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Kemmler, S., Rettinger, C., Ruede, U., Cuéllar, P. and Köstler, H. (2025) Efficiency and scalability of fully-resolved fluid-particle simulations on heterogeneous CPU-GPU architectures, International Journal of High Performance Computing Applications, doi:10.1177/10943420241313385

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@ARTICLE{AR-PA-25-8, author = {Kemmler, S. and Rettinger, C. and Ruede, U. and Cuéllar, P. and Köstler, H. }, title = {Efficiency and scalability of fully-resolved fluid-particle simulations on heterogeneous CPU-GPU architectures}, year = {2025}, doi = {10.1177/10943420241313385}, journal = {International Journal of High Performance Computing Applications}}

Terray, L. and Bador, M. (2025) nfluence of large-scale atmospheric circulation and Mediterranean sea surface temperature to extreme land precipitation: the case of storm Alex, Environmental Research Climate, 4 (1), pp. Article number 015002, doi:10.1088/2752-5295/adaa0d

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@ARTICLE{AR-CMGC-25-12, author = {Terray, L. and Bador, M. }, title = {nfluence of large-scale atmospheric circulation and Mediterranean sea surface temperature to extreme land precipitation: the case of storm Alex}, year = {2025}, number = {1}, volume = {4}, pages = {Article number 015002}, doi = {10.1088/2752-5295/adaa0d}, journal = {Environmental Research Climate}, pdf = {https://cerfacs.fr/wp-content/uploads/2025/01/Terray_2025_Environ._Res.__Climate_4_015002.pdf}}

de Nardi, L., Meziat-Ramirez, F., Djebien, Y., Douasbin, Q., Dounia, O., Vermorel, O. and Poinsot, T. (2025) Detailed validation of LES for H2/CH4/Air deflagrations in an obstructed tube using PIV measurements, Combustion and Flame, 272, pp. Article number 113879, doi:10.1016/j.combustflame.2024.113879

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@ARTICLE{AR-CFD-25-1, author = {de Nardi, L. and Meziat-Ramirez, F. and Djebien, Y. and Douasbin, Q. and Dounia, O. and Vermorel, O. and Poinsot, T. }, title = {Detailed validation of LES for H2/CH4/Air deflagrations in an obstructed tube using PIV measurements}, year = {2025}, volume = {272}, pages = {Article number 113879}, doi = {10.1016/j.combustflame.2024.113879}, journal = {Combustion and Flame}}

Mohanamuraly, P., Lapeyre, C., Daviller, G., Adler, A. and Staffelbach, G. (2025) Extending the machine-learned optimised stable Taylor-Galerkin scheme to solve the Burgers´ equation, Journal of Computational Physics, 523, pp. Article number 113635, doi:10.1016/j.jcp.2024.113635

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@ARTICLE{AR-CFD-25-2, author = {Mohanamuraly, P. and Lapeyre, C. and Daviller, G. and Adler, A. and Staffelbach, G. }, title = {Extending the machine-learned optimised stable Taylor-Galerkin scheme to solve the Burgers´ equation}, year = {2025}, volume = {523}, pages = {Article number 113635}, doi = {10.1016/j.jcp.2024.113635}, journal = {Journal of Computational Physics}}

Gaipl, L., Jaravel, T., Douasbin, Q. and Poinsot, T. (2025) LES of the combustion efficiency of wake stabilized methane jet flames in crossflow, Combustion and Flame, 273, pp. Article number 113916, doi:10.1016/j.combustflame.2024.113916

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@ARTICLE{AR-CFD-25-3, author = {Gaipl, L. and Jaravel, T. and Douasbin, Q. and Poinsot, T. }, title = {LES of the combustion efficiency of wake stabilized methane jet flames in crossflow}, year = {2025}, volume = {273}, pages = {Article number 113916}, doi = {10.1016/j.combustflame.2024.113916}, journal = {Combustion and Flame}}

Valcke, S. (2025) Carbon footprint of CMIP6 HPC simulations - Invited conference, HiPEAC, Barcelona, Spain, January 20-22. 2025

@CONFERENCE{PR-CMGC-25-13, author = {Valcke, S. }, title = {Carbon footprint of CMIP6 HPC simulations - Invited conference}, year = {2025}, booktitle = {HiPEAC, Barcelona, Spain, January 20-22}, keywords = {Oral presentation}}

Lumet, E., Rochoux, M., Jaravel, T. and Lacroix, S. (2025) Uncertainty-aware surrogate modeling for urban air pollutant dispersion prediction, Building and Environment, 267 (Part C), pp. Article number 112287, doi:10.1016/j.buildenv.2024.112287

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@ARTICLE{AR-CMGC-25-4, author = {Lumet, E. and Rochoux, M. and Jaravel, T. and Lacroix, S. }, title = {Uncertainty-aware surrogate modeling for urban air pollutant dispersion prediction}, year = {2025}, number = {Part C}, volume = {267}, pages = {Article number 112287}, doi = {10.1016/j.buildenv.2024.112287}, journal = {Building and Environment}, pdf = {https://cerfacs.fr/wp-content/uploads/2025/01/Building_Envir_AR_CMGC_25_4.pdf}}

