• Determination of Breakage Parameters in Turbulent Fluid-Fluid Breakage 

      Herø, Eirik Helno; Forgia, Nicolas La; Solsvik, Jannike; Jakobsen, Hugo Atle (Journal article; Peer reviewed, 2019)
      Numerous sets of single‐particle breakage experiments are required in order to provide a sufficient database for improving the modeling of fluid particle breakage mechanisms. This work focuses on the interpretation of the ...
    • Dissipation rate estimation in a rectangular shaped test section with periodic structure at the walls 

      La Forgia, Nicolas; Herø, Eirik Helno; Solsvik, Jannike; Jakobsen, Hugo Atle (Journal article; Peer reviewed, 2018)
      An experimental study of turbulent flow concerning the characterization of turbulence by two-point correlation and estimations of the turbulent dissipation rate is presented. The fluid used is deionized water and the test ...
    • Microfluidic method for determining drop-drop coalescence and contact times in flow 

      Dudek, Marcin; Fernandes, Diana; Herø, Eirik Helno; Øye, Gisle (Peer reviewed; Journal article, 2020)
      Coalescence kinetics is an important parameter when describing the stability of dispersions. A number of methods to measure coalescence time are available, however they often take long time and do not allow working with ...
    • Programming turbulence models in FORTRAN 

      Herø, Eirik Helno (Master thesis, 2015)
      The two-equation turbulence models Wilcox k-omega and Menter k-omega SST are programmed in FORTRAN and tested on the cases channel flow and backward-facing step. A short time step and a good initial field is required to ...
    • Single Drop Breakage in Turbulent Flow: Statistical Data Analysis 

      Herø, Eirik Helno; La Forgia, Nicolas; Solsvik, Jannike; Jakobsen, Hugo Atle (Peer reviewed; Journal article, 2020)
      To improve breakage models in the population balance framework, single octanol droplet experiments have been performed in a channel flow and recorded by high-speed camera. The study investigates impact of mother drop size ...