Suppression of Slag Foaming under Sound Wave Application
スポンサーリンク
概要
- 論文の詳細を見る
High temperature experiments have been conducted to examine a possibility of suppression of slag foaming by applying sound waves. To produce the slag foam, Ar gas was injected into a BaO–B2O3 or a CaO–SiO2 –FeO melt through a submerged multihole nozzle or a bottom nozzle. The sound waves, produced by a loudspeaker, were propagated to the foamed slag surface through the gas atmosphere inside the experimental apparatus. The experimental temperatures were 1223 and 1273 K (BaO–B2O3 slag), and 1573 K (CaO–SiO2 –FeO slag).Main attention was focused on the effect of sound frequency on slag foaming rate. It was found that the slag foaming rate is significantly decreased on frequencies 200 and 350 Hz (slag BaO–B2O3 ), 400 Hz (slag CaO–SiO2 –FeO) and 10000 Hz (slag BaO–B2O3 ). On the whole, low frequency (<1000 Hz) is more effective in suppressing the foaming slags. The frequency dependence of the slag foaming rate is explained by resonance oscillations which can occur in the working space of the experimental apparatus at certain frequencies.To evaluate the thickness of foam film, measurements of steady foam height and radius of bubbles detached from the nozzle were made. On the basis of the results, it was shown that low frequency can pass through the foam layer and excite the foam bubble oscillations. This is assumed to result in an enhanced drainage of liquid from the foam layer to the molten bath. On the other hand, when foaming slag surface is exposed to higher frequency sound waves, they are completely reflected from the surface, and the foam breakage occurs due to increase in the foam film rupture rate.
- 社団法人 日本鉄鋼協会の論文
- 2000-05-15
著者
-
KOMAROV Sergey
東北大学多元物質科学研究所
-
Kuwabara Mamoru
Department of Materials, Physics and Energy Engineering, Gradurate School of Engineering, Nagoya Uni
-
SANO Masamichi
Department of Materials, Physics and Energy Engineering, Graduate School of Engineering, Nagoya Univ
-
Komarov S
Tohoku Univ. Sendai Jpn
-
Sano Masamichi
Department Of Materials Physics And Energy Engineering Graduate School Of Engineering Nagoya Univers
-
Sano M
Department Of Materials Processing Engineering School Of Engineering Nagoya University
-
Kuwabara Mamoru
Department Of Materials Processing Engineering School Of Engineering Nagoya University
-
Kuwabara Mamoru
Department Of Materials Physics And Energy Engineering Graduate School Of Engineering Nagoya Univers
-
KOMAROV Sergey
Department of Materials Processing Engineering, Graduate School of Engineering, Nagoya University
-
Komarov Sergey
Department of Materials Processing Engineering, Faculty of Engineering, Nagoya University
関連論文
- 焼結ケーキ中の空隙構造制御のための層構造設計(原料層構造設計による焼結プロセス制御,焼結その3,製銑プロセスの環境調和・資源対応力強化を目指して)
- 焼結ケーキ中の空隙構造制御のための層構造設計
- 焼結層の空隙構造形成過程とその制御へのアプローチ
- Characteristics of Inclusions Generated during Al–Mg Complex Deoxidation of Molten Steel
- 音波印加による気相中熱伝達の促進効果
- 音波印加の下におけるダスト粒子の衝突モデル
- 溶鉄の脱炭速度における音波の効果
- P2-65 Development and Evaluation of Electromagnetically Driven Wideband Ultrasonic Oscillator(Short presentation for poster)
- Effects of Carbon and/or Alkaline Earth Elements on Grain Refinement and Tensile Strength of AZ31 Alloy
- Effects of Manganese and/or Carbon on the Grain Refinement of Mg-3Al Alloy
- The Effect of Magnesium Gas Injecting Conditions on the Rate of Hot Metal Desulfurization
- Kinetics of Isothermal Reduction of MgO with Al
- In Situ Observation of Aluminothermic Reduction of MgO with High Temperature Optical Microscope
- Prevention of Resulfurization in Desulfurization Process with Magnesium Vapor Produced in Situ by Aluminothermic Reduction of Magnesium Oxide
- Mechanism of Resulfurization in Magnesium Desulfurization Process of Molten Iron
- Improvement on Desulfurization Efficiency of Molten Iron with Magnesium Vapor Produced In-situ by Aluminothermic Reduction of Magnesium Oxide
- Behavior of Magnesium in the Desulfurization Process of Molten Iron with Magnesium Vapor Produced In-situ by Aluminothermic Reduction of Magnesium Oxide
- Effects of Operating Parameters on Desulfurization of Molten Iron with Magnesium Vaper Produced In-situ by Aluminothermic Reduction of Magnesium Oxide
- Desulfurization of Molten Iron with Magnesium Vapor Produced In-situ by Aluminothermic Reduction of Magnesium Oxide
- Desulfurization of Molten Iron with Magnesium Vapor Produced In-situ by Carbothermic Reduction of Magnesium Oxide
- Prospect for Innovative Steel-making Process in the Forth-coming Century
- Prospect for Innovative Steelmaking Process in the Forthcoming Century
- Relationship between a Standing-Wave Field and a Sonoluminescing Field
- Simultaneous Desulfurization and Deoxidation of Molten Steel with in Situ Produced Magnesium Vapor
- Effect of Iron and/or Carbon on the Grain Refinement of Mg-3Al Alloy
- Effect of Lime Particle Size on Melting Behavior of Lime-containing Flux
- Mechanism of Carbothermic Reduction of Hematite in Hematite-Carbon Composite Pellets
- Effect of Process Parameters on Ultrasonic Separation of Dispersed Particles in Liquid
- Gas Injection from Slot Nozzles with Various Shapes in Water
- Mechanism of Carbothermic Reduction of Chromium Oxide
- Dry Separation for Rare Earth by Vacuum Distillation of Di and Triiodide Mixture
- Suppression of Slag Foaming under Sound Wave Application
- Control of Foam Height by Using Sound Waves
- Bubble Behaviour and Absorption Rate in Gas Injection through Rotary Lances
- Mixing Characteristics under Gas Injection through Rotary Lance Submerged in Liquid Bath
- Behavior of Slag Foaming with Reduction of Iron Oxide in Molten Slags by Graphite
- Reduction of Iron Oxide in Sulfur Bearing Slag by Graphite
- Characteristics of Inclusions Generated during Al-Mg Complex Deoxidation of Molten Steel
- Behavior of Inclusions in Deoxidation Process of Molten Steel with in Situ Produced Mg Vapor
- Gas Dispersion Phenomena and Mixing Characteristics under Gas Injection through Slot Nozzle Submerged in Water
- Bubble Behavior and Heat Transfer in Preheated Gas Injection into Liquid Bath
- High Power Ultrasonics in Pyrometallurgy : Current Status and Recent Development
- Orientation of Fibers in Liquid by Ultrasonic Standing Waves
- Influence of High-Power Ultrasonic Irradiation on Primary Nucleation Process during Solidification
- Acoustic-Cavitation-Based Production of Foamed Metallic Material
- High Power Ultrasonics in Pyrometallurgy: Current Status and Recent Development
- Effect of Slag Foaming on the Reduction of Iron Oxide in Molten Slag by Graphite.
- Mixing Phenomena in a Liquid Bath Stirred by Gas Jets through Side and Inclined Nozzles.
- Effect of Slag Composition on the Kinetics of the Reduction of Iron Oxide in Molten Slag by Graphite.
- Kinetics of carbon oxidation reaction between molten iron of high carbon concentration and iron oxide containing slag.