| | Preview | Author(s) | Title | Type | Issue Date |
| 1 | | Mangani, Francesca ; Roccon, Alessio ; Zonta, Francesco ; Soldati, Alfredo | Heat transfer in drop-laden turbulence | Article Artikel | 10-Jan-2024 |
| 2 | | Giamagas, Georgios ; Zonta, Francesco ; Roccon, Alessio ; Soldati, Alfredo | Turbulence and Interface Waves in Stratified Oil–Water Channel Flow at Large Viscosity Ratio | Article Artikel | Jan-2024 |
| 3 | | Zonta, Francesco ; Giamagas, Georgios ; Roccon, Alessio ; Soldati, Alfredo | Propagation of capillary waves in two-layer oilwater turbulent flow | Presentation Vortrag | 20-Nov-2023 |
| 4 | | Roccon, Alessio ; Mangani, Francesca ; Zonta, Francesco ; Soldati, Alfredo | Heat Transfer in drop-laden turbulence | Presentation Vortrag | 19-Nov-2023 |
| 5 | | Song, Zhiwei ; Zonta, Francesco ; Ogorek, Lucas León Peralta ; Bastegaard, Viggo Klint ; Herzog, Max ; Pellegrini, Elisa ; Pedersen, Ole | The quantitative importance of key root traits for radial water loss under low water potential | Article Artikel | 29-Sep-2023 |
| 6 | | Roccon, Alessio ; Zonta, Francesco ; Soldati, Alfredo | Phase-field modeling of complex interface dynamics in drop-laden turbulence | Article Artikel | 12-Sep-2023 |
| 7 | | Chibbaro, Sergio ; Reyes, Jair ; Rossi, Maurice ; Soldati, Alfredo ; Zonta, Francesco | Coherent structure modification by a shear acting at the surface of a turbulent open channel | Article Artikel | 11-Sep-2023 |
| 8 | | Giamagas, Georgios ; Zonta, Francesco ; Roccon, Alessio ; Soldati, Alfredo | Propagation of capillary waves in two-layer oil–water turbulent flow | Article Artikel | 10-Apr-2023 |
| 9 | | Giamagas, Georgios ; Zonta, Francesco ; Roccon, Alessio ; Soldati, Alfredo | Turbulent Poiseuille flow of two immiscible liquid layers inside a channel | Presentation Vortrag | 22-Nov-2022 |
| 10 | | Ghodrati-Misek, Mojgan ; Schlöglhofer, Thomas ; Gross, Christoph ; Maurer, Alexander ; Zimpfer, Daniel ; Beitzke, Dietrich ; Zonta, Francesco ; Moscato, Francesco ; Schima, Heinrich ; Aigner, Philipp | Left atrial appendage occlusion in ventricular assist device patients to decrease thromboembolic events: A computer simulation study | Article Artikel | 29-Sep-2022 |
| 11 | | De Paoli, Marco ; Pirozzoli, Sergio ; Zonta, Francesco ; Soldati, Alfredo | Strong Rayleigh–Darcy convection regime in three-dimensional porous media | Article Artikel | 25-Jul-2022 |
| 12 | | Ghodrati, Mojgan ; Schlöglhofer, Thomas ; Maurer, Alexander ; Khienwad, Thananya ; Zimpfer, Daniel ; Beitzke, Dietrich ; Zonta, Francesco ; Moscato, Francesco ; Schima, Heinrich ; Aigner, Philipp | Effects of the atrium on intraventricular flow patterns during mechanical circulatory support | Artikel Article | Apr-2022 |
| 13 | | Zonta, Francesco ; Hadi Sichani, Pejman ; Soldati, Alfredo | Interaction between thermal stratification and turbulence in channel flow | Article Artikel | 2022 |
| 14 | | Pirozzoli, Sergio ; De Paoli, Marco ; Zonta, Francesco ; Soldati, Alfredo | Towards the ultimate regime in Rayleigh–Darcy convection | Article Artikel | 25-Mar-2021 |
| 15 | | Roccon, Alessio ; Zonta, Francesco ; Soldati, Alfredo | Energy balance in lubricated drag-reduced turbulent channel flow | Article Artikel | 25-Mar-2021 |
| 16 | | Roccon, Alessio ; Zonta, Francesco ; Soldati, Alfredo | Energy balance in lubricated drag-reduced turbulent channel flow | Artikel Article | 2021 |
| 17 | | Zhang, Xinchen ; Zonta, Francesco ; Tian, Zhao F. ; Nathan, Graham J. ; Chin, Rey C. ; Soldati, Alfredo | Dynamics of semi- and neutrally-buoyant particles in thermally stratified turbulent channel flow | Artikel Article | 2021 |
| 18 | | Pirozzoli, Sergio ; De Paoli, Marco ; Zonta, Francesco ; Soldati, Alfredo | Towards the ultimate regime in Rayleigh-Darcy convection | Artikel Article | 2021 |
| 19 | | Hadi Sichani, Pejman ; Zonta, Francesco ; Soldati, Alfredo | Increasing stratification in turbulent channel flow at Reτ=1000 | Präsentation Presentation | 2021 |
| 20 | | Zonta, Francesco ; Pirozzoli, Sergio ; De Paoli, Marco ; Soldati, Alfredo | Towards the ultimate regime in Rayleigh-Darcy convection | Präsentation Presentation | 2021 |