|
|||||
|
|
Conversion kinetics of container glass batch melting |
|
| Authors: | Nanako Ueda Miroslava Vernerová Jaroslav Kloužek Pavel Ferkl Pavel Hrma Tetsuji Yano Richard Pokorný |
| Affiliation: | 1. Department of Material Science and Engineering, Tokyo Institute of Technology, Tokyo, Japan;2. Laboratory of Inorganic Materials, University of Chemistry and Technology Prague, Prague 6, Czech Republic Institute of Rock Structure and Mechanics, Czech Academy of Sciences, Prague 8, Czech Republic;3. Pacific Northwest National Laboratory, Richland, WA, USA;4. North Wind Solutions, LLC, Support Services Contractor to the Office of River Protection, U.S. Department of Energy, Richland, WA, USA;5. Laboratory of Inorganic Materials, University of Chemistry and Technology Prague, Prague 6, Czech Republic |
| Abstract: | Understanding the batch-to-glass conversion process is fundamental to optimizing the performance of glass-melting furnaces and ensuring that furnace modeling can correctly predict the observed outcome when batch materials or furnace conditions change. To investigate the kinetics of silica dissolution, gas evolution, and primary foam formation and collapse, we performed X-ray diffraction, thermal gravimetry, feed expansion tests, and evolved gas analysis of batch samples heated at several constant heating rates. We found that gas evolving reactions, foaming, and silica dissolution depend on the thermal history of the batch in a similar manner: the kinetic parameters of each process were linear functions of the square root of the heating rate. This kinetic similarity reflects the stronger-than-expected interdependence of these processes. On the basis of our results, we suggest that changes in furnace operating conditions, such as firing or boosting, influence the melting rate less than what one would expect without consideration of batch conversion kinetics. |
| Keywords: | foaming glass melting processing |