Evaluation of Bubble Eye Area to Improve Gas/Liquid Reaction Rates at Bath Surfaces
スポンサーリンク
概要
- 論文の詳細を見る
In ladle refining operations, a plume eye is the area of the bath surface that is not covered with slag, due to bubbling gas, and this area is the most important in slag–metal reactions. In contrast, in vacuum degassers, most of the surface area is not covered with slag, and in this case, the bubble rising area at the bath surface is important for gas–metal reactions. This area is referred to as the “bubble eye area” in this paper. To evaluate the bubble eye size, and its effect on the surface reaction rate, water model experiments were carried out. The plume eye size was measured by changing the thickness of a polystyrene particle layer, which was added to the surface as a slag layer. The bubble eye size was estimated by extrapolating the plume eye size to the value calculated for a polystyrene layer thickness of zero. The volumetric mass transfer coefficient of the surface reaction was measured at various size of plume eye. The volumetric mass transfer coefficient at the bubble eye area was evaluated by extrapolating the mass transfer coefficient at the plume eye area to the value calculated for a plume eye size equal to the bubble eye size. It was concluded that the size of the bubble eye is influenced by the gas flow rate through each nozzle, whereas the volumetric mass transfer coefficient at the bubble eye area is influenced by the bubble eye area and the bubble rising velocity.
著者
-
Maruoka Nobuhiro
Institute of Multidisciplinary Research for Advanced Materials, Tohoku University
-
SHIBATA Hiroyuki
Institute of Multidisciplinary Research for Advanced Materials (IMRAM), Tohoku University
-
Lazuardi Felicia
Institute of Multidisciplinary Research for Advanced Materials, Tohoku University
-
Maeyama Toshiaki
Student, Graduate School of Engineering, Tohoku University
-
Kim Sun-joong
Student, Graduate School of Engineering, Tohoku University
-
N. Conejo
Instituto Tecnológico de Morelia
-
Kitamura Shin-ya
Institute of Multidisciplinary Research for Advanced Materials, Tohoku University
関連論文
- Development of PCM Reactor for Methane Steam Reforming
- High Thermal Conductivity of Gallium Nitride (GaN) Crystals Grown by HVPE Process
- Thermal and Optical Properties of Yb^-Doped Y_2O_3 Single Crystal Grown by the Micro-Pulling-Down Method
- Evaluation of Bubble Eye Area to Improve Gas/Liquid Reaction Rates at Bath Surfaces
- Electrical Resistivity Measurements of Pd_Cu_Ni_P_ Alloy in Supercooled Liquid and Liquid State
- Thermal Diffusivities and Conductivities of Molten Germanium and Silicon
- Measurement of Thermal Diffusivity of Steels at Elevated Temperature by a Laser Flash Method
- Applicability of Platinum and Molybdenum Coatings for Measuring Thermal Diffusivity of Transparent Glass Specimens by the Laser Flash Method at High Temperatures
- In-situ Observation of Intragranular Ferrite Nucleation at Oxide Particles
- Some Aspects on Grain Refining Additions with Focus on Clogging during Casting
- Molecular Properties and Activity of Amino-Terminal Truncated Forms of Lipase Activator Protein
- Calcium Ion-Dependent Reactivation of a Pseudomonas Lipase by Its Specific Modulating Protein, LipB^1
- Analysis on Material and Energy Balances of Ironmaking Systems on Blast Furnace Operations with Metallic Charging, Top Gas Recycling and Natural Gas Injection
- Analysis of Dephosphorization Reaction Using a Simulation Model of Hot Metal Dephosphorization by Multiphase Slag
- Modeling the Behavior of Al_2O_3 Inclusions during the Dendritic Solidification of Steel
- Effect of Bottom Bubbling Conditions on Surface Reaction Rate in Oxygen-Water System
- Behavior of Cobalt in Iron- and Steel-making Processes
- Distribution of P_2O_5 between Solid Dicalcium Silicate and Liquid Phases in CaO-SiO_2-Fe_2O_3 System
- Prediction of Raceway Shape and Size
- Mass Transfer of P_2O_5 between Liquid Slag and Solid Solution of 2CaO・SiO_2 and 3CaO・P_2O_5
- Origin of Heat Transfer Anomaly and Solidifying Shell Deformation of Peritectic Steels in Continuous Casting
- Recovery of Hot Ductility by Improving Thermal Pattern of Continuously Cast Low Carbon and Ultra Low Carbon Steel Slabs for Hot Direct Rolling
- Distribution of P_2O_5 between Solid Solution of 2CaO・SiO_2-3CaO・P_2O_5 and Liquid Phase
- Precipitation Behavior of Copper, Tin and Manganese Sulfide at High Temperature in Fe-10%Cu-0.5%Sn Alloys
- Determination of Free Energy of δ-Ferrite/γ-Austenite Interphase Boundary of Low Carbon Steels by In-situ Observation
- In-situ Observation of Engulfment and Pushing of Nonmetallic Inclusions in Steel Melt by Advancing Melt/Solid Interface
- Characteristics of Agglomeration of Various Inclusion Particles on Molten Steel Surface
- "In-situ"Observation of Collision, Agglomeration and Cluster Formation of Alumina Inclusion Particles on Steel Melts
- Heat Transfer across Mold Flux Film in Mold during Initial Solidification in Continuous Casting of Steel
- Thermal Resistance at the Interface between Mold Flux Film and Mold for Continuous Casting of Steels
- Radiative Heat Transfer through Mold Flux Film during Initial Solidification in Continuous Casting of Steel
- Heat Transfer from Shell across Flux Film to Continuous Casting Mold
- Measurement of Optical Properties of Continuous Casting Mold Fluxes at Elevated Temperatures
- Thermal Resistance between Solidifying Steel Shell and Continuous Casting Mold with Intervening Flux Film
- Anomaly in Melting Behavior and Mechanical Properties of Carbon Steels Near Their Solidus Temperature
- "In-situ"Real Time Observation of Planar to Cellular and Cellular to Dendritic Transition of Crystals Growing in Fe-C Alloy Melts
- Chemical State of Chromium in CaO-SiO_2 Base Oxides Annealed under Different Conditions
- Distribution of Cobalt between MgO-Saturated FeO_x-MgO-CaO-SiO_2 Slag and Fe-Cu-Co Molten Alloy
- Influence of Bottom Bubbling Condition on Metal Emulsion Formation in Lead-Salt System
- Degree of Undercooling and Contact Angle of Pure Iron at 1933K on Single-crystal Al_2O_3, MgO, and MgAl_2O_4 under Argon Atmosphere with Controlled Oxygen Partial Pressure
- Evaluation of Bubble Eye Area to Improve Gas/Liquid Reaction Rates at Bath Surfaces
- Behavior of Vanadium and Niobium during Hot Metal Dephosphorization by CaO-SiO_2-Fe_tO Slag
- Influence of Solid CaO and Liquid Slag on Hot Metal Desulfurization
- Influence of Bottom Bubbling Rate on Formation of Metal Emulsion in Al-Cu Alloy and Molten Salt System