Effect of Particle Velocity on Penetration and Flotation Behavior

Matsuzawa, Akihiro; Sasai, Katsuhiro; Harada, Hiroshi; Numata, Mitsuhiro

doi:10.2355/tetsutohagane.tetsu-2017-041

Cited by 7 publications

(2 citation statements)

References 8 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…On the one hand, the morphology and composition are crucial for evaluating the cleanliness of the liquid steel. Alumina inclusions float more readily than magnesium-aluminum oxides and titanium oxides, [27][28][29] and composite magnesium-or aluminumcontaining complex rare-earth inclusions float more readily than RE inclusions due to their lower densities. [30,31] On the other hand, the characteristics of the inclusions also play a decisive role in the properties of the steel matrix.…”

Section: Morphology and Compositions For Different Aluminum Concentra...mentioning

confidence: 99%

Effect of Al on the Cleanliness of the x% Al–7CrSiMnMoV Steel Produced by Scrap Steel

Long,

Zeng,

Gao

et al. 2024

steel research int.

View full text Add to dashboard Cite

It is crucial for recycling scrap steel to effectively remove impurities such as sulfur and oxygen, which directly determine the characteristics of inclusions in steel liquid. This study attempts to investigate the effect of Al concentration on the cleanliness of x% Al–7CrSiMnMoV steel by directly smelting scrap steel. Impurities such as sulfur and oxygen, as well as alloying elements in steel, are investigated. Also, the evolution characteristics of inclusion in the x% Al–7CrSiMnMoV steel are evaluated. The results show that the oxygen concentration in steel liquid gradually decreases; however, the sulfur concentration in steel liquid first increases and then decreases as the aluminum concentration increases from 0.026% to 0.58%. A high‐cleanliness 0.58% Al–7CrSiMnMoV steel with sulfur and oxygen concentrations of 0.0015% and 0.0018%, respectively, can be obtained. Additionally, the high Al–Ca–Mg–O and high Ca–Al–Mg–O contain S composite inclusions, and a small amount of fine Mn(Ca)S inclusions first form the high‐Al–Ca–Mg–O composite inclusions with an aluminum concentration of 0.026%, then form the high‐Al–Mg–O, Al–Mg–O‐wrapped Mn(Ca)S, and a large number of fine MnS inclusions with an aluminum concentration of 0.11%; eventually, it forms Al–Mg–O‐wrapped CaS as the Al concentrations continuously increase.

show abstract

Section: Morphology and Compositions For Different Aluminum Concentra...mentioning

confidence: 99%

Effect of Al on the Cleanliness of the x% Al–7CrSiMnMoV Steel Produced by Scrap Steel

Long,

Zeng,

Gao

et al. 2024

steel research int.

View full text Add to dashboard Cite

show abstract

“…鉄鋼製品の品質向上のため、精錬工程ではリンや硫黄濃度の低減を目的に、溶銑または溶鋼の浴面上方から粉粒状の精錬材を吹き付ける粉体上吹き法が開発されている [1][2][3][4] 。粉体上吹き法では、粉体の鉄浴中への侵入深さの増加により粉体の浴内滞留時間が増加すると精錬反応の効率の向上が期待できる。そのため、粉体の侵入条件や侵入深さに及ぼす各種要因を評価することを目的として、粉体の代わりに球体を模擬液体に突入させた実験や数値流体解析の結果が多数報告されている。上吹きされた粉体が浴内に侵入できる条件については、Engh ら 5) を始めとして各種の検討が加えられている 6-10) 。球体の侵入深さについても各種の実験式が報告されている [11][12][13][14] 。また、Fig.1(a) に示すように、球体背後の空気が浴中に引き込まれて形成された気柱は中間部に発生したくびれを起点として分断が生じること、気柱の一部が残留気泡として球体表面に付着して球体の侵入距離に影響を与えること、が報告されている [15][16][17][18][19][20][21] 。これらの実験的検討に対し、理論的な検討 22,23) や数値流体計算による検討 [24][25][26][27][28][29][30] Physical properties of fluids and spheres.…”

Section: 緒言unclassified

オイル層で覆われた水浴に侵入する球体の流体力学的挙動

Hasui,

Higuchi

2024

Tetsu-to-Hagane

View full text Add to dashboard Cite

show abstract

Numerical Analysis for Interaction of Fluid and Sphere Penetrating into Liquid Bath

2023

View full text Add to dashboard Cite

In the steelmaking process, it is necessary to decrease impurities in steel to meet the increasing demand for high-grade products. Top blowing and blasting of powder reagent are desirable for the purpose and the deeper penetration of particles into the bath is important for efficient refining. In the present work, CFD calculation with VOF (Volume of Fluid) method and dynamic mesh was executed to study the reported penetration and residual bubble behavior of polypropylene sphere (diameter of 9.6 mm) with a static contact angle of 87 ° and 143 ° and an entry solid sphere velocity of 0.63, 0.89, and 1.53 m/s in the water model experiments. Calculated results showed the numerical analysis could evaluate the formation and breakup of air column behind the sphere and the generation of consequent residual bubble on the sphere. Good wettability and high entry speed promoted the deeper penetration of the sphere. Calculated dynamic contact angle on the basis of Kistler's model indicated that the difference between static and dynamic contact angles was within 13.7 ° in the present conditions and the discrepancy could not wield a substantial influence on the result of CFD calculation. The adoption of base and refined mesh without parallel zone around the sphere could not give a good agreement with the experimental results. On the other hand, the use of layer mesh was appropriate for reproducing the penetration depth and residual bubble volume observed in the experiments.

show abstract

Effect of Particle Velocity on Penetration and Flotation Behavior

Cited by 7 publications

References 8 publications

Effect of Al on the Cleanliness of the x% Al–7CrSiMnMoV Steel Produced by Scrap Steel

Effect of Al on the Cleanliness of the x% Al–7CrSiMnMoV Steel Produced by Scrap Steel

オイル層で覆われた水浴に侵入する球体の流体力学的挙動

Numerical Analysis for Interaction of Fluid and Sphere Penetrating into Liquid Bath

Contact Info

Product

Resources

About