Villard, J., Riber, E. and Cuenot, B. (2025) Simulation of aluminum dust flame with Lagrangian tracking of the liquid combustion products, Fuel, 387, pp. Article number 134272, doi:10.1016/j.fuel.2024.134272

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@ARTICLE{AR-CFD-25-14, author = {Villard, J. and Riber, E. and Cuenot, B. }, title = {Simulation of aluminum dust flame with Lagrangian tracking of the liquid combustion products}, year = {2025}, volume = {387}, pages = {Article number 134272}, doi = {10.1016/j.fuel.2024.134272}, journal = {Fuel}}

Cances, M., Giraud, L., Bauerheim, M., Gicquel, L. Y. M. and Nicoud, F. (2025) Robustness and reliability of state-space, frame-based modeling for thermoacoustics, Journal of Computational Physics, 520, pp. Article number 113472, doi:10.1016/j.jcp.2024.113472

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@ARTICLE{AR-CFD-25-5, author = {Cances, M. and Giraud, L. and Bauerheim, M. and Gicquel, L.Y.M. and Nicoud, F. }, title = {Robustness and reliability of state-space, frame-based modeling for thermoacoustics}, year = {2025}, volume = {520}, pages = {Article number 113472}, doi = {10.1016/j.jcp.2024.113472}, journal = {Journal of Computational Physics}}

Meziat-Ramirez, F., Douasbin, Q., Dounia, O., Vermorel, O. and Jaravel, T. (2025) Flame-turbulence interactions in lean hydrogen flames: implications for turbulent flame speed and fractal modelling, Combustion and Flame, 273, pp. Article number 113926, doi:10.1016/j.combustflame.2024.113926

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@ARTICLE{AR-CFD-25-15, author = {Meziat-Ramirez, F. and Douasbin, Q. and Dounia, O. and Vermorel, O. and Jaravel, T. }, title = {Flame-turbulence interactions in lean hydrogen flames: implications for turbulent flame speed and fractal modelling}, year = {2025}, volume = {273}, pages = {Article number 113926}, doi = {10.1016/j.combustflame.2024.113926}, journal = {Combustion and Flame}}

Lumet, E., Jaravel, T. and Rochoux, M. (2025) Dataset of microscale atmospheric flow and pollutant concentration large-eddy simulations for varying mesoscale meteorological forcing in an idealized urban environment, Data in Brief, In Press, pp. Article number 111285, doi:10.1016/j.dib.2025.111285

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@ARTICLE{AR-CMGC-25-6, author = {Lumet, E. and Jaravel, T. and Rochoux, M. }, title = {Dataset of microscale atmospheric flow and pollutant concentration large-eddy simulations for varying mesoscale meteorological forcing in an idealized urban environment}, year = {2025}, volume = {In Press}, pages = {Article number 111285}, doi = {10.1016/j.dib.2025.111285}, journal = {Data in Brief}, pdf = {https://cerfacs.fr/wp-content/uploads/2025/01/Data_Brief_AR_CMGC_25_6.pdf}}

Jang, Y., Kruse, C., Hülsemann, F., Bonelle, J. and Ruede, U. (2024) Fast linear solvers for incompressible CFD simulations with compatible discrete operator schemes, Computational and Applied Mathematics, 44 (1), doi:10.1007/s40314-024-03003-y

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@ARTICLE{AR-PA-24-186, author = {Jang, Y. and Kruse, C. and Hülsemann, F. and Bonelle, J. and Ruede, U. }, title = {Fast linear solvers for incompressible CFD simulations with compatible discrete operator schemes}, year = {2024}, number = {1}, volume = {44}, doi = {10.1007/s40314-024-03003-y}, journal = {Computational and Applied Mathematics}}

Sanchez-Gomez, E., Séférian, R., Batté, L., Berthet, S., Cassou, C., Dewitte, B., Moine, M. -P., Msadek, R., Prodhomme, C., Santana-Falcon, Y., Terray, L. and Voldoire, A. (2024) Description and Evaluation of the CNRM-Cerfacs Climate Prediction System (C3PS), Journal of Advances in Modeling Earth Systems, 16 (10), pp. e2023MS004193, doi:10.1029/2023MS004193

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@ARTICLE{AR-CMGC-24-187, author = {Sanchez-Gomez, E. and Séférian, R. and Batté, L. and Berthet, S. and Cassou, C. and Dewitte, B. and Moine, M.-P. and Msadek, R. and Prodhomme, C. and Santana-Falcon, Y. and Terray, L. and Voldoire, A. }, title = {Description and Evaluation of the CNRM-Cerfacs Climate Prediction System (C3PS)}, year = {2024}, number = {10}, volume = {16}, pages = {e2023MS004193}, doi = {10.1029/2023MS004193}, journal = {Journal of Advances in Modeling Earth Systems}}

Sengupta, T. K., Joshi, B. and Sundaram, P. (2024) Receptivity of Rayleigh-Taylor instability to acoustic pulses: Theoretical explanation of pulse propagation, Physics Letters A, 527, pp. Article number 130004, doi:10.1016/j.physleta.2024.130004

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@ARTICLE{AR-CFD-24-178, author = {Sengupta, T.K. and Joshi, B. and Sundaram, P. }, title = {Receptivity of Rayleigh-Taylor instability to acoustic pulses: Theoretical explanation of pulse propagation}, year = {2024}, volume = {527}, pages = {Article number 130004}, doi = {10.1016/j.physleta.2024.130004}, journal = {Physics Letters A}}

Gürol, S., Diouane, Y., Mouhtal, O. and Orban, D. (2024) Scaled spectral preconditioners for sequence of linear systems with an application to data assimilation - Invited conference, International Conference On Preconditioning Techniques, Atlanta, US, June 10-12. 2024

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@CONFERENCE{PR-PA-24-188, author = {Gürol, S. and Diouane, Y. and Mouhtal, O. and Orban, D. }, title = {Scaled spectral preconditioners for sequence of linear systems with an application to data assimilation - Invited conference}, year = {2024}, booktitle = {International Conference On Preconditioning Techniques, Atlanta, US, June 10-12}, url = {https://www.math.emory.edu/~yxi26/Precond24/index.html}}

Yahou, T., Detomaso, N., Selle, L., Poinsot, T., Dawson, J. R., Schuller, T. and Laera, D. (2024) The role of preferential diffusion on the ignition dynamics of lean premixed hydrogen flames, Proceedings of the Combustion Institute, 40 (1-4), pp. Article number 105612, doi:10.1016/j.proci.2024.105612

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@ARTICLE{AR-CFD-24-202, author = {Yahou, T. and Detomaso, N. and Selle, L. and Poinsot, T. and Dawson, J.R. and Schuller, T. and Laera, D. }, title = {The role of preferential diffusion on the ignition dynamics of lean premixed hydrogen flames}, year = {2024}, number = {1-4}, volume = {40}, pages = {Article number 105612}, doi = {10.1016/j.proci.2024.105612}, journal = {Proceedings of the Combustion Institute}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/12/Proc.Combust.inst_.AR_CFD_24_202.pdf}}

Coudray, A., Riber, E. and Cuenot, B. (2024) On the inclusion of preferential diffusion effects for PAH tabulation in turbulent non-premixed ethylene/air sooting flames, Proceedings of the Combustion Institute, 40 (1-4), pp. Article number 105607, doi:10.1016/j.proci.2024.105607

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@ARTICLE{AR-CFD-24-179, author = {Coudray, A. and Riber, E. and Cuenot, B. }, title = {On the inclusion of preferential diffusion effects for PAH tabulation in turbulent non-premixed ethylene/air sooting flames}, year = {2024}, number = {1-4}, volume = {40}, pages = {Article number 105607}, doi = {10.1016/j.proci.2024.105607}, journal = {Proceedings of the Combustion Institute}}

Missey, S., Dounia, O. and Selle, L. (2024) Early-stage flame acceleration in stratified hydrogen-air mixtures: Theory and simulation, Proceedings of the Combustion Institute, 40, pp. Article number 105279, doi:10.1016/j.proci.2024.105279

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@ARTICLE{AR-CFD-24-203, author = {Missey, S. and Dounia, O. and Selle, L. }, title = {Early-stage flame acceleration in stratified hydrogen-air mixtures: Theory and simulation}, year = {2024}, volume = {40}, pages = {Article number 105279}, doi = {10.1016/j.proci.2024.105279}, journal = {Proceedings of the Combustion Institute}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/12/proceedings-of-the-combustion-institute-_-Missey_AR_CFD_24_203.pdf}}

Antolin, W., Rochoux, M. and Le Moigne, P. (2024) Wavelet analysis to reveal fluctuations in near-surface temperature and wind speed during the FireFlux I experimental fire, Journal of Physics: Conference Series, Volume 2885, 4th European Symposium on Fire Safety Science, Barcelona, Spain, October 09-11. 2024, doi:10.1088/1742-6596/2885/1/012076

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@CONFERENCE{PR-CMGC-24-180, author = {Antolin, W. and Rochoux, M. and Le Moigne, P. }, title = {Wavelet analysis to reveal fluctuations in near-surface temperature and wind speed during the FireFlux I experimental fire}, year = {2024}, booktitle = {Journal of Physics: Conference Series, Volume 2885, 4th European Symposium on Fire Safety Science, Barcelona, Spain, October 09-11}, doi = {10.1088/1742-6596/2885/1/012076}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/12/Journal-of-Physics-Conference-Series_AR_CMGC_24_180.pdf}}

Bertsch, J., Poinsot, T., Bertier, N. and Ruan, J. -L. (2024) Stabilization regimes and flame structure at the flame base of a swirled lean premixed hydrogen–air injector with a pure hydrogen pilot injection, Proceedings of the Combustion Institute, 40, pp. Article number 105660, doi:10.1016/j.proci.2024.105660

