Publications from the Cryogenics Fluid Dynamics Lab, Department of Engineering Science, University of Oxford,
Selected Publications
Publications
Scientific machine learning based framework to forecast time evolving pressure signals during hydrogen leaks
Tretola G, Weissenbacher M & Vogiatzaki K (2025), International Journal of Hydrogen Energy, 172, 150951-150951
BibTeX
@article{scientificmachi-2025/9,
title={Scientific machine learning based framework to forecast time evolving pressure signals during hydrogen leaks},
author={Tretola G, Weissenbacher M & Vogiatzaki K},
journal={International Journal of Hydrogen Energy},
volume={172},
number={150951},
pages={150951-150951},
publisher={Elsevier BV},
year = "2025"
}
Comparison of cryogenic and non-cryogenic droplet impact dynamics at low Weber numbers
Tretola G & Vogiatzaki K (2025), Scientific Reports, 15(1)
Mixing and warming characterisation of cryogenic hydrogen jets through proper orthogonal decomposition
Tretola G, Shen L, Leach F & Vogiatzaki K (2024), Proceedings of ASME 2024 ICE Forward Conference (ICEF2024)
Impact of thermo-physical model and mixing method on the trans- and supercritical injection simulation of liquid hydrogen
Weng Z, Tretola G, Mével R & Vogiatzaki K (2024), International Journal of Hydrogen Energy, 90, 1-12
BibTeX
@article{impactofthermop-2024/10,
title={Impact of thermo-physical model and mixing method on the trans- and supercritical injection simulation of liquid hydrogen},
author={Weng Z, Tretola G, Mével R & Vogiatzaki K},
journal={International Journal of Hydrogen Energy},
volume={90},
pages={1-12},
publisher={Elsevier},
year = "2024"
}
Three-component volume of fluid method coupling with interface compression method and Eulerian–Lagrangian spray atomization surface density model for prediction of cavitating sprays
McGinn P, Tretola G & Vogiatzaki K (2024), Physics of Fluids, 36(2), 022118-022118
BibTeX
@article{threecomponentv-2024/2,
title={Three-component volume of fluid method coupling with interface compression method and Eulerian–Lagrangian spray atomization surface density model for prediction of cavitating sprays},
author={McGinn P, Tretola G & Vogiatzaki K},
journal={Physics of Fluids},
volume={36},
pages={022118-022118},
publisher={AIP Publishing},
year = "2024"
}
A Generalised Series Model for the LES of Premixed and Non-Premixed Turbulent Combustion
Zeng W, Wang X, Luo KH, Vogiatzaki K & Navarro-Martinez S (2024), Energies, 17(1), 252-252
Machine learning assisted characterisation and prediction of droplet distributions in a liquid jet in cross-flow
Tretola G, McGinn P, Fredrich D & Vogiatzaki K (2024), Proceedings of the Combustion Institute, 40(1-4), 105760-105760
BibTeX
@article{machinelearning-2024/,
title={Machine learning assisted characterisation and prediction of droplet distributions in a liquid jet in cross-flow},
author={Tretola G, McGinn P, Fredrich D & Vogiatzaki K},
journal={Proceedings of the Combustion Institute},
volume={40},
pages={105760-105760},
publisher={Elsevier},
year = "2024"
}
Surface tension effects on cryogenic liquid injection dynamics in supercritical environment
Gopal JVM, Morgan R, de Sercey G, Tretola G & Vogiatzaki K (2023), Physics of Fluids, 35(9), 093313-093313
BibTeX
@article{surfacetensione-2023/9,
title={Surface tension effects on cryogenic liquid injection dynamics in supercritical environment},
author={Gopal JVM, Morgan R, de Sercey G, Tretola G & Vogiatzaki K},
journal={Physics of Fluids},
volume={35},
pages={093313-093313},
publisher={AIP Publishing},
year = "2023"
}
Analyzing single and multicomponent supercritical jets using volume-based and mass-based numerical approaches
Rahantamialisoa FNZ, Gopal JVM, Tretola G, Sahranavardfard N, Vogiatzaki K et al. (2023), Physics of Fluids, 35(6), 067123-067123
BibTeX
@article{analyzingsingle-2023/6,
title={Analyzing single and multicomponent supercritical jets using volume-based and mass-based numerical approaches},
author={Rahantamialisoa FNZ, Gopal JVM, Tretola G, Sahranavardfard N, Vogiatzaki K et al.},
journal={Physics of Fluids},
volume={35},
pages={067123-067123},
publisher={AIP Publishing},
year = "2023"
}
Overview of Common Thermophysical Property Modelling Approaches for Cryogenic Fluid Simulations at Supercritical Conditions
Gopal JVM, Morgan R, De Sercey G & Vogiatzaki K (2023), Energies, 16(2), 885-885
BibTeX
@article{overviewofcommo-2023/1,
title={Overview of Common Thermophysical Property Modelling Approaches for Cryogenic Fluid Simulations at Supercritical Conditions},
author={Gopal JVM, Morgan R, De Sercey G & Vogiatzaki K},
journal={Energies},
volume={16},
pages={885-885},
publisher={MDPI},
year = "2023"
}
Unified modeling of cavitating sprays using a three-component volume of fluid method accounting for phase change and phase miscibility
McGinn P, Tretola G & Vogiatzaki K (2022), Physics of Fluids, 34(8), 082108-082108
BibTeX
@article{unifiedmodeling-2022/8,
title={Unified modeling of cavitating sprays using a three-component volume of fluid method accounting for phase change and phase miscibility},
author={McGinn P, Tretola G & Vogiatzaki K},
journal={Physics of Fluids},
volume={34},
pages={082108-082108},
publisher={AIP Publishing},
year = "2022"
}
Primary break-up characterisation and droplet statistics of multi-hole sprays using a probabilistic surface density methodology
Tretola G, Navarro-Martinez S & Vogiatzaki K (2022), International Journal of Multiphase Flow, 152, 104039-104039
BibTeX
@article{primarybreakupc-2022/7,
title={Primary break-up characterisation and droplet statistics of multi-hole sprays using a probabilistic surface density methodology},
author={Tretola G, Navarro-Martinez S & Vogiatzaki K},
journal={International Journal of Multiphase Flow},
volume={152},
pages={104039-104039},
publisher={Elsevier},
year = "2022"
}
Unveiling the dynamics of ultra high velocity droplet impact on solid surfaces.
Tretola G & Vogiatzaki K (2022), Scientific reports, 12(1), 7416
Implementation of a probabilistic surface density volume of fluid approach for spray atomisation
Tretola G, Vogiatzaki K & Navarro-Martinez S (2021), Computers & Fluids, 230, 105121-105121
BibTeX
@article{implementationo-2021/11,
title={Implementation of a probabilistic surface density volume of fluid approach for spray atomisation},
author={Tretola G, Vogiatzaki K & Navarro-Martinez S},
journal={Computers & Fluids},
volume={230},
pages={105121-105121},
publisher={Elsevier},
year = "2021"
}
Effect of the density ratio variation on the dynamics of a liquid jet injected into a gaseous cross-flow
Tretola G, Vogiatzaki K & Navarro-Martinez S (2021), Physics of Fluids, 33(9), 092120-092120
BibTeX
@article{effectofthedens-2021/9,
title={Effect of the density ratio variation on the dynamics of a liquid jet injected into a gaseous cross-flow},
author={Tretola G, Vogiatzaki K & Navarro-Martinez S},
journal={Physics of Fluids},
volume={33},
pages={092120-092120},
publisher={AIP Publishing},
year = "2021"
}