Publications

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  A. Roccon, G. Amati, L. Brandt, D. Calhoun, P. Costa, W. Lu, S. Pirozzoli, D. Richter, M. Umair, D. You, T. Zahtila, and C. Marchioli; GPU-accelerated simulations of turbulence: Review of current applications and future perspectives, Phys. Rev. Fluids (2026). article
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  E. Milocco, A. Roccon and A. Soldati; Viscoelastic effects on turbulent drag reduction via a non-Newtonian lubricating layer, J. Fluid Mech. (2026). article
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  A. Roccon; MHIT36: Extension to wall-bounded turbulence and scalar transport, Comput. Phys. Commun. (2026). article
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  A. Roccon, U. Bau, F. Mangani and A. Soldati; Turbulent emulsions of hydrophilic and lipophilic surfactants IJFM (2026) article
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  A. Roccon and M. Bucci; Phase-Field Modeling of Boiling Heat Transfer, FEDSM (2025). article
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  A. Roccon, L. Enzenberger, D. Zaza and A. Soldati; MHIT36: A phase-field code for GPU simulations of multiphase homogeneous isotropic turbulence, Comput. Phys. Commun. (2025). article
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  D. Procacci, A. Roccon, J. Solsvik and A. Soldati; Heat transfer in drop-laden low-Prandtl-number channel turbulence, J. Fluid Mech. (2025), 1015, A19. article
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  U. Bau, F. Mangani, A. Roccon and A. Soldati; Transfer dynamics of hydrophilicand lipophilic surfactants in turbulent oil−water emulsions Langmuir (2025) article
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  A. Roccon, G. Soligo and A. Soldati; FLOW36: A spectral solver for phase-field based multiphase turbulence simulations on heterogeneous computing architectures, Comput. Phys. Commun. (2025), 109640. article
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  M. Schenk, G. Giamagas, A. Roccon, A. Soldati and F. Zonta; Computationally efficient and interface accurate dual-grid phase-field simulation of turbulent drop-laden flows, J. Fluids Eng. (2024), 146 (12). article
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  A. Roccon; Boiling heat transfer by phase-field method, Acta Mech. (2024) article
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  A. Roccon; A GPU-ready pseudo-spectral method for direct numerical simulations of multiphase turbulence, Proc. Comput. Sci. (2024), 240, 17-30. article
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  A. Roccon, F. Zonta and A. Soldati; Turbulent drag reduction in water-lubricated channel flow of highly viscous oil, Phys. Rev. Fluids (2024), 9 (5), 054611. article
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  G. Giamagas, A. Roccon, F. Zonta and A. Soldati; Turbulence and interface waves in stratified oil–water channel flow at large viscosity ratio, Flow Turb. & Comb. (2024), 112 (1), 15-31. article
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  F. Mangani, A. Roccon, F. Zonta and A. Soldati; Heat Transfer in Drop-Laden Turbulent Flows, J. Fluid Mech. (2024), 978, A12. article
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  A. Roccon, F. Zonta and A. Soldati; Phase-field modeling of complex interface dynamics in drop-laden turbulence, Phys. Rev. Fluids (2023), 8 (9), 090501. article
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  G. Giamagas, A. Roccon, F. Zonta and A. Soldati; Propagation of capillary waves in two-layer oil–water turbulent flow, J. Fluid Mech. (2023), 960, A5. article
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  F. Mangani, G. Soligo, A. Roccon, and A. Soldati; Influence of density and viscosity on deformation, breakage, and coalescence of bubbles in turbulence, Phys. Rev. Fluids (2022), 7 (5), 053601. article
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  J. Wang, F. Dalla Barba, A. Roccon, G. Sardina, A. Soldati, F. Picano; Modelling the direct virus exposure risk associated with respiratory events, Royal Soc. Interface (2022), 19 (186), 20210819. article
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  J. Wang, M. Alipour, G. Soligo, A. Roccon, M. De Paoli, F. Picano, A. Soldati; Short-range exposure to airborne virus transmission and current guidelines, Proc. Nat. Acad. Sci. (2021), 118 (37), e2105279118. article
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  G. Soligo, A. Roccon, and A. Soldati; Turbulent flows with drops and bubbles: what numerical simulations can tell us—Freeman scholar lecture, J. Fluids Eng. (2021), 143 (8), 080801. article
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  A. Roccon, F. Zonta and A. Soldati; Energy balance in lubricated drag-reduced turbulent channel flow, J. Fluid Mech. (2021) article
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  G. Soligo, A. Roccon and A. Soldati; Effect of surfactant-laden droplets on turbulent flow topology, Phys. Rev. Fluids (2020), 5 (7), 073606. article
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  G. Soligo, A. Roccon and A. Soldati; Deformation of clean and surfactant-laden droplets in shear flow, Mecc. (2020), 55, 371-386. article
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  G. Soligo, A. Roccon and A. Soldati; Breakage, coalescence and size distribution of surfactant-laden droplets in turbulent flow, J. Fluid Mech. (2019), 881, 244-282. article
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  A. Roccon, F. Zonta and A. Soldati; Turbulent drag reduction by compliant lubricating layer, J. Fluid Mech. (2019), 863, R1. article
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  G. Soligo, A. Roccon and A. Soldati; Mass-conservation-improved phase field methods for turbulent multiphase flow simulation, Acta Mech. (2019), 230, 683-696. article
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  G. Soligo, A. Roccon and A. Soldati; Coalescence of surfactant-laden drops by phase field method, J. Comput. Phys. (2019), 376, 1292-1311. article
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  S. Ahmadi, A. Roccon, F. Zonta and A. Soldati; Turbulent drag reduction in channel flow with viscosity stratified fluids, Comput. & Fluids (2018), 176, 260-265. article
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  S. Ahmadi, A. Roccon, F. Zonta and A. Soldati; Turbulent drag reduction by a near wall surface tension active interface, Flow. Turb. & Comb. (2018), 100, 979-993. article
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  A. Roccon, M. De Paoli, F. Zonta and A. Soldati; Viscosity-modulated breakup and coalescence of large drops in bounded turbulence, Phys. Rev. Fluids (2017), 2 (8). article