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@ARTICLE{AR-CFD-24-204, author = {Bertsch, J. and Poinsot, T. and Bertier, N. and Ruan, J.-L. }, title = {Stabilization regimes and flame structure at the flame base of a swirled lean premixed hydrogen–air injector with a pure hydrogen pilot injection}, year = {2024}, volume = {40}, pages = {Article number 105660}, doi = {10.1016/j.proci.2024.105660}, journal = {Proceedings of the Combustion Institute}}

Noun, M., Mohanamuraly, P. and Gicquel, L. Y. M. (2024) Large-eddy simulation-based fluid–structure interaction framework for predicting coupled aero-vibro-acoustic instabilities in turbopumps, Physics of Fluids, 36 (11), pp. Article number 117166, doi:10.1063/5.0235546

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@ARTICLE{AR-CFD-24-181, author = {Noun, M. and Mohanamuraly, P. and Gicquel, L.Y.M. }, title = {Large-eddy simulation-based fluid–structure interaction framework for predicting coupled aero-vibro-acoustic instabilities in turbopumps}, year = {2024}, number = {11}, volume = {36}, pages = {Article number 117166}, doi = {10.1063/5.0235546}, journal = {Physics of Fluids}}

Plewinski, J., Alt, C., Köstler, H. and Ruede, U. (2024) Performance analysis of the free surface lattice Boltzmann implementation in waLBerla, Proceedings in Applied Mathematics and Mechanics, pp. e202400196, doi:10.1002/pamm.202400196

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@ARTICLE{AR-PA-24-190, author = {Plewinski, J. and Alt, C. and Köstler, H. and Ruede, U. }, title = {Performance analysis of the free surface lattice Boltzmann implementation in waLBerla}, year = {2024}, pages = {e202400196}, doi = {10.1002/pamm.202400196}, journal = {Proceedings in Applied Mathematics and Mechanics}}

Jonville, G., Piacentini, A., Valcke, S. and Hanke, M. (2024), Integration of the YAC regridding library into OASIS3-MCT coupler, CECI, Université de Toulouse, CNRS, CERFACS, Toulouse, France - TR-CMGC-24-182, Technical report

@TECHREPORT{TR-CMGC-24-182, author = {Jonville, G. and Piacentini, A and Valcke, S. and Hanke, M. }, title = {Integration of the YAC regridding library into OASIS3-MCT coupler}, year = {2024}, institution = {CECI, Université de Toulouse, CNRS, CERFACS, Toulouse, France - TR-CMGC-24-182}, type = {Technical report}}

Alt, C., Lanser, M., Plewinski, J., Janki, A., Klawonn, A., Köstler, H., Selzer, M. and Ruede, U. (2024) A continuous benchmarking infrastructure for high-performance computing applications, International Journal of Parallel Emergent and Distributed Systems, 39 (4), pp. 501-523, doi:10.1080/17445760.2024.2360190

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@ARTICLE{AR-PA-24-191, author = {Alt, C. and Lanser, M. and Plewinski, J. and Janki, A. and Klawonn, A. and Köstler, H. and Selzer, M. and Ruede, U. }, title = {A continuous benchmarking infrastructure for high-performance computing applications}, year = {2024}, number = {4}, volume = {39}, pages = {501-523}, doi = {10.1080/17445760.2024.2360190}, journal = {International Journal of Parallel Emergent and Distributed Systems}}

Böhm, F., Bauer, D., Kohl, N., Alappat, C., Thönnes, D., Mohr, M., Köstler, H. and Ruede, U. (2024) Code Generation and Performance Engineering for Matrix-Free Finite Element Methods on Hybrid Tetrahedral Grids, arXiv preprint, pp. arXiv:2404.08371v1, doi:10.48550/arXiv.2404.08371

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@ARTICLE{AR-PA-24-192, author = {Böhm, F. and Bauer, D. and Kohl, N. and Alappat, C. and Thönnes, D. and Mohr, M. and Köstler, H. and Ruede, U. }, title = {Code Generation and Performance Engineering for Matrix-Free Finite Element Methods on Hybrid Tetrahedral Grids}, year = {2024}, pages = {arXiv:2404.08371v1}, doi = {10.48550/arXiv.2404.08371}, journal = {arXiv preprint}}

Sengupta, T. K., Sarkar, A., Joshi, B., Sundaram, P. and Suman, V. K. (2024) Direct simulation of vortex dynamics of multi-cellular Taylor–Green vortex by pseudo-spectral method, European Journal of Mechanics B . Fluids, 108, pp. 226-236, doi:10.1016/j.euromechflu.2024.08.004

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@ARTICLE{AR-CFD-24-194, author = {Sengupta, T.K. and Sarkar, A. and Joshi, B. and Sundaram, P. and Suman, V.K. }, title = {Direct simulation of vortex dynamics of multi-cellular Taylor–Green vortex by pseudo-spectral method}, year = {2024}, volume = {108}, pages = {226-236}, doi = {10.1016/j.euromechflu.2024.08.004}, journal = {European Journal of Mechanics B . Fluids}}

Briant, J., Mycek, P., Destouches, M., Goux, O., Gratton, S., Gürol, S., Simon, E. and Weaver, A. T. (2024) A filtered multilevel Monte Carlo method for estimating the expectation of cell-centered discretized random fields, HAL Preprint, pp. hal-04337114 , version 2

