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publications
A large-eddy simulation study on the influence of diesel pilot spray quantity on methane-air flame initiation
Published in Combustion and Flame, 2019
LES study on how diesel pilot spray quantity affects methane-air flame initiation.
Recommended citation: H. Kahila, O. Kaario, Z. Ahmad, M. Ghaderi Masouleh, B. Tekgül, M. Larmi, V. Vuorinen. (2019). "A large-eddy simulation study on the influence of diesel pilot spray quantity on methane-air flame initiation." Combustion and Flame.
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Large-eddy simulation of ECN Spray A: sensitivity study on modeling assumptions
Published in Energies, 2020
Sensitivity analysis of LES assumptions on n-dodecane ECN Spray A simulations.
Recommended citation: M. Gadalla, J. Kannan, B. Tekgül, S. Karimkashi, O. Kaario, V. Vuorinen. (2020). "Large-eddy simulation of ECN Spray A: sensitivity study on modeling assumptions." Energies.
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Large eddy simulation of diesel spray–assisted dual-fuel ignition: A comparative study on two n-dodecane mechanisms at different ambient temperatures
Published in International Journal of Engine Research, 2020
Comparative LES study of two n-dodecane mechanisms for dual-fuel ignition at different ambient temperatures.
Recommended citation: J. Kannan, M. Gadalla, B. Tekgül, S. Karimkashi, O. Kaario, V. Vuorinen. (2020). "Large eddy simulation of diesel spray–assisted dual-fuel ignition: A comparative study on two n-dodecane mechanisms at different ambient temperatures." International Journal of Engine Research.
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Large-eddy simulation of dual-fuel spray ignition at different ambient temperatures
Published in Combustion and Flame, 2020
LES study of n-dodecane spray ignition in methane-air mixtures under varying ambient temperatures.
Recommended citation: B. Tekgül, H. Kahila, O. Kaario, V. Vuorinen. (2020). "Large-eddy simulation of dual-fuel spray ignition at different ambient temperatures." Combustion and Flame.
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Large-eddy simulation of tri-fuel ignition: diesel spray-assisted ignition of lean hydrogen–methane–air mixtures
Published in Combustion Theory and Modelling, 2021
3D LES of diesel spray-assisted ignition of lean hydrogen-methane-air mixtures in tri-fuel engines.
Recommended citation: J. Kannan, M. Gadalla, B. Tekgül, S. Karimkashi, O. Kaario, V. Vuorinen. (2021). "Large-eddy simulation of tri-fuel ignition: diesel spray-assisted ignition of lean hydrogen–methane–air mixtures." Combustion Theory and Modelling.
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DLBFoam: An open-source dynamic load balancing model for fast reacting flow simulations in OpenFOAM
Published in Computer Physics Communications, 2021
Open-source dynamic load balancing library for fast reactive flow simulations in OpenFOAM, achieving up to 10x speed-up.
Recommended citation: B. Tekgül, P. Peltonen, H. Kahila, O. Kaario, V. Vuorinen. (2021). "DLBFoam: An open-source dynamic load balancing model for fast reacting flow simulations in OpenFOAM." Computer Physics Communications.
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A numerical performance study of a fixed-bed reactor for methanol synthesis by CO2 hydrogenation
Published in International Journal of Hydrogen Energy, 2021
Numerical simulation of CO2 hydrogenation in a fixed-bed reactor for methanol production.
Recommended citation: D. Izbassarov, J. Nyari, B. Tekgül, E. Laurila, T. Kallio, A. Santasalo-Aarnio, O. Kaario, V. Vuorinen. (2021). "A numerical performance study of a fixed-bed reactor for methanol synthesis by CO2 hydrogenation." International Journal of Hydrogen Energy.
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Large-eddy simulation of tri-fuel combustion: Diesel spray assisted ignition of methanol-hydrogen blends
Published in International Journal of Hydrogen Energy, 2021
LES study on diesel spray-assisted ignition of methanol-hydrogen blends for tri-fuel combustion.
Recommended citation: M. Gadalla, J. Kannan, B. Tekgül, S. Karimkashi, O. Kaario, V. Vuorinen. (2021). "Large-eddy simulation of tri-fuel combustion: Diesel spray assisted ignition of methanol-hydrogen blends." International Journal of Hydrogen Energy.
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Large-eddy simulation of spray assisted dual-fuel ignition under reactivity-controlled dynamic conditions
Published in Fuel, 2021
LES of diesel spray-assisted ignition of methane-air mixtures under dynamic, reactivity-controlled conditions.
Recommended citation: B. Tekgül, H. Kahila, S. Karimkashi, Z. Ahmad, O. Kaario, E. Lendormy, J. Hyvönen, V. Vuorinen. (2021). "Large-eddy simulation of spray assisted dual-fuel ignition under reactivity-controlled dynamic conditions." Fuel.
