Publications
[17] G.A. Zampogna, P.G. Ledda, K. Wittkowski, F. Gallaire “Homogenization theory captures macroscopic flow discontinuities across Janus Membranes”, Journal of Fluid Mechanics, 2023, 970, A39.
[16] F. Caruso-Lombardi, A. Bongarzone, G.A. Zampogna, S. Camarri, F. Gallaire, P.G. Ledda, "Von Kármán vortex street past a permeable circular cylinder: Two dimensional flow and dynamic-mode-decomposition-based secondary stability analysis", Physical Review Fluids, 2023, 8, 083901.
[15] G.A. Zampogna, E. Boujo, "From thin plates to Ahmed bodies: linear and weakly nonlinear stability of rectangular prisms", Journal of Fluid Mechanics, 2023, 966, A19.
[14] G. Vagnoli, G.A. Zampogna, S. Camarri, F. Gallaire, P.G. Ledda, "Permeability sets the linear path instability of buoyancy-driven disks", Journal of Fluid Mechanics, 2023, 955, A29.
[13] G. A. Zampogna, P.G. Ledda, F. Gallaire, "Transport across thin membranes: effective solute flux jump", Physics of Fluids, 2022, 34, 083113.
[12] M. Ciuti, G.A. Zampogna, F. Gallaire, S. Camarri, P.G. Ledda, "On the effect of a penetrating recirculation region on the bifurcations of the flow past a permeable sphere", Physics of Fluids, 2021, 33, 124103.
[11] P.G. Ledda, E. Boujo, S. Camarri, F. Gallaire, G.A. Zampogna, "Homogenisation-Based design of microstructures membranes: wake flows past permeable shells", Journal of Fluid Mechanics, 2021, 927 A31.[10] G. A. Zampogna, F. Gallaire, "Effective stress jump across membranes", Journal of Fluid Mechanics, 2020, 892, A9,
[9] G. A. Zampogna, S. Naqvi, J. Magnaudet, A. Bottaro, "Compliant riblets: problem formulation and effective macrostructural properties", Journal of Fluid and Structures, 2019, 91, 102708.
[8] G. A. Zampogna, J. Magnaudet, A. Bottaro, "Generalised slip condition over rough surfaces", Journal of Fluid Mechanics,2019, 858: 407–436.
[7] G. A. Zampogna, U. Lacis, S. Bagheri, A. Bottaro, "Modelling waves in fluids flowing over and through poroelastic media", International Journal of Multiphase flows, 2018.
[6] N. Luminari, G. A. Zampogna, C. Airiau, A. Bottaro, "A penalization method to handle the interface between a free fluid region and a fibrous porous medium", Journal of Porous Media, 2019, 22, 1095–1107.
[5] G. A. Zampogna, A. Bottaro, "A homogenized model of flows over and through poroelastic media", Meccanica, 2017, 52: 1797--1808
[4] U. Lacis, G. A. Zampogna, S. Bagheri, "Computational continuum model of poroelastic beds", Proceedings of the Royal Society A, 2017, 473: 20160932.
[3] G. A. Zampogna, F. Pluvinage, A. Kourta, A. Bottaro, "Instability in canopy flows", Water Resources Research, 2016, 52: 5421--5432.
[2] G. A. Zampogna, A. Bottaro, "Fluid flow over and through a regular bundle of rigid fibres", Journal of Fluid Mechanics, 2016, 792: 5--35.
[1] H. Wedin, A. Bottaro, A. Hanifi, G. A. Zampogna, "Unstable flow structures in the Blasius boundary layer", The European Physical Journal, 2014, 37: 34.
[16] F. Caruso-Lombardi, A. Bongarzone, G.A. Zampogna, S. Camarri, F. Gallaire, P.G. Ledda, "Von Kármán vortex street past a permeable circular cylinder: Two dimensional flow and dynamic-mode-decomposition-based secondary stability analysis", Physical Review Fluids, 2023, 8, 083901.
[15] G.A. Zampogna, E. Boujo, "From thin plates to Ahmed bodies: linear and weakly nonlinear stability of rectangular prisms", Journal of Fluid Mechanics, 2023, 966, A19.
[14] G. Vagnoli, G.A. Zampogna, S. Camarri, F. Gallaire, P.G. Ledda, "Permeability sets the linear path instability of buoyancy-driven disks", Journal of Fluid Mechanics, 2023, 955, A29.
[13] G. A. Zampogna, P.G. Ledda, F. Gallaire, "Transport across thin membranes: effective solute flux jump", Physics of Fluids, 2022, 34, 083113.
[12] M. Ciuti, G.A. Zampogna, F. Gallaire, S. Camarri, P.G. Ledda, "On the effect of a penetrating recirculation region on the bifurcations of the flow past a permeable sphere", Physics of Fluids, 2021, 33, 124103.
[11] P.G. Ledda, E. Boujo, S. Camarri, F. Gallaire, G.A. Zampogna, "Homogenisation-Based design of microstructures membranes: wake flows past permeable shells", Journal of Fluid Mechanics, 2021, 927 A31.[10] G. A. Zampogna, F. Gallaire, "Effective stress jump across membranes", Journal of Fluid Mechanics, 2020, 892, A9,
[9] G. A. Zampogna, S. Naqvi, J. Magnaudet, A. Bottaro, "Compliant riblets: problem formulation and effective macrostructural properties", Journal of Fluid and Structures, 2019, 91, 102708.
[8] G. A. Zampogna, J. Magnaudet, A. Bottaro, "Generalised slip condition over rough surfaces", Journal of Fluid Mechanics,2019, 858: 407–436.
[7] G. A. Zampogna, U. Lacis, S. Bagheri, A. Bottaro, "Modelling waves in fluids flowing over and through poroelastic media", International Journal of Multiphase flows, 2018.
[6] N. Luminari, G. A. Zampogna, C. Airiau, A. Bottaro, "A penalization method to handle the interface between a free fluid region and a fibrous porous medium", Journal of Porous Media, 2019, 22, 1095–1107.
[5] G. A. Zampogna, A. Bottaro, "A homogenized model of flows over and through poroelastic media", Meccanica, 2017, 52: 1797--1808
[4] U. Lacis, G. A. Zampogna, S. Bagheri, "Computational continuum model of poroelastic beds", Proceedings of the Royal Society A, 2017, 473: 20160932.
[3] G. A. Zampogna, F. Pluvinage, A. Kourta, A. Bottaro, "Instability in canopy flows", Water Resources Research, 2016, 52: 5421--5432.
[2] G. A. Zampogna, A. Bottaro, "Fluid flow over and through a regular bundle of rigid fibres", Journal of Fluid Mechanics, 2016, 792: 5--35.
[1] H. Wedin, A. Bottaro, A. Hanifi, G. A. Zampogna, "Unstable flow structures in the Blasius boundary layer", The European Physical Journal, 2014, 37: 34.
In progress:
- Wittkowski et al., "Adjoint-based homogenization for aperiodic thin porous structures"
- Wittkowski et al., "Inertial flows past thin porous structures"
- Molefe et al. "Dip coating of rough surfaces"
- Zampogna et al. "Homogenization of interfacial flows"