Obserwuj
Marco De Paoli
Marco De Paoli
Inne imiona/nazwiskaMarco DePaoli, M. D. Paoli
University of Twente - Physics of Fluids Group
Zweryfikowany adres z tuwien.ac.at - Strona główna
Tytuł
Cytowane przez
Cytowane przez
Rok
Influence of anisotropic permeability on convection in porous media: Implications for geological CO2 sequestration
M De Paoli, F Zonta, A Soldati
Physics of Fluids 28 (5), 056601, 2016
662016
Dissolution in anisotropic porous media: Modelling convection regimes from onset to shutdown
M De Paoli, F Zonta, A Soldati
Physics of Fluids 29 (2), 026601, 2017
592017
Short-range exposure to airborne virus transmission and current guidelines
J Wang, M Alipour, G Soligo, A Roccon, M De Paoli, F Picano, A Soldati
Proceedings of the National Academy of Sciences 118 (37), e2105279118, 2021
552021
Viscosity-modulated breakup and coalescence of large drops in bounded turbulence
A Roccon, M De Paoli, F Zonta, A Soldati
Physical Review Fluids 2 (8), 083603, 2017
392017
Rayleigh-Taylor convective dissolution in confined porous media
M De Paoli, F Zonta, A Soldati
Physical Review Fluids 4 (2), 023502, 2019
282019
Influence of reservoir properties on the dynamics of a migrating current of carbon dioxide
M De Paoli
Physics of Fluids 33 (1), 2021
232021
How non-Darcy effects influence scaling laws in Hele-Shaw convection experiments
M De Paoli, M Alipour, A Soldati
Journal of Fluid Mechanics 892, A41, 2020
232020
Towards the ultimate regime in Rayleigh–Darcy convection
S Pirozzoli, M De Paoli, F Zonta, A Soldati
Journal of Fluid Mechanics 911, R4, 2021
192021
Long non-axisymmetric fibres in turbulent channel flow
M Alipour, M De Paoli, S Ghaemi, A Soldati
Journal of Fluid Mechanics 916, A3, 2021
172021
Universal behavior of scalar dissipation rate in confined porous media
M De Paoli, V Giurgiu, F Zonta, A Soldati
Physical Review Fluids 4 (10), 101501, 2019
152019
Concentration-based velocity reconstruction in convective Hele–Shaw flows
M Alipour, M De Paoli, A Soldati
Experiments in Fluids 61, 1-16, 2020
82020
Experimental assessment of mixing layer scaling laws in Rayleigh-Taylor instability
M De Paoli, D Perissutti, C Marchioli, A Soldati
Physical Review Fluids 7 (9), 093503, 2022
62022
Influence of Reynolds number on the dynamics of rigid, slender and non-axisymmetric fibres in channel flow turbulence
M Alipour, M De Paoli, A Soldati
Journal of Fluid Mechanics 934, A18, 2022
62022
Strong Rayleigh–Darcy convection regime in three-dimensional porous media
M De Paoli, S Pirozzoli, F Zonta, A Soldati
Journal of Fluid Mechanics 943, A51, 2022
52022
Convective dissolution in porous media: experimental investigation in Hele‐Shaw cell
M Alipour, M De Paoli
PAMM 19 (1), e201900236, 2019
42019
Convective mixing in porous media: a review of Darcy, pore-scale and Hele-Shaw studies
M De Paoli
The European Physical Journal E 46 (12), 129, 2023
22023
Convective dissolution in confined porous media
M De Paoli, CJ Howland, R Verzicco, D Lohse
arXiv preprint arXiv:2310.04068, 2023
22023
Measurements of spinning and tumbling rates of micro-plastic fibres
V Giurgiu, GCA Caridi, M De Paoli, A Soldati
EGU24, 2024
2024
Correction: Convective mixing in porous media: a review of Darcy, pore-scale and Hele-Shaw studies
M De Paoli
The European Physical Journal E 47 (1), 5, 2024
2024
Measurements of spinning and tumbling rates of Kolmogorov scale micro-plastic fibres
V Giurgiu, G Caridi, M DePaoli, A Soldati
Bulletin of the American Physical Society, 2023
2023
Nie można teraz wykonać tej operacji. Spróbuj ponownie później.
Prace 1–20