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A Collection of Papers Presented at the 60th Conference on Glass Problems: Ceramic Engineering and Science Proceedings, Volume

Posted By: insetes
A Collection of Papers Presented at the 60th Conference on Glass Problems: Ceramic Engineering and Science Proceedings, Volume

A Collection of Papers Presented at the 60th Conference on Glass Problems: Ceramic Engineering and Science Proceedings, Volume 21, Issue 1 By
2000 | 278 Pages | ISBN: 0470294590 | PDF | 14 MB


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.Content: Chapter 1 Advanced Furnace Design Using New Oxy?Fuel Burners (pages 1–8): R. A. Bauer, A. M. Lankhorst and O. S. VerheijenChapter 2 Opportunities for Radical Innovation in Flat Glass Production Operations (pages 9–29): John P. Dismukes, Mark A. Vonderembse, S. Chandrasekaran, Lonnie Hudspeth and William P. CaldwellChapter 3 Supervisory Advanced Control of Glass Melters by GS Expert System II (pages 31–40): Erik Muysenberg, Josef Chmelar, Robert Bodi and Ton BackxChapter 4 Foaming of Glass Melts (pages 41–58): Ruud Beerkens and Paul LaimbockChapter 5 Validation of Advanced Models for Glass Melting Furnaces (pages 59–76): J. Wang, B. S. Brewster, M. Q. Mcquay and B. W. WebbChapter 6 The Reduction of Persistent TV Glass Defects (pages 77–86): Olaf M. G. C. Op Den Camp and Bert F. J. Van Den BraakChapter 7 The Effect of Shear Angle on Gob Formation (pages 87–107): Matthew R. Hyre and Kenneth PaulChapter 8 Long?Term Experience with Nienburger Glas Batch Preheating Systems (pages 109–121): Ernst F. Beutin and Jurgen H. LeimkuhlerChapter 9 Physical Separation Techniques for the Preparation of Glass Sand (pages 123–145): Jim SadowskiChapter 10 New Developments in Crystalline Silica Regulation (pages 147–152): Robert E. GlennChapter 11 An Effective PEMS Alternative to CEMS for Quantifying Glass Furnace NOx Emissions (pages 153–167): C. Philip Ross, Dick Russell and John MinoChapter 12 Application of Environmental Impact Assessment to the Control of Emissions from Flat Glass Furnaces (pages 169–182): Ian Shulver and Simon SladeChapter 13 Measurements of Sodium in an Oxygen?Natural Gas Fired Soda?Lime?Silica Glass Melting Furnace (pages 183–205): Steven G. Buckley, Peter M. Walsh, David W. Hahn, Robert J. Gallagher, Mahendra K. Misra, John T. Brown, Stephen S. C. Tong, Frederic Quan, Kanwal Bhatia, Kwaku K. Koram, Vincent I. Henry and R. Douglas MooreChapter 14 Batch and Cullet Preheating and Emissions Control on Oxy?Fuel Furnaces (pages 207–219): Ronald W. Schroeder, John D. Kwamya, Peter Leone and Larry BarrickmanChapter 15 Rebonded Spinel for Use in Oxy?Fuel Superstructure Applications (pages 221–236): M. Dunkl, D. Schlacht, G. Boymanns and F. GebhardtChapter 16 Performance and Economics of Furnace Crowns for Oxy?Fuel Glass Melting (pages 237–249): J. Leblanc, A. Burgunder, A. Gupta and S. HopeChapter 17 Refractories for Superstructures in Oxy?Fuel Fired Glass Furnaces: Are All Silica Products Equivalent? (pages 251–262): Xavier Buttol, Roland Dramais and Don GunnChapter 18 Effect of Diopside and Wollastonite on the Melting of Soda?Lime?Silicate Glasses (pages 263–273): Christopher C. Tournour and James E. ShelbyChapter 19 The Glass Manufacturing Industry Council: Linking Industry, Government, and Academia in Glass Research (pages 275–279): Michael Greenman