Di Renzo, Mario

Di Renzo, Mario  

DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE  

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Risultati 1 - 20 di 20 (tempo di esecuzione: 0.046 secondi).
Titolo Data di pubblicazione Autore(i) File
A mixture fraction space model for counterflow diffusion flames with incident electric field 1-gen-2020 Di Renzo, M.; Pascazio, G.
A reduced chemical mechanism for the simulation of electrified methane/air flames 1-gen-2022 Di Renzo, M.; Cuenot, B.
Aerodynamic generation of electric fields in turbulence laden with charged inertial particles 1-gen-2018 Di Renzo, M.; Urzay, J.
An efficient flamelet progress-variable method for modeling non-premixed flames in weak electric fields 1-gen-2017 Di Renzo, M.; De Palma, P.; de Tullio, M. D.; Pascazio, G.
Angular momentum and moment of total enthalpy integral equations for high-speed boundary layers 1-gen-2023 Kianfar, Armin; Di Renzo, Mario; Williams, Christopher; Elnahhas, Ahmed; Johnson, Perry L.
Apparato per applicare almeno un dispositivo di controllo di scambio gassoso ad un film di confezionamento 1-gen-2021 Di Renzo Giovanni, Carlo; Morgante, Michele; Di Renzo, Mario
Crossflow effects on shock wave/turbulent boundary layer interactions 1-gen-2022 Di Renzo, M.; Oberoi, N.; Larsson, J.; Pirozzoli, S.
Direct numerical simulation of a hypersonic transitional boundary layer at suborbital enthalpies 1-gen-2021 Di Renzo, M.; Urzay, J.
Direct numerical simulation of a turbulent methane/air flame impinged by a sub-breakdown electric field 1-gen-2023 Di Renzo, Mario; Cuenot, Bénédicte
HTR solver: An open-source exascale-oriented task-based multi-GPU high-order code for hypersonic aerothermodynamics 1-gen-2020 Di Renzo, M.; Fu, L.; Urzay, J.
HTR-1.2 solver: Hypersonic Task-based Research solver version 1.2 1-gen-2021 Di Renzo, M.; Pirozzoli, S.
HTR-1.3 solver: Predicting electrified combustion using the hypersonic task-based research solver 1-gen-2022 Di Renzo, M.
Large-Eddy Simulations of Idealized Shock/Boundary-Layer Interactions with Crossflow 1-gen-2022 Larsson, J.; Kumar, V.; Oberoi, N.; Di Renzo, M.; Pirozzoli, S.
LES of the Sandia Flame D Using an FPV Combustion Model 1-gen-2015 Di Renzo, M.; Coclite, A.; De Tullio, M. D.; De Palma, P.; Pascazio, G.
Mitigation of turbophoresis in particle-laden turbulent channel flows by using incident electric fields 1-gen-2019 Di Renzo, M.; Johnson, P. L.; Bassenne, M.; Villafane, L.; Urzay, J.
Modulation of interphase, cross-scale momentum transfer of turbulent flows by preferentially concentrated inertial particles 1-gen-2022 Nabavi, M.; Di Renzo, M.; Kim, J.
Publisher Correction: Aerodynamic generation of electric fields in turbulence laden with charged inertial particles (Nature Communications (2018) DOI: 10.1038/s41467-018-03958-7) 1-gen-2018 Di Renzo, M.; Urzay, J.
Scaling implicit parallelism via dynamic control replication 1-gen-2021 Bauer, M.; Lee, W.; Slaughter, E.; Jia, Z.; Di Renzo, M.; Papadakis, M.; Shipman, G.; Mccormick, P.; Garland, M.; Aiken, A.
The breakdown of self-similarity in electrified counterflow diffusion flames 1-gen-2019 Di Renzo, M.; Pascazio, G.; Urzay, J.
The effects of incident electric fields on counterflow diffusion flames 1-gen-2018 Di Renzo, M.; Urzay, J.; De Palma, P.; de Tullio, M. D.; Pascazio, G.