Pascazio, Giuseppe

Nome completo

Pascazio, Giuseppe

Afferenza

Dipartimento di Ingegneria dell'Innovazione

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Risultati 1 - 11 di 11 (tempo di esecuzione: 0.027 secondi).

A mixture fraction space model for counterflow diffusion flames with incident electric field

2020-01-01 Di Renzo, M.; Pascazio, G.

An efficient flamelet progress-variable method for modeling non-premixed flames in weak electric fields

2017-01-01 Di Renzo, M.; De Palma, P.; de Tullio, M. D.; Pascazio, G.

Assessment of a high-order shock-capturing central-difference scheme for hypersonic turbulent flow simulations

2021-01-01 Sciacovelli, L.; Passiatore, D.; Cinnella, P.; Pascazio, G.

Direct numerical simulation of subharmonic second-mode breakdown in hypersonic boundary layers with finite-rate chemistry

2024-01-01 Passiatore, D.; Gloerfelt, X.; Sciacovelli, L.; Pascazio, G.; Cinnella, P.

Evaluation of a high-order central-difference solver for highly compressible flows out of thermochemical equilibrium

2024-01-01 Passiatore, D.; Sciacovelli, L.; Cinnella, P.; Pascazio, G.

Finite-rate chemistry effects in turbulent hypersonic boundary layers: A direct numerical simulation study

2021-01-01 Passiatore, D.; Sciacovelli, L.; Cinnella, P.; Pascazio, G.

LES of the Sandia Flame D Using an FPV Combustion Model

2015-01-01 Di Renzo, M.; Coclite, A.; De Tullio, M. D.; De Palma, P.; Pascazio, G.

Shock impingement on a transitional hypersonic high-enthalpy boundary layer

2023-01-01 Passiatore, D.; Sciacovelli, L.; Cinnella, P.; Pascazio, G.

The breakdown of self-similarity in electrified counterflow diffusion flames

2019-01-01 Di Renzo, M.; Pascazio, G.; Urzay, J.

The effects of incident electric fields on counterflow diffusion flames

2018-01-01 Di Renzo, M.; Urzay, J.; De Palma, P.; de Tullio, M. D.; Pascazio, G.

Thermochemical non-equilibrium effects in turbulent hypersonic boundary layers

2022-01-01 Passiatore, D.; Sciacovelli, L.; Cinnella, P.; Pascazio, G.

Titolo	Data di pubblicazione	Autore(i)
A mixture fraction space model for counterflow diffusion flames with incident electric field	1-gen-2020	Di Renzo, M.; Pascazio, G.
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.
Assessment of a high-order shock-capturing central-difference scheme for hypersonic turbulent flow simulations	1-gen-2021	Sciacovelli, L.; Passiatore, D.; Cinnella, P.; Pascazio, G.
Direct numerical simulation of subharmonic second-mode breakdown in hypersonic boundary layers with finite-rate chemistry	1-gen-2024	Passiatore, D.; Gloerfelt, X.; Sciacovelli, L.; Pascazio, G.; Cinnella, P.
Evaluation of a high-order central-difference solver for highly compressible flows out of thermochemical equilibrium	1-gen-2024	Passiatore, D.; Sciacovelli, L.; Cinnella, P.; Pascazio, G.
Finite-rate chemistry effects in turbulent hypersonic boundary layers: A direct numerical simulation study	1-gen-2021	Passiatore, D.; Sciacovelli, L.; Cinnella, P.; Pascazio, G.
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.
Shock impingement on a transitional hypersonic high-enthalpy boundary layer	1-gen-2023	Passiatore, D.; Sciacovelli, L.; Cinnella, P.; Pascazio, G.
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.
Thermochemical non-equilibrium effects in turbulent hypersonic boundary layers	1-gen-2022	Passiatore, D.; Sciacovelli, L.; Cinnella, P.; Pascazio, G.