The Main Differences between Bubbling and Jetting Regimes during Submerged Powder Injection

JIANG Jun-pu; Guler Yamanoglu; Rodrick Guthrie

Volume 1 Issue 1-2

Sep. 1994

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Article Navigation > International Journal of Minerals, Metallurgy and Materials > 1994 > 1(1-2): 36-44

JIANG Jun-pu, Guler Yamanoglu, and Rodrick Guthrie, The Main Differences between Bubbling and Jetting Regimes during Submerged Powder Injection, J. Univ. Sci. Technol. Beijing, 1(1994), No. 1-2, pp. 36-44.

Cite this article as:

JIANG Jun-pu, Guler Yamanoglu, and Rodrick Guthrie, The Main Differences between Bubbling and Jetting Regimes during Submerged Powder Injection, J. Univ. Sci. Technol. Beijing, 1(1994), No. 1-2, pp. 36-44.

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The Main Differences between Bubbling and Jetting Regimes during Submerged Powder Injection

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Received: 8 May 1994

Abstract

Abstract

Simulation experiments were carried out to compare the main differences between bubbling and jetting regimes during submerged powder injection. An Aqueous Particle Sensor (APS) was first used for direct measurements to detect size of the injection plume, particle penetration and dispersion into liquid and gas entrainment in jet flow. The effect of gas and powder flow rates (powder/gas loading ratio) were the main parameters for determining the injection regimes and particle behavior.
- steelmaking;
- powder injection;
- APS;
- bubbling/jetting regime;
- solid/gas ratio