- E-postmaryam.ghaffariv@student.uib.no
- BesøksadresseAllégaten 41Realfagbygget5007 Bergen
- PostadressePostboks 78035020 Bergen
Vitenskapelig artikkel
- (2019). A brief review on the effect of particle size on the laminar burning velocity of flammable dust: application in a CFD tool for industrial applications. Journal of Loss Prevention in the Process Industries. 1-6.
- (2016). Sensitivity analysis of Dust explosion consequences in a roller mill using FLACS-DustEx. Chemical Engineering Transactions. 157-162.
- (2016). A parametric study of cohesive particle agglomeration in a shear flow : numerical simulations by the discrete element method. Journal of Dispersion Science and Technology. 611-620.
- (2012). Deposition capabilities of turbulent particle-laden flow passing an obstacle using experiment and CFD. AIP Conference Proceedings. 217-219.
- (2012). CFD Modeling of PEPT Results of Particle Motion Trajectories in a Pipe over an Obstacle. AIP Conference Proceedings. 193-196.
Faglig foredrag
- (2016). A model validation framework for the dust explosion simulator FLACS-DustEx: Challenges, limitations and possibilities.
Populærvitenskapelig foredrag
- (2017). Støveksplosjon i prosess industrier.
Vitenskapelig foredrag
- (2018). Turbulence modulation modelling in the CFD simulator FLACS-DustEx.
- (2018). Effect of particle size on burning velocity calculation in FLACS-DustEx.
- (2017). Simulation of dust explosions: new developments.
- (2017). Improved modelling of particle-laden flow in the CFD simulator FLACS-DustEx.
Programdeltagelse
- (2017). Kunnskapskanalen: Forsker grandprix-2017 Bergen.
Poster
- (2019). Effect of particle size on burning velocity calculation in FLACS-DustEx.
- (2019). A review of the effect of particle size and particle concentratyion on burning velocity calculation in FLACS-DustEx: a simplified approach.
- (2012). Studying Particle Motion Trajectories in a Pipe over an Obstacle Using PEPT and CFD.