References

Model validations with analytical, experimental and numerical data in different flow conditions and scales of flow can be found, among others, in the references listed below.

  • De Marchis, M., Milici, B., Napoli, E., Solid sediment transport in turbulent channel flow over irregular rough boundaries, International Journal of Heat and Fluid Flow, 2017; 65, pp. 114-126. Journal link.
  • Napoli, E., De Marchis, M., Gianguzzi, C., Milici, B., Monteleone, A., A coupled Finite Volume–Smoothed Particle Hydrodynamics method for incompressible flows, Computer Methods in Applied Mechanics and Engineering, 2016; 310, pp. 674-693. Journal link.
  • De Marchis, M., Milici, B., Napoli, E., Numerical observations of turbulence structure modification in channel flow over 2D and 3D rough walls, International Journal of Heat and Fluid Flow, 2016; 56, pp. 108-123. Journal link.
  • De Marchis, M., Milici, B., Sardina, G., Napoli, E., Interaction between turbulent structures and particles in roughened channel, International Journal of Multiphase Flow, 2016; 78, pp. 117-131. Journal link.
  • Napoli, E., De Marchis, M., Vitanza, E., PANORMUS-SPH. A new Smoothed Particle Hydrodynamics solver for incompressible flows, Computers and Fluids, 2015; 106, pp. 185-195. Journal link.
  • Calomino, F., Tafarojnoruz, A., De Marchis, M., Gaudio, R., Napoli, E., Experimental and numerical study on the flow field and friction factor in a pressurized corrugated pipe, Journal of Hydraulic Engineerings, 2015; 141(11). Journal link.
  • Milici B., De Marchis M., Sardina G., Napoli E., Effects of roughness on particle dynamics in turbulent channel flows: a DNS approach, Journal of Fluid Mechanics, 2014; 739, pp. 465-478. Journal link.
  • De Marchis M., Freni G., Napoli E., Modelling of E. coli distribution in coastal areas subjected to combined sewer overflows, Water Science and Technology, 2013; 68 (5), pp. 1123-1136. Journal link.
  • De Marchis M., Napoli E., Effects of irregular two-dimensional and three-dimensional surface roughness in turbulent channel flows, International Journal of Heat and Fluid Flow, 2012; 36, pp. 7-17. Journal link.
  • De Marchis M., Ciraolo, G., Nasello, C., Napoli E., Wind- and tide-induced currents in the Stagnone lagoon (Sicily), Environmental Fluid Mechanics, 2012; 12 (1), pp. 81-100. Journal link.
  • De Marchis M., Napoli E., Armenio V., Turbulence structures over irregular rough surfaces, Journal of Turbulence, 2010; 11(3), 1-32. Journal link.
  • Roman F., Milici B., Napoli E., Armenio V., An improved Immersed Boundary Method for curvilinear grids, Computers & Fluids, 2009. Journal link.
  • De Marchis M., Napoli E. The eff ect of geometrical parameters on the discharge capacity of meandering compound channels. Advances in Water Resources, 2008; 31(12):1662-1673. Journal link.
  • Lipari G., Napoli E., The impacts of the ALE and hydrostatic-pressure approaches on the energy budget of unsteady free-surface flows. Computer & Fluids, 2008; 37, 656-673. Journal link.
  • Napoli E., Armenio V., De Marchis M., Turbulent flows over irregularly roughened walls. Journal of Fluid Mechanics, 2008; 613, 385-394. Journal link.
  • Jozsa J., Milici B., Napoli E., Numerical simulation of the internal boundary-layer development and comparison with atmospheric data, Boundary-Layer Meteorology. 2007; 59-175. Journal link.
  • Cioffi, F., Gallerano, F., Napoli, E., Three-dimensional numerical simulation of wind-driven flows in closed channels and basins, Journal of Hydraulic Research, 2005; 43(3), pp. 290-301. Journal link.