Analysis Of Dissolution Of A Spherical Gas Bubble In A Glass Melt In The Presence Of A Flow And Fast Redox Reaction

Modelling a process of dissolution of a slowly moving gas bubble in a glass melt can be reformulated as a problem of dissolution of a stationary bubble in a flow. It is shown that in the presence of fast redox reaction (outside the bubble) the effect of the flow on the time of dissolution is negligible. Many authors omit the flow when modelling dissolution of bubbles in glass melts. This analysis specifies the conditions under which such omission can be justified. Due to the presence of fast reaction, the problem is singularly perturbed. The boundary function method was used to obtain asymptotic approximation of the solution.

Author

S Lertskrai & L Kalachev

Origin

Prince Of Songkla University (Thailand) & Univ Montana, Usa

Journal Title

Glass Sci Technol 76 5 2003 220-226

Sector

Special Glass

Class

S 2731

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Your chosen publication Analysis Of Dissolution Of A Spherical Gas Bubble In A Glass Melt In The Presence Of A Flow And Fast Redox Reaction

Journal Title Glass Sci Technol 76 5 2003 220-226

Class S 2731

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Analysis Of Dissolution Of A Spherical Gas Bubble In A Glass Melt In The Presence Of A Flow And Fast Redox Reaction

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