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Numerical studies for diesel spray assisted methane ignition at low temperature conditions
Published in Doctoral Dissertation, 2021
PhD dissertation investigating diesel spray assisted methane ignition using CFD and finite-rate chemistry.
Recommended citation: B. Tekgül. (2020). "Numerical studies for diesel spray assisted methane ignition at low temperature conditions." Doctoral Dissertation.
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Large-eddy simulation of split injection strategies in RCCI conditions
Published in Combustion Theory and Modelling, 2022
Investigates effects of different split injection strategies on ignition delay and heat release in RCCI conditions using LES.
Recommended citation: B. Tekgül, S. Karimkashi, O. Kaario, H. Kahila, É. Lendormy, J. Hyvönen, V. Vuorinen. (2022). "Large-eddy simulation of split injection strategies in RCCI conditions." Combustion Theory and Modelling.
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Large-eddy simulation of diesel pilot spray ignition in lean methane-air and methanol-air mixtures at different ambient temperatures
Published in International Journal of Engine Research, 2022
LES study of diesel pilot spray ignition in lean methane and methanol mixtures across different ambient temperatures.
Recommended citation: S. Karimkashi, M. Gadalla, J. Kannan, B. Tekgül, O. Kaario, V. Vuorinen. (2022). "Large-eddy simulation of diesel pilot spray ignition in lean methane-air and methanol-air mixtures at different ambient temperatures." International Journal of Engine Research.
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Fast reactive flow simulations using analytical Jacobian and dynamic load balancing in OpenFOAM
Published in Physics of Fluids, 2022
Open-source approach to accelerate reactive flow CFD simulations using analytical Jacobians and dynamic load balancing in OpenFOAM.
Recommended citation: I. Morev, B. Tekgül, M. Gadalla, A. Shahanaghi, J. Kannan, S. Karimkashi, O. Kaario, V. Vuorinen. (2022). "Fast reactive flow simulations using analytical Jacobian and dynamic load balancing in OpenFOAM." Physics of Fluids.
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Design optimization of an ethanol heavy-duty engine using Design of Experiments and Bayesian Optimization
Published in ASME Internal Combustion Engine Division Fall Technical Conference, 2022
This study explores optimizing a heavy-duty ethanol-fueled engine to maximize thermal efficiency using CFD, Design of Experiments, and Bayesian Optimization.
Recommended citation: B. Tekgül, I. Liu, M. Vittal, R. Schanz, J. Blumreiter, B. Johnson, G. Magnotti. (2022). "Design optimization of an ethanol heavy-duty engine using Design of Experiments and Bayesian Optimization." ASME Internal Combustion Engine Division Fall Technical Conference.
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Simulation and validation of an internal combustion engine under motored condition using OpenFOAM
Published in Aalto University, 2023
CFD simulation and validation of an internal combustion engine under motored conditions using OpenFOAM.
Recommended citation: B. Shrestha. (2023). "Simulation and validation of an internal combustion engine under motored condition using OpenFOAM." Aalto University.
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Bayesian optimization of in-situ adaptive tabulation for marine engine CFD simulations
Published in Aalto University, 2024
Optimization of In-situ Adaptive Tabulation (ISAT) parameters in marine diesel engine CFD simulations using Bayesian methods.
Recommended citation: D. Virokannas. (2024). "Bayesian optimization of in-situ adaptive tabulation for marine engine CFD simulations." Aalto University.
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Modelling and validation of an industrial optical spray combustion chamber using OpenFOAM
Published in Aalto University, 2024
Numerical modeling and validation of an industrial optical spray combustion chamber using OpenFOAM, including sensitivities in injection and turbulence modeling.
Recommended citation: J. Alopaeus. (2024). "Modelling and validation of an industrial optical spray combustion chamber using OpenFOAM." Aalto University.
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talks
Premixed combustion analysis using XiFoam
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LES analysis of ambient temperature effect on diesel spray ignition in methane-air mixtures
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A dynamic load balancing model with analytical Jacobian for fast combustion simulations in OpenFOAM
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A load balanced chemistry model with analytical Jacobian for faster reactive simulations in OpenFOAM
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AATE: Advanced Analysis Tool for Engines
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Bayesian optimization of in-situ adaptive tabulation for marine diesel engine CFD simulations
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teaching
Lecturer
University, Aalto University, School of Engineering, 2018
- 2018/2019 - 2020/2021: Numerical Modeling of Multiphase Flows (MSc), Aalto University
Teaching Assistant
University, Aalto University, School of Engineering, 2018
- 2018/2019 - 2020/2021: Computational Fluid Dynamics (MSc), Aalto University
- 2018/2019: Heat Transfer (MSc), Aalto University