Sfoglia per Autore
1D-3D coupled approach for the evaluation of the in-cylinder conditions for Gasoline Compression Ignition Combustion
2022 Viscione D.; Bianchi G.M.; Ravaglioli V.; Falfari S.; Cazzoli G.; Silvagni G.; Mariani V.; Corsi M.
A numerical methodology based on CFD and plasma chemical kinetics simulations: a focus on the cyano radical
2022 Mariani V.; Civita G. L.; Cazzoli G.; Falfari S.; Ghedini E.; Merola S.; Irimescu A.; Antetomaso C.
Application of a one-dimensional fuel-oil dilution model coupled with an empirical droplet-to-film formation strategy for predicting in-cylinder oil effects in a direct injection engine
2022 De Renzis E.; Mariani V.; Bianchi G.M.; Falfari S.; Cazzoli G.
Numerical Evaluation of the Effect of Fuel Blending with CO2 and H2 on the Very Early Corona-Discharge Behavior in Spark Ignited Engines
2022 Mariani, Valerio; La Civita, Giorgio; Pulga, Leonardo; Ugolini, Edoardo; Ghedini, Emanuele; Falfari, Stefania; Cazzoli, Giulio; Bianchi, Gian Marco; Forte, Claudio
Comparison of Modern Powertrains Using an Energy Model Based on Well-to-Miles Analysis
2023 Falfari, Stefania ; Mariani, Valerio ; Bianchi, Gian Marco ; Cazzoli, Giulio
A Numerical Methodology to Test the Lubricant Oil Evaporation and Its Thermal Management-Related Properties Derating in Hydrogen-Fueled Engines
2023 De Renzis, Edoardo; Mariani, Valerio; Bianchi, Gian Marco; Cazzoli, Giulio; Falfari, Stefania
Application of a One-Dimensional Dilution and Evaporation Lubricant Oil Model to Predict Oil Evaporation under Different Engine Operative Conditions Considering a Large Hydrogen-Fuelled Engine
2023 De Renzis, Edoardo ; Mariani, Valerio ; Bianchi, Gian Marco ; Falfari, Stefania ; Cazzoli, Giulio
Hydrogen Application as a Fuel in Internal Combustion Engines
2023 Falfari S.; Cazzoli G.; Mariani V.; Bianchi G.M.
Legenda icone
- file ad accesso aperto
- file disponibili sulla rete interna
- file disponibili agli utenti autorizzati
- file disponibili solo agli amministratori
- file sotto embargo
- nessun file disponibile