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@ARTICLE{AR-PA-24-198, author = {Briant, J. and Mycek, P. and Destouches, M. and Goux, O. and Gratton, S. and Gürol, S. and Simon, E. and Weaver, A.T. }, title = {A filtered multilevel Monte Carlo method for estimating the expectation of cell-centered discretized random fields}, year = {2024}, pages = {hal-04337114 , version 2 }, journal = {HAL Preprint}, pdf = {https://cerfacs.fr/wp-content/uploads/2025/01/FMLMC_preprint-HAL-04337114.pdf}}

Liné, A., Cassou, C., Msadek, R. and Parey, S. (2024) Modulation of Northern Europe near-term anthropogenic warming and wettening assessed through internal variability storylines, npj Climate and Atmospheric Science, 7, pp. Article number 272, doi:10.1038/s41612-024-00759-2

[doi]

@ARTICLE{AR-CMGC-24-175, author = {Liné, A. and Cassou, C. and Msadek, R. and Parey, S. }, title = {Modulation of Northern Europe near-term anthropogenic warming and wettening assessed through internal variability storylines}, year = {2024}, volume = {7}, pages = {Article number 272}, doi = {10.1038/s41612-024-00759-2}, journal = {npj Climate and Atmospheric Science}}

Werner, P.. Aerothermal Lattice Boltzmann Modeling of Bore-Cooling Cavities in High-Pressure Compressors. PhD Thesis. Aix-Marseille. (2024).

@PHDTHESIS{TH-CFD-24-161, author = {Werner, P. }, title = {Aerothermal Lattice Boltzmann Modeling of Bore-Cooling Cavities in High-Pressure Compressors}, year = {2024}, type = {PhD Thesis}, school = {Aix-Marseille}, abstract = {Next-generation turbofan engines require optimal heat transfer control withinthe rotor disks in the compressor and turbine stages to ensure their efficiency,reliability, and longevity. These engines operate under higher pressure ratiosand turbine inlet temperatures, which subject rotor blades and disks tosignificant thermal stresses. To address these challenges, a bore-cooling system with rotating cavities aroundthe central shaft is used. Predicting heat transfer in these cavities iscomplex due to the dynamic vortex structures induced by both forced convection(from axial throughflow) and natural convection (from centrifugal buoyancy).Advanced Large Eddy Simulation (LES) models have proven more effective incapturing these dynamic processes compared to traditional Reynolds-AveragedNavier-Stokes (RANS) models. However, implementing these simulations at anindustrial scale remains computationally demanding. This PhD thesis focuses on advancing the compressible lattice Boltzmann methodfor modeling rotating cavity flows, showing promise in capturing this complexflow physics. Key contributions include the extension of the method to modelrotating flows in a local reference frame by incorporating Coriolis andcentrifugal force terms. Furthermore, a direct-coupling refinement algorithm istailored to improve mass conservation at grid interfaces. A newmass-conservative boundary treatment based on the reconstruction of distributionfunctions is proposed to enhance the accuracy of heat transfer predictions. Then, awall model is extended to include thermal effects, enabling the simulation ofconfigurations at higher Rayleigh numbers. The model’s capabilities were validated against increasingly complexconfigurations, ranging from a sealed annular cavity to a multi-stage cavityrig. Results showed good agreement with temperature measurements, reasonableheat transfer predictions, and the ability to replicate compressibility effectsthat attenuate Rayleigh-Bénard instabilities. This thesis establishes a robustfoundation for future innovations in simulating turbomachinery bore-coolingcircuits at an industrial scale.}}

Concha, E.. Chile Niño/Niña processes across a hierarchy of models. PhD Thesis. École doctorale: ED173 Sciences de l’Univers, de l’Environnement et de l’Espace. (2024).

@PHDTHESIS{TH-CMGC-24-162, author = {Concha, E. }, title = {Chile Niño/Niña processes across a hierarchy of models}, year = {2024}, type = {PhD Thesis}, school = {École doctorale: ED173 Sciences de l’Univers, de l’Environnement et de l’Espace}}

Uhl, G., Taileb, S., Zurbach, S., Odier, N., Poinsot, T. and Bellenoue, M. (2024) Phenomenological Aerodynamic Analysis of an Ejector Exposed to Large Inlet Pulsations, Journal of Propulsion and Power, pp. Article in advance, doi:10.2514/1.B39526

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@ARTICLE{AR-CFD-24-163, author = {Uhl, G. and Taileb, S. and Zurbach, S. and Odier, N. and Poinsot, T. and Bellenoue, M. }, title = {Phenomenological Aerodynamic Analysis of an Ejector Exposed to Large Inlet Pulsations}, year = {2024}, pages = {Article in advance}, doi = {10.2514/1.B39526}, journal = {Journal of Propulsion and Power}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/11/Journal-of-Propulsion-and-Power_AR_CFD_24_163.pdf}}

Meziat-Ramirez, F., Vanbersel, B., Dounia, O., Jaravel, T., Douasbin, Q. and Vermorel, O. (2024) Numerical study of the flame acceleration mechanisms of a lean hydrogen/air deflagration in an obstructed channel, International Journal of Hydrogen Energy, 89, pp. 224-232, doi:10.1016/j.ijhydene.2024.09.230

