79th Conference on Glass Problems a collection of papers presented at the 79th Conference on Glass Problems, Greater Columbus Convention Center, Columbus, Ohio November 4-8, 2018
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| Otros Autores: | |
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Hoboken :
John Wiley & Sons, Incorporated
2019.
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| Colección: | Wiley ebooks.
Ceramic Transactions ; v. 267. |
| Acceso en línea: | Conectar con la versión electrónica |
| Ver en Universidad de Navarra: | https://innopac.unav.es/record=b4064196x*spi |
Tabla de Contenidos:
- <P>Foreword x</p> <p>Preface xi</p> <p>Acknowledgments xiii</p> <p><b>Plenary Session</b></p> <p>Challenges and Progress in Understanding Glass Melting 3<br /> <i>Mathieu Hubert and Irene Peterson</i></p> <p>Cullet Supply Issues and Technologies 15<br /> <i>David M. Rue</i></p> <p>Glass Surface Modifications for New Products in the 21st Century 29<br /> <i>J.W. McCamy, A. Ganjoo, and C-H Hung</i></p> <p>Flat Glass Manufacturing Before Float 37<br /> <i>Luke Kutilek</i></p> <p>Towards the Path for De-Carbonization-Understanding Legislative Challenges 55<br /> <i>Jim Nordmeyer</i></p> <p>Dry Sorbent Injection System Optimization and Cost Reduction Potential Through Data Analysis 65<br /> <i>Gerald Hunt, Ian Saratovsky, and Melissa Sewell</i></p> <p><b>Melting and Combustion</b></p> <p>Model Predictive Control and Monitoring of the Batch Coverage and Shape, and Its Effects Upon the Crown Temperature. Can this be Correlated to the Overall Glass Quality and Stability in a Glass Furnace? 87<br /> <i>Erik Muijsenberg, Robert Bodi, Menno Eisenga, and Glenn Neff</i></p> <p>Optimization of Energy Efficiency, Glass Quality and NO<sub>x </sub>Emissions in Oxy-Fuel Glass Furnaces Through Advanced Oxygen Staging 101<br /> <i>Mark D. D'Agostini, and Bill Horan</i></p> <p>Staged, Oxy-Fuel Wide Flame Burners to Mitigate Refractory Port Fouling and Foaming in Glass Furnaces 117<br /> <i>Gaurav Kulkarni, Uyi Iyoha, Shrikar Chakravarti, Patrick Diggins III, Arthur Francis, and Gregory J. Panuccio</i></p> <p>Industry 3.9 Thermal Imaging Using the Near Infrared Borescope (NIR-B) 125<br /> <i>N. G. Simpson, S.F. Turner, and M. Bennett</i></p> <p><b>Refractories</b></p> <p>INNOREG: Going Beyond a Well-Known Solution for Thermal Regenerators 141<br /><i>Stefan Postrach and Elias Carrillo</i></p> <p>Advanced Post Mortem Study, From Digital Survey to Micro Scale Analysis 151<br /> <i>Emile Lopez, Jean-Gaël Vuillermet, Isabelle Cabodi and Michel Gaubil</i></p> <p>Digitally Mapping the Future of Glass Furnaces with Lasers 157<br /><i>Bryn Snow, Crawford Murton, Corey Foster, and Ulf Hermansson</i></p> <p>SORG 340S+® Forehearths
- Improvements and Operational Data 169<br /><i>Rüdiger Nebel</i></p> <p>Energy Recovery with a New Type of Tin Bath Cooler 177<br /><i>Wolf Kuhn, Peter Molcan, and Stephane Guillon</i></p> <p>Chemical Strengthening of Silicate Glasses: Dangerous and Beneficial Impurities 191<br /> <i>Vincenzo M. Sglavo</i></p> <p><b>Environment</b></p> <p>Operating Experience with the OPTIMELT<sup>TM </sup>Heat Recovery Technology on a Tableware Glass Furnace 201<br /> <i>M. van Valburg, F. Schuurmans, E. Sperry, S. Laux, R. Bell, A. Francis, S. Chakravarti and H. Kobayashi</i></p> <p>Continuously Measuring CO and O<sub>2 </sub>to Optimize the Combustion Process 213<br /> <i>Lieke de Cock, Vincent van Liebergen, and Marco van Kersbergen</i></p> <p>Mitigation Options for Respirable Crystalline Silica: Engineering Controls vs. Personal Protection 219<br /> <i>Kyle Billy</i></p> <p>Future of Glass Melting in a World with Stringent Reductions of Carbon Dioxide 227<br /> <i>Stuart Hakes</i></p>
