Chapter 1 reports in Furnace research: comparability of anticipated Thermal potency of Regenerative and High?Oxygen Glass Tanks (pages 1–21): Robert H. Essenhigh
Chapter 2 Oxy?Fuel Furnace layout Optimization utilizing Coupled Combustion/Glass tub Numerical Simulation (pages 23–36): D. Shamp, O. Marin, M. Joshi, C. Champinot, B. Jurcik and R. Grosman
Chapter three television Oxy?Fuel Conversion and event with Noncatalytic Denitrification (pages 37–45): Matthias R. Lindig
Chapter four High?Temperature IR Radiation Conductivity of business Glasses (pages 47–56): Peter A. Van Nijnatten, J. T. Broekhuijse and A. J. Faber
Chapter five Glass Furnace Air allows: do not forget the method (pages 57–64): Michael L. Newsom
Chapter 6 Fused Zirconia or Fused AZS: that's the most suitable choice? (pages 65–80): Gerard Duvierre and Yves Boussant?Roux
Chapter 7 replace on number of Refractories for Oxy?Fuel Glass?Melting carrier (pages 81–105): S. M. Winder, ok. R. Selkregg and A. Gupta
Chapter eight A Fused Silica Pumpable Refractory for Crown harm due to Oxy?Fuel Firing (pages