[doi]

@ARTICLE{AR-CFD-24-164, author = {Meziat-Ramirez, F. and Vanbersel, B. and Dounia, O. and Jaravel, T. and Douasbin, Q. and Vermorel, O. }, title = {Numerical study of the flame acceleration mechanisms of a lean hydrogen/air deflagration in an obstructed channel}, year = {2024}, volume = {89}, pages = {224-232}, doi = {10.1016/j.ijhydene.2024.09.230}, journal = {International Journal of Hydrogen Energy}}

Holzer, M., Mitchell, T., Leonardi, C. and Ruede, U. (2024) Development of a central-moment phase-field lattice Boltzmann model for thermocapillary flows: Droplet capture and computational performance, Journal of Computational Physics, 518, pp. Article number 113337, doi:10.1016/j.jcp.2024.113337

[doi]

@ARTICLE{AR-PA-24-166, author = {Holzer, M. and Mitchell, T. and Leonardi, C. and Ruede, U. }, title = {Development of a central-moment phase-field lattice Boltzmann model for thermocapillary flows: Droplet capture and computational performance}, year = {2024}, volume = {518}, pages = {Article number 113337}, doi = {10.1016/j.jcp.2024.113337}, journal = {Journal of Computational Physics}}

Chrust, M., Weaver, A. T., Browne, P., Zuo, H. and Balmaseda, M. A. (2024) Impact of ensemble-based hybrid background-error covariances in ECMWF’s next-generation ocean reanalysis system, Quarterly Journal of the Royal Meteorological Society, pp. Early View, doi:10.1002/qj.4914

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@ARTICLE{AR-PA-24-184, author = {Chrust, M. and Weaver, A.T. and Browne, P. and Zuo, H. and Balmaseda, M.A. }, title = {Impact of ensemble-based hybrid background-error covariances in ECMWF’s next-generation ocean reanalysis system}, year = {2024}, pages = {Early View}, doi = {10.1002/qj.4914}, journal = {Quarterly Journal of the Royal Meteorological Society}}

Suffa, P., Holzer, M., Köstler, H. and Ruede, U. (2024) Architecture Specific Generation of Large Scale Lattice Boltzmann Methods for Sparse Complex Geometries, arXiv preprint, doi:10.48550/arXiv.2408.06880

[pdf] [doi]

@ARTICLE{AR-PA-24-167, author = {Suffa, P. and Holzer, M. and Köstler, H. and Ruede, U. }, title = {Architecture Specific Generation of Large Scale Lattice Boltzmann Methods for Sparse Complex Geometries}, year = {2024}, doi = {10.48550/arXiv.2408.06880}, journal = {arXiv preprint}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/12/Arxiv-Preprint_AR_PA_24_167.pdf}}

Arriolabengoa, S., Planès, T., Mattei, P., Cariolle, D. and Delbecq, S. (2024) Lightweight climate models could be useful for assessing aviation mitigation strategies and moving beyond the CO2-equivalence metrics debate, Communications Earth & Environment, 5 (1), pp. Article number 716, doi:10.1038/s43247-024-01888-5

[pdf] [doi]

@ARTICLE{AR-CMGC-24-168, author = {Arriolabengoa, S. and Planès, T. and Mattei, P. and Cariolle, D. and Delbecq, S. }, title = {Lightweight climate models could be useful for assessing aviation mitigation strategies and moving beyond the CO2-equivalence metrics debate}, year = {2024}, number = {1}, volume = {5}, pages = {Article number 716}, doi = {10.1038/s43247-024-01888-5}, journal = {Communications Earth \& Environment}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/11/Commun.Earth-Environ_AR_CMGC_24_168.pdf}}

Holzer, M.. Code generation in a lattice Boltzmann framework for exascale computing. PhD Thesis. EDMITT - Ecole doctorale Mathématiques, Informatique et Télécommunications de Toulouse. (2024).

[pdf]

@PHDTHESIS{TH-PA-24-169, author = {Holzer, M. }, title = {Code generation in a lattice Boltzmann framework for exascale computing}, year = {2024}, type = {PhD Thesis}, school = {EDMITT - Ecole doctorale Mathématiques, Informatique et Télécommunications de Toulouse}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/11/Phd_HOLZER_Markus.pdf}}

Joshi, B., Sengupta, T. K., Sundaram, P. and Sengupta, A. (2024) Highly resolved peta-scale direct numerical simulations: Onset of Kelvin–Helmholtz Rayleigh–Taylor instability via pressure pulses, Computers and Fluids, 284, pp. Article number 106442, doi:10.1016/j.compfluid.2024.106442

[doi]

@ARTICLE{AR-CFD-24-195, author = {Joshi, B. and Sengupta, T.K. and Sundaram, P. and Sengupta, A. }, title = {Highly resolved peta-scale direct numerical simulations: Onset of Kelvin–Helmholtz Rayleigh–Taylor instability via pressure pulses}, year = {2024}, volume = {284}, pages = {Article number 106442}, doi = {10.1016/j.compfluid.2024.106442}, journal = {Computers and Fluids}}

El Montassir, R.. Approche hybride basée sur la physique et l’IA pour l’advection des champs de probabilités. Application à la prévision immédiate de la couverture nuageuse. PhD Thesis. SDU2E: Océan, Atmosphère, Climat. (2024).

