of flame speed using spherically expanding flames
Zhang, F.; Baust, T.; Zirwes. Torsten; Denev, J. A.; Habisreuther, P.; Zarzalis, N.; Bockhorn, H.
2016. Energy technology, 5 (7), 1055–1063. doi:10.1002/ente.201600573
2014
Thermoacoustics of a turbulent premixed flame
Geiser, G.; Hosseinzadeh, A.; Nawroth, H.; Zhang, F.; Bockhorn, H.; Habisreuther, P.; Janicka, J.; Paschereit, C. O.; Schroeder, W.
2014. 20th AIAA/CEAS Aeroacoustics Conference 2014 : Atlanta, Georgia, USA, 16 - 20 June 2014; held at the AIAA Aviation Forum 2014, Vol. 1., 745–759, Curran
Direct Numerical Simulation for an Assessment of the Correlation Between Heat Release Rate and Chemiluminescent Species in Turbulent Primixed Flames
Zhang, F.; Bonart, H.; Habisreuther, P.; Bockhorn, H.
2014. Joint meeting of the British and Scandinavian-Nordic Sections of the Combustion Institute, Vol. 7, Cambridge, UK, March 27-28, 2014, 23–24
Numerical Modeling of Noise Generated by Turbulent Combustion. PhD dissertation
Zhang, F.
2014. Shaker Verlag
2013
Impact of Grid Refinement on Turbulent Combustion and Combustion Noise Modeling with Large Eddy Simulation
Zhang, F.; Bonart, H.; Habisreuther, P.; Bockhorn, H.
2013. High performance computing in science and engineering ’13 : transactions of the High Performance Computing Center, Stuttgart (HLRS) 2013. [Konferenz]. Ed.: W. E. Nagel, 259–274, Springer. doi:10.1007/978-3-319-02165-2__19
On Prediction of Combustion Generated Noise with the Turbulent Heat Release Rate
Zhang, F.; Habisreuther, P.; Bockhorn, H.; Nawroth, H.; Paschereit, C. O.
2013. Acta Acustica united with Acustica, 99 (6), 940–951. doi:10.3813/AAA.918673
Direct Numerical Simulations of Turbulent Combustion with OpenFOAM
Zhang, F.; Bonart, H.; Habisreuther, P.; Bockhorn, H.
2013. Verbrennung und Feuerung : 26. Deutscher Flammentag; Duisburg, 11. und 12. September 2013 [Konferenz], 867–872, VDI Verlag
Large Eddy Simulation of DTBP Pool Fires
Zhang, F.; Sebbar, N.; Auzmendi-Murua, I.; Habisreuther, P.; Zhang, L.; Bockhorn, H.
2013. Impulse für die Zukunft der Energie : wissenschaftliche Beiträge des KIT zur 2. Jahrestagung des KIT-Zentrums Energie, Doktorandensymposium, 13.06.2013. Hrsg.: W. Breh, 103–108, KIT Scientific Publishing
On Prediction of Combustion Generated Noise with help of Direct Numerical Simulation [Vortrag]
Zhang, F.; Bonart, H.; Habisreuther, P.; Bockhorn, H.
2013. EUROMECH Colloquium Combustion Dynamics and Combustion Noise, Menaggio, Italy, May 13-16, 2013
Application of the Unified Turbulent Flame-Speed Closure (UTFC) Combustion Model to Numerical Computation of Turbulent Gas Flames
Zhang, F.; Habisreuther, P.; Bockhorn, H.
2013. High Performance Computing in Science and Engineering ’12 Transactions of the High Performance Computing Center, Stuttgart (HLRS) 2012, Part IV. [Konferenz]. Ed.: W. E. Nagel, 187–205, Springer Verlag. doi:10.1007/978-3-642-33374-3_16
Flow Investigation and Acoustic Measurements of an Unconfined Turbulent Premixed Jet Flame
Nawroth, H.; Paschereit, C. O.; Zhang, F.; Habisreuther, P.; Bockhorn, H.
