77th Conference on Glass Problems. A Collection of Papers Presented at the 77th Conference on Glass Problems, Greater Columbus Convention Center, Columbus, OH, November 7-9, 2016. Volume 38, Issue 1. Ceramic Engineering and Science Proceedings

  • ID: 4330588
  • Book
  • 232 Pages
  • John Wiley and Sons Ltd
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This volume is part of the Ceramic Engineering and Science Proceeding (CESP) series. This series contains a collection of papers dealing with issues in both traditional ceramics (i.e., glass, whitewares, refractories, and porcelain enamel) and advanced ceramics. Topics covered in the area of advanced ceramic include bioceramics, nanomaterials, composites, solid oxide fuel cells, mechanical properties and structural design, advanced ceramic coatings, ceramic armor, porous ceramics, and more.

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Foreword ix

Preface xi

Acknowledgments xiii


Glass Plant Audits Three Case Studies in Glass Production 3

Problems and Their SolutionsJ. M. Uhlik

Furnace Design and Operation for the Long Term 19D. Boothe


Energy Reduction with Model Based Predictive Control 33M. Powys and D. Armagost, M. P. H. Muijsenberg, R. Bodi, J. Muller, J. David, and G. Neff

Smart Manufacturing for Continuous, High–Technology 45

Glass ProductionD. Kuhn and J. Ahrens

Optimal Control Strategy for Predictive Compensation of Gas 55

Quality Fluctuations in Glass Melting FurnancesP. Hemmann


New Furnace Design Solution Breaks the 3 Gigajoules per Ton 67

Benchmark LimitM. Lindig–Nikolaus

Ox–Fuel Tableware Furnace with Novel Oxygen– and Natural 73

Gas Preheating SystemT. Görüney, Ne et Arzan, Süleyman Koç, O. Öztürk and H. ahin, H. Kim and T. Kang, Y. Joumani, X. Paubel, and L. Jarry

Advanced Heat Recovery for Ox–Fuel Fired Glass Furnaces with 83

Plus TechnologyS. Laux, U. Iyoha, R. Bell, J. Pedel, A. Francis, K.T. Wu, and H. Kobayashi

Improving Energy Efficiency of Glass Furnances 93M. van Kersbergen, and S. Lessmann

Optimization of Combustion Settings: An Energy Efficient Approach to the Reduction of Emissions by Glass Melting Furnaces 103S. Tiozzo, W. Battaglia, R. Dall Igna, and A. Migatta


Impact of Redox in Industrial Glass Melting and Importance of 115

Redox ControlM. Hubert, A. J. Faber, H. Sesigur, F. Akmaz, S–R. Kahl, E. Alejandro, and T. Maehara


Fluid Dynamics Analysis Leading to Innovative Glass 131

Homogenization Device ArctwisterA. Fuchs

Non–Isothermal Glass Moulding of Complex LED Optics 141H. Kreilkamp, A. T. Vu, O. Dambon, and ND F. Klocke


Tin Bath Block Evolution and Development: A Case of Toil, 153

Endeavour and FearsChristopher J. Windle

New Oxy–Combustion Crown Efficient Flue Gas 167

Heat RecoveryW. Kuhn and A. Reynolds

Extending the Life of Fused Cast Ceramics 171R. McGrath and J. Crowe

Enhanced Radar Control for High Performance Bottom Paving 179J–G. Vuillermet, M. Gaubil, I. Cabodi, and O. Bories

High Performance Superstructure Concept for Container Glass 187

FurnacesB. C. Snow and T. Close

Enhanced Hydrated Lime A Simple Solution for Acid Gas 201
ComplianceG. Hunt and M. Sewell

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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.

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