BERTINI, DAVIDE

BERTINI, DAVIDE  

Ingegneria Industriale  

Mostra records
Risultati 1 - 19 di 19 (tempo di esecuzione: 0.035 secondi).
Titolo Data di pubblicazione Autore(i) File
Analysis of the GT26 single-shaft gas turbine performance and emissions 2017 Gamannossi, Andrea*; Bertini, Davide; Adolfo, Dominique; Carcasci, Carlo
Assessment of scale resolved CFD methods for the investigation of lean burn spray flames 2016 Andreini, A.; Bertini, D.; Mazzei, L.; Puggelli, S
Assessment of Scale-Resolved Computational Fluid Dynamics Methods for the Investigation of Lean Burn Spray Flames 2017 Puggelli, Stefano; Bertini, Davide; Mazzei, Lorenzo; Andreini, Antonio
High-fidelity prediction of metal temperature in gas turbine combustors using a loosely coupled multiphysics approach 2019 Davide Bertini
Large-Eddy Simulation of a turbulent spray flame using the flamelet generated manifold approach 2015 Andreini, A.; Bertini, D.; Facchini, B.; Puggelli, S
Methane swirl-stabilized lean burn flames: Assessment of scale-resolving simulations 2017 Pampaloni, Daniele*; Bertini, Davide; Puggelli, Stefano; Mazzei, Lorenzo; Andreini, Antonio
Modeling strategies for large eddy simulation of lean burn spray flames 2018 Puggelli, S.*; Bertini, D.; Mazzei, L.; Andreini, A.
Modelling soot production and thermal radiation for turbulent diffusion flames 2017 Mazzei, Lorenzo*; Puggelli, Stefano; Bertini, Davide; Pampaloni, Daniele; Andreini, Antonio
Modelling strategies for large-eddy simulation of lean burn spray flames 2017 Puggelli, S.*; Bertini, D.; Mazzei, L.; Andreini, A.
Multi-coupled numerical simulations of the DLR Generic Single Sector Combustor 2018 Puggelli, S.*; Paccati, S.; Bertini, D.; Mazzei, L.; Giusti, A.; Andreini, A.
Multiphysics numerical investigation of an aeronautical lean burn combustor 2019 Bertini D.; Mazzei L.; Andreini A.; Facchini B.
Numerical analyses of a high pressure sooting flame with multiphysics approach 2018 Paccati S.; Bertini D.; Puggelli S.; Mazzei L.; Andreini A.; Facchini B.
Numerical and experimental investigation on an effusion-cooled lean burn aeronautical combustor: Aerothermal field and emissions 2018 Mazzei, L.*; Puggelli, S.; Bertini, D.; Andreini, A.; Facchini, B.; Vitale, I.; Santoriello, A.
Numerical and experimental investigation on an effusion-cooled lean burn aeronautical combustor: Aerothermal field and emissions 2019 Mazzei L.; Puggelli S.; Bertini D.; Andreini A.; Facchini B.; Vitale I.; Santoriello A.
Numerical and experimental investigation on an effusion-cooled lean burn aeronautical combustor: Aerothermal field and metal temperature 2018 Bertini, D.*; Mazzei, L.; Puggelli, S.; Andreini, A.; Facchini, B.; Bellocci, L.; Santoriello, A.
Prediction of liner metal temperature of an aeroengine combustor with multi-physics scale-resolving CFD 2021 Bertini D.; Mazzei L.; Andreini A.
Scale Adaptive Simulations of a Swirl Stabilized Spray Flame Using Flamelet Generated Manifold 2016 Puggelli, Stefano; Bertini, Davide; Mazzei, Lorenzo; Andreini, Antonio
Thermodynamic Analysis of an Aircraft Engine to estimate performance and emissions at LTO cycle 2017 Adolfo, Dominique*; Bertini, Davide; Gamannossi, Andrea; Carcasci, Carlo
Turbulent flow-field effects in a hybrid CFD-CRN model for the prediction of NOxand CO emissions in aero-engine combustors 2018 Innocenti, A.; Andreini, A.*; Bertini, D.; Facchini, B.; Motta, M.