2013. 43rd AIAA Fluid Dynamics Conference and Exhibit, San Diego, California/USA, June 24-27, 2013, 2013–2459. doi:10.2514/6.2013-2459
Application of the UTFC model to numerical simulation of turbulent combustion
Zhang, F.; Habisreuther, P.; Bockhorn, H.
2013. Chancen der Energiewende : wissenschaftliche Beiträge des KIT zur 1. Jahrestagung des KIT-Zentrums Energie, 19.06.2012. Hrsg.: W. Breh, 35–40, KIT Scientific Publishing
2012
Impact of grid refinement on combustion noise prediction
Zhang, F.; Geiser, G.; Habisreuther, P.; Bockhorn, H.; Schröder, W.
2012. Proceedings of the 9th European Fluid Mechanics Conference (EFMC’12), Rome, Italy, September 9-13, 2012
Numerical computation of combustion induced noise using compressible LES and hybrid CFD/CAA methods
Zhang, F.; Habisreuther, P.; Hettel, M.; Bockhorn, H.
2012. Acta Acustica united with Acustica, 98 (1), 120–134. doi:10.3813/AAA.918498
Experimental and Numerical Investigation of a Turbulent Premixed Flame in an Anechoic Environment
Nawroth, H.; Saurabh, A.; Paschereit, C. O.; Zhang, F.; Habisreuther, P.; Bockhorn, H.
2012. Proceedings of the 42nd AIAA Fluid Dynamics Conference and Exhibit, New Orleans/USA, June 25-28, 2012
2011
Numerical simulation of noise emission from a non-premixed flame
Zhang, F.; Habisreuther, P.; Hettel, M.; Bockhorn, H.
2011. Gaswärme international, 2011 (3), 1–6
A newly developed unified TFC combustion model for numerical simulation of turbulent gas flames
Zhang, F.; Habisreuther, P.; Hettel, M.; Bockhorn, H.
2011. 25. Deutscher Flammentag - Verbrennung und Feuerungen - Karlsruhe, 14.-15. September 2011, 177–182, VDI Fachmedien
2010
Application of a Unified TFC Model to Numerical Simulation of a Turbulent Non-Premixed Flame
Zhang, F.; Habisreuther, P.; Hettel, M.; Bockhorn, H.
2010. Proceedings of the 8th International ERCOFTAC Symposium on Engineering Turbulence Modelling and Measurements - ETMM8. Vol. 2, European Research Collaboration on Flow Turbulence and Combustion, ERCOFTAC, June, 9-11, Marseilles, France, 681–686, Marseilles
2009
Measurement and Simulation of Combustion Noise emitted from Swirl Burners
Bender, C.; Zhang, F.; Habisreuther, P.; Büchner, H.; Bockhorn, H.
2009. Combustion Noise. Ed.: A. Schwarz, 33–62, Springer Verlag. doi:10.1007/978-3-642-02038-4_2
Numerical Investigations of the Noise Sources Generated in a Swirl Stabilized Flame
Zhang, F.; Habisreuther, P.; Hettel, M.; Bockhorn, H.
2009. Acta Acustica united with Acustica, 95 (3), 418–427. doi:10.3813/AAA.918166
Modelling of a Premixed Swirl-stabilized Flame Using a Turbulent Flame Speed Closure Model in LES
Zhang, F.; Habisreuther, P.; Hettel, M.; Bockhorn, H.
2009. Flow, Turbulence and Combustion, 82 (4), 537–551. doi:10.1007/s10494-008-9175-x
2008
Numerical investigations of the noise sources generated in a swirl stabilized flame
Zhang, F.; Habisreuther, P.; Hettel, M.; Bockhorn, H.
2008. Fortschritte der Akustik - DAGA 08, 34. Jahrestagung für Akustik, DAGA ’08, 10. - 13. März 2008, Dresden [Konferenz]
LES of reactive flow in a strongly swirling combustor system
Zhang, F.; Habisreuther, P.; Bockhorn, H.
2008. 2nd International Conference on Jets, Wakes and Separated Flows, September 16-19 2008, Berlin