"Simulation of Particle Behaviour in Gravity Vortex Separator"@en . "Mathematical modelling, Vortex Separator, Suspended Solids, Free-Surface Flow"@en . . "2"^^ . . . . "Pollert, Jaroslav" . . "Simulation of Particle Behaviour in Gravity Vortex Separator" . "Z(MSM 211100002)" . "TechSoft Engineering" . . "Nen\u00ED k dispozici"@cs . . "111 ; 119" . "Simulation of Particle Behaviour in Gravity Vortex Separator"@en . "2004-06-17+02:00"^^ . . "[3619C2180B4D]" . . "RIV/68407700:21110/04:01105004!RIV/2005/MSM/211105/N" . . . . "Nen\u00ED k dispozici"@cs . "Gravity vortex separator for separation steel flakes during water re-cooling in industrial processes was designed and examined in respect of separation efficiency. The suspended solids loads were assessed using mathematical model built up in FLUENT v5.4 and physical model connected directly on industrial process. The separation efficiency has been evaluated as relative ratio between inflow and overflow mass flow of suspended solids. Generally, results show better separation behaviour for large (heavy) particles. The increasing height of the overflow crest had positive effect on the separation efficiency, which has been confirmed with both physical and mathematical modelling. Comparison of both modelling approaches showed similar results for all of the test runs."@en . "Bare\u0161, Vojt\u011Bch" . "Nen\u00ED k dispozici"@cs . . . "FLUENT 2004" . "Praha" . . "9"^^ . "Praha" . "Gravity vortex separator for separation steel flakes during water re-cooling in industrial processes was designed and examined in respect of separation efficiency. The suspended solids loads were assessed using mathematical model built up in FLUENT v5.4 and physical model connected directly on industrial process. The separation efficiency has been evaluated as relative ratio between inflow and overflow mass flow of suspended solids. Generally, results show better separation behaviour for large (heavy) particles. The increasing height of the overflow crest had positive effect on the separation efficiency, which has been confirmed with both physical and mathematical modelling. Comparison of both modelling approaches showed similar results for all of the test runs." . "2"^^ . "21110" . "586322" . "RIV/68407700:21110/04:01105004" . . "Simulation of Particle Behaviour in Gravity Vortex Separator" . . . "80-239-3138-5" .