79th Conference on Glass Problems
1st Edition
Published on 20. September 2019
Book
Hardback
250 pages
978-1-119-63155-2 (ISBN)
Description
This proceedings contains a collection of 21 papers presented at the 79th Conference on Glass Problems held November 4-8, 2018 in Columbus, Ohio. Papers touch on topics critical to glass manufacturers including melting and combustion; refractories; forming; and environmental issues.
More details
Series
Language
English
Place of publication
United States
Publishing group
John Wiley & Sons Inc
Target group
Professional and scholarly
Product notice
sewn/stitched
Cloth over boards
Dimensions
Height: 235 mm
Width: 157 mm
Thickness: 18 mm
Weight
517 gr
ISBN-13
978-1-119-63155-2 (9781119631552)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
S. K. Sundaram
79th Conference on Glass Problems
E-Book
08/2019
1st Edition
Wiley
€217.99
Available for download
S. K. Sundaram
79th Conference on Glass Problems
E-Book
08/2019
1st Edition
Wiley
€217.99
Available for download
Person
S. K. SUNDARAM, PhD, is an Inamori Professor of Materials Science and Engineering at Alfred University. Before joining Alfred University, Dr. Sundaram was a chief materials scientist at the Pacific Northwest National Laboratory (PNNL). He joined the PNNL in 1994 as a post-doctoral fellow and became a senior research scientist in 1996. He was then promoted to chief materials scientist in January 2002. Dr. Sundaram is internationally recognized for interdisciplinary research. He has made over 100 technical presentations, edited/contributed to twelve books, published over eighty peer-reviewed publications and technical reports, mentored/supported over forty-five students, and organized/co-organized several national and international symposia on advanced topics in materials science. He is also a co-inventor in three issued patents and two provisional patent applications.
Content
Foreword x
Preface xi
Acknowledgments xiii
Plenary Session
Challenges and Progress in Understanding Glass Melting 3
Mathieu Hubert and Irene Peterson
Cullet Supply Issues and Technologies 15
David M. Rue
Glass Surface Modifications for New Products in the 21st Century 29
J.W. McCamy, A. Ganjoo, and C-H Hung
Flat Glass Manufacturing Before Float 37
Luke Kutilek
Towards the Path for De-Carbonization-Understanding Legislative Challenges 55
Jim Nordmeyer
Dry Sorbent Injection System Optimization and Cost Reduction Potential Through Data Analysis 65
Gerald Hunt, Ian Saratovsky, and Melissa Sewell
Melting and Combustion
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
Erik Muijsenberg, Robert Bodi, Menno Eisenga, and Glenn Neff
Optimization of Energy Efficiency, Glass Quality and NOx Emissions in Oxy-Fuel Glass Furnaces Through Advanced Oxygen Staging 101
Mark D. D'Agostini, and Bill Horan
Staged, Oxy-Fuel Wide Flame Burners to Mitigate Refractory Port Fouling and Foaming in Glass Furnaces 117
Gaurav Kulkarni, Uyi Iyoha, Shrikar Chakravarti, Patrick Diggins III, Arthur Francis, and Gregory J. Panuccio
Industry 3.9 Thermal Imaging Using the Near Infrared Borescope (NIR-B) 125
N. G. Simpson, S. F. Turner, and M. Bennett
Refractories
INNOREG: Going Beyond a Well-Known Solution for Thermal Regenerators 141
Stefan Postrach and Elias Carrillo
Advanced Post Mortem Study, From Digital Survey to Micro Scale Analysis 151
Emile Lopez, Jean-Gael Vuillermet, Isabelle Cabodi and Michel Gaubil
