Giorgio Besagni

Ricerca sul Sistema Energetico, Italy
Energy Systems Development Department

Scopus profile: link
Publons: link
Google Scholar profile: link

Selected Publications:

  1. Besagni, G., Cristiani, N., Croci, L., Guédon, G. R., Inzoli, F. (2021). Multi-scale evaluation of ejector performances: The influence of refrigerants and ejector design. Applied Thermal Engineering, 186, 116502. doi:

  2. Besagni, G., Premoli Vilà, L., Borgarello, M., Trabucchi, A., Merlo, M., Rodeschini, J., Finazzi, F. (2021). Electrification pathways of the Italian residential sector under socio-demographic constrains: Looking towards 2040. Energy, 217, 119438. doi: 

  3. Besagni, G. (2021). Bubble column fluid dynamics: A novel perspective for flow regimes and comprehensive experimental investigations. International Journal of Multiphase Flow, 135, 103510. doi: 

  4. Besagni, G., Guédon, G. R., Inzoli, F. (2018). Computational fluid-dynamic modeling of the mono-dispersed homogeneous flow regime in bubble columns. Nuclear Engineering and Design, 331, 222–237. doi: 

  5. Besagni, G., Gallazzini, L., Inzoli, F. (2018). Effect of gas sparger design on bubble column hydrodynamics using pure and binary liquid phases. Chemical Engineering Science, 176, 116–126. doi: 

  6. Besagni, G., Inzoli, F. (2017). Novel gas holdup and regime transition correlation for two-phase bubble columns. Journal of Physics: Conference Series, 923, 012011. doi: 

  7. Besagni, G., Inzoli, F., Ziegenhein, T., Hessenkemper, H., Lucas, D. (2017). Bubble aspect ratio in dense bubbly flows: experimental studies in low Morton-number systems. Journal of Physics: Conference Series, 923, 012014. doi: 

  8. Besagni, G., Inzoli, F. (2017). The effect of liquid phase properties on bubble column fluid dynamics: Gas holdup, flow regime transition, bubble size distributions and shapes, interfacial areas and foaming phenomena. Chemical Engineering Science, 170, 270–296. doi: 

  9. Besagni, G., Inzoli, F., Ziegenhein, T., Lucas, D. (2017). Computational Fluid-Dynamic modeling of the pseudo-homogeneous flow regime in large-scale bubble columns. Chemical Engineering Science, 160, 144–160. doi: 

  10. Besagni, G., Inzoli, F., De Guido, G., Pellegrini, L. A. (2017). Gas holdup and flow regime transition in spider-sparger bubble column: effect of liquid phase properties. Journal of Physics: Conference Series, 796, 012041. doi: