Effect of Both Radial Position and Number of Porous Plugs on Chemical and Thermal Mixing in an Industrial Ladle Involving Two Phase Flow
スポンサーリンク
概要
- 論文の詳細を見る
Gas injection in metallurgical vessels is an important tool to improve chemical and thermal mixing. Chemical mixing has been extensively studied in the past 40 years, however, thermal mixing is still poorly understood. This work reports a mathematical model developed to describe the effect of the number and position of porous plugs on thermal and chemical mixing under industrial conditions.A relevant contribution of this work is the evidence indicating a suppressing effect of bottom gas injection on thermal homogenization with off-center gas injection; furthermore, it also suggests that mixing time is optimized with only one nozzle instead of two or three.
- 2011-07-15
著者
-
Ramirez-argaez Marco
Department Of Metallurgy Facultad De Quimica Universidad Nacional Autonoma De Mexico (unam)
-
Gonzalez Carlos
Department Of Metallurgy Facultad De Quimica Universidad Nacional Autonoma De Mexico (unam)
-
Maldonado-parra Francisco
Department Of Chemical Engineering Facultad De Quimica Universidad Nacional Autonoma De Mexico (unam)
-
CONEJO Alberto
Morelia Technological Institute (ITM)
関連論文
- Mathematical Modeling of the Melting Rate of Metallic Particles in the Electric Arc Furnace
- Effect of Arc Length on Fluid Flow and Mixing Phenomena in AC Electric Arc Furnaces
- Mathematical Modeling of High Intensity Electric Arcs Burning in Different Atmospheres
- Effect of Both Radial Position and Number of Porous Plugs on Chemical and Thermal Mixing in an Industrial Ladle Involving Two Phase Flow