Digitally Mapping the Future of Glass Furnaces with Lasers 157
Bryn Snow, Crawford Murton, Corey Foster, and Ulf Hermansson
SORG 340S+ (R) Forehearths - Improvements and Operational Data 169
Ruediger Nebel
Energy Recovery with a New Type of Tin Bath Cooler 177
Wolf Kuhn, Peter Molcan, and Stephane Guillon
Chemical Strengthening of Silicate Glasses: Dangerous and Beneficial Impurities 191
Vincenzo M. Sglavo
Environment
Operating Experience with the OPTIMELTTM Heat Recovery Technology on a Tableware Glass Furnace 201
M. van Valburg, F. Schuurmans, E. Sperry, S. Laux, R. Bell, A. Francis, S. Chakravarti and H. Kobayashi
Continuously Measuring CO and O2 to Optimize the Combustion Process 213
Lieke de Cock, Vincent van Liebergen, and Marco van Kersbergen
Mitigation Options for Respirable Crystalline Silica: Engineering Controls vs. Personal Protection 219
Kyle Billy
Future of Glass Melting in a World with Stringent Reductions of Carbon Dioxide 227
Stuart Hakes
Preface xi
Acknowledgments xiii
Plenary Session
Challenges and Progress in Understanding Glass Melting 3
Mathieu Hubert and Irene Peterson
Cullet Supply Issues and Technologies 15
David M. Rue
Glass Surface Modifications for New Products in the 21st Century 29
J.W. McCamy, A. Ganjoo, and C-H Hung
Flat Glass Manufacturing Before Float 37
Luke Kutilek
Towards the Path for De-Carbonization-Understanding Legislative Challenges 55
Jim Nordmeyer
Dry Sorbent Injection System Optimization and Cost Reduction Potential Through Data Analysis 65
Gerald Hunt, Ian Saratovsky, and Melissa Sewell
Melting and Combustion
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
Erik Muijsenberg, Robert Bodi, Menno Eisenga, and Glenn Neff
Optimization of Energy Efficiency, Glass Quality and NOx Emissions in Oxy-Fuel Glass Furnaces Through Advanced Oxygen Staging 101
Mark D. D'Agostini, and Bill Horan
Staged, Oxy-Fuel Wide Flame Burners to Mitigate Refractory Port Fouling and Foaming in Glass Furnaces 117
Gaurav Kulkarni, Uyi Iyoha, Shrikar Chakravarti, Patrick Diggins III, Arthur Francis, and Gregory J. Panuccio
Industry 3.9 Thermal Imaging Using the Near Infrared Borescope (NIR-B) 125
N. G. Simpson, S. F. Turner, and M. Bennett
Refractories
INNOREG: Going Beyond a Well-Known Solution for Thermal Regenerators 141
Stefan Postrach and Elias Carrillo
Advanced Post Mortem Study, From Digital Survey to Micro Scale Analysis 151
Emile Lopez, Jean-Gael Vuillermet, Isabelle Cabodi and Michel Gaubil
Digitally Mapping the Future of Glass Furnaces with Lasers 157
Bryn Snow, Crawford Murton, Corey Foster, and Ulf Hermansson
SORG 340S+ (R) Forehearths - Improvements and Operational Data 169
Ruediger Nebel
Energy Recovery with a New Type of Tin Bath Cooler 177
Wolf Kuhn, Peter Molcan, and Stephane Guillon
Chemical Strengthening of Silicate Glasses: Dangerous and Beneficial Impurities 191
Vincenzo M. Sglavo
Environment
Operating Experience with the OPTIMELTTM Heat Recovery Technology on a Tableware Glass Furnace 201
M. van Valburg, F. Schuurmans, E. Sperry, S. Laux, R. Bell, A. Francis, S. Chakravarti and H. Kobayashi
Continuously Measuring CO and O2 to Optimize the Combustion Process 213
Lieke de Cock, Vincent van Liebergen, and Marco van Kersbergen
Mitigation Options for Respirable Crystalline Silica: Engineering Controls vs. Personal Protection 219
Kyle Billy
Future of Glass Melting in a World with Stringent Reductions of Carbon Dioxide 227
Stuart Hakes