[pdf]

@PHDTHESIS{TH-PA-24-170, author = {El Montassir, R. }, title = {Approche hybride basée sur la physique et l’IA pour l’advection des champs de probabilités. Application à la prévision immédiate de la couverture nuageuse}, year = {2024}, type = {PhD Thesis}, school = {SDU2E: Océan, Atmosphère, Climat}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/11/2024_rachid_EL_Montassir_phd_manuscript.pdf}}

Briant, J.. Méthodes de Monte Carlo multi-niveaux pour l’estimation de paramètres statistiques de champs discrétisés en géosciences. PhD Thesis. Ecole doctorale 475 - Mathématiques, Informatique et Télécommunications de Toulouse (EDMITT). (2024).

[pdf]

@PHDTHESIS{TH-PA-24-171, author = {Briant, J. }, title = {Méthodes de Monte Carlo multi-niveaux pour l’estimation de paramètres statistiques de champs discrétisés en géosciences}, year = {2024}, type = {PhD Thesis}, school = {Ecole doctorale 475 - Mathématiques, Informatique et Télécommunications de Toulouse (EDMITT)}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/11/Phd_Jeremy_BRIANT_2024.pdf}}

Odier, N.. Contribution à la simulation aux grandes échelles pour les systèmes de production énergétiques. HDR. CERFACS. (2024).

[pdf]

@PHDTHESIS{HD-CFD-24-172, author = {Odier, N. }, title = {Contribution à la simulation aux grandes échelles pour les systèmes de production énergétiques}, year = {2024}, type = {HDR}, school = {CERFACS }, pdf = {https://cerfacs.fr/wp-content/uploads/2024/11/HDR_Odier_web.pdf}}

Sankurantripati, S. and Duchaine, F. (2024) Indoor Air Quality Control for Airborne Diseases: A Review on Portable UV Air Purifiers, Fluids, 9 (12), doi:10.3390/fluids9120281

[pdf] [doi]

@ARTICLE{AR-CFD-24-173, author = {Sankurantripati, S. and Duchaine, F. }, title = {Indoor Air Quality Control for Airborne Diseases: A Review on Portable UV Air Purifiers}, year = {2024}, number = {12}, volume = {9}, doi = {10.3390/fluids9120281}, journal = {Fluids}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/11/Fluids_AR_CFD_24_173.pdf}}

Baur, S., Sanderson, B. M., Séférian, R. and Terray, L. (2024) Change in Wind Renewable Energy Potential Under Stratospheric Aerosol Injections, Earths Future, 12 (10), pp. Article number e2024EF004575, doi:10.1029/2024EF004575

[pdf] [doi]

@ARTICLE{AR-CMGC-24-133, author = {Baur, S. and Sanderson, B.M. and Séférian, R. and Terray, L. }, title = {Change in Wind Renewable Energy Potential Under Stratospheric Aerosol Injections}, year = {2024}, number = {10}, volume = {12}, pages = {Article number e2024EF004575}, doi = {10.1029/2024EF004575}, journal = {Earths Future}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/10/Earths-Future_AR_CFD_24_133.pdf}}

Barleon, N., Lacoste, D., Alkhalifa, A. M., Vermorel, O. and Cuenot, B. (2024) Numerical investigation of lean methane flame response to NRP discharges actuation, Combustion and Flame, 270, pp. Article number 113745, doi:10.1016/j.combustflame.2024.113745

[doi]

@ARTICLE{AR-CFD-24-149, author = {Barleon, N. and Lacoste, D. and Alkhalifa, A.M. and Vermorel, O. and Cuenot, B. }, title = {Numerical investigation of lean methane flame response to NRP discharges actuation}, year = {2024}, volume = {270}, pages = {Article number 113745}, doi = {10.1016/j.combustflame.2024.113745}, journal = {Combustion and Flame}}

Jones, C. G., Adloff, F., Booth, B. B. B., Cox, P. M., Eyring, V., Friedlingstein, P., Frieler, K., Hewitt, H., Jeffery, H. A., Joussaume, S., Koenigk, T., Lawrence, B. N., O´ Rourke, E., Roberts, M. J., Sanderson, B. M., Séférian, R., Somot, S., Vidale, P. L., Van Vuuren, D., Acosta, M., Bentsen, M., Bernardello, R., Betts, R., Blockley, E., Boé, J., Bracegirdle, T., Braconnot, P., Brovkin, V., Buontempo, C., Doblas-Reyes, F., Donat, M., Epicoco, I., Falloon, P., Fiore, S., Frölicher, T., Fuckar, N. S., Gidden, M. J., Goessling, H. F., Grand Graversen, R., Gualdi, S., Gutierrez, J. M., Ilyina, T., Jacob, D., Jones, C. D., Juckes, M., Kendon, E., Kjellsson, J., Knutti, R., Lowe, J., Mizielinski, M., Nassisi, P., Obersteiner, M., Regnier, P., Roehrig, R., Salas y Melia, D., Schleussner, C. F., Schulz, M., Scoccimarro, E., Terray, L., Thiemann, H., Wood, R. A., Yang, S. and Zaehle, S. (2024) Bringing it all together: science priorities for improved understanding of Earth system change and to support international climate policy, Earth System Dynamics, 15, pp. 1319-1351, doi:10.5194/esd-15-1319-2024

[pdf] [doi]

@ARTICLE{AR-CMGC-24-155, author = {Jones, C.G. and Adloff , F. and Booth, B.B.B. and Cox, P.M. and Eyring, V. and Friedlingstein, P. and Frieler, K. and Hewitt, H. and Jeffery, H.A. and Joussaume, S. and Koenigk, T. and Lawrence, B.N. and O´ Rourke, E. and Roberts, M.J. and Sanderson, B.M. and Séférian, R. and Somot, S. and Vidale, P.L. and Van Vuuren, D. and Acosta, M. and Bentsen, M. and Bernardello, R. and Betts, R. and Blockley, E. and Boé, J. and Bracegirdle, T. and Braconnot, P. and Brovkin, V. and Buontempo, C. and Doblas-Reyes, F. and Donat, M. and Epicoco, I. and Falloon, P. and Fiore, S. and Frölicher, T. and Fuckar, N.S. and Gidden, M.J. and Goessling, H.F. and Grand Graversen, R. and Gualdi, S. and Gutierrez, J.M. and Ilyina, T. and Jacob, D. and Jones, C.D. and Juckes, M. and Kendon, E. and Kjellsson, J. and Knutti, R. and Lowe, J. and Mizielinski, M. and Nassisi, P. and Obersteiner, M. and Regnier, P. and Roehrig, R. and Salas y Melia, D. and Schleussner, C.F. and Schulz, M. and Scoccimarro, E. and Terray, L. and Thiemann, H. and Wood, R.A. and Yang, S. and Zaehle, S. }, title = {Bringing it all together: science priorities for improved understanding of Earth system change and to support international climate policy}, year = {2024}, volume = {15}, pages = {1319-1351}, doi = {10.5194/esd-15-1319-2024}, journal = {Earth System Dynamics}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/10/Earth_Syst_Dynam_AR_CMGC_24_155.pdf}}

Peyron, M.. Latent space data assimilation by using deep learning. PhD Thesis. Cerfacs - INP- EDMITT. (2024).

[pdf]

@PHDTHESIS{TH-PA-24-135, author = {Peyron , M. }, title = {Latent space data assimilation by using deep learning}, year = {2024}, type = {PhD Thesis}, school = {Cerfacs - INP- EDMITT}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/10/PEYRON_Mathis_Phd.pdf}}

Vermorel, O., Dounia, O., Duchaine, F., Poinsot, T., Dutertre, A. and Okyay, G. (2024) Efficient combustion chemical kinetics modeling for 3D LES of large Li-ion batteries accidents, MATHIAS days 2024, Magny-le-Hongre, France, 23 - 26 Septembre. 2024

@CONFERENCE{PR-CFD-24-157, author = {Vermorel, O. and Dounia, O. and Duchaine, F. and Poinsot, T. and Dutertre, A. and Okyay, G. }, title = {Efficient combustion chemical kinetics modeling for 3D LES of large Li-ion batteries accidents}, year = {2024}, booktitle = {MATHIAS days 2024, Magny-le-Hongre, France, 23 - 26 Septembre}, keywords = {Presentation}}

Villard, J.. Modeling and simulation of aluminum flames. PhD Thesis. Ecole doctorale MEGEP - CERFACS. (2024).

[pdf]

@PHDTHESIS{TH-CFD-24-136, author = {Villard, J. }, title = {Modeling and simulation of aluminum flames}, year = {2024}, type = {PhD Thesis}, school = {Ecole doctorale MEGEP - CERFACS}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/10/Phd_Villard_Jean.pdf}}

Lesaffre, T., Cuenot, B., Riber, E., Taileb, S. and May - Carle, J. B. (2024) Hydroprocessed Esters and Fatty Acids (HEFA) model for Large Eddy Simulation, 26th Conference of the International Society for Air Breathing Engines, Toulouse, France, 22 - 27 Septembre. 2024

[pdf]

@CONFERENCE{PR-CFD-24-158, author = {Lesaffre, T. and Cuenot, B. and Riber, E. and Taileb, S. and May - Carle, J.B. }, title = {Hydroprocessed Esters and Fatty Acids (HEFA) model for Large Eddy Simulation}, year = {2024}, booktitle = {26th Conference of the International Society for Air Breathing Engines, Toulouse, France, 22 - 27 Septembre}, keywords = {Paper and Presentation}, pdf = {https://cerfacs.fr/wp-content/uploads/2024/10/26th-Conference-of-the-International-Society-for-Air-Breathing-Engines_PR_CFD_24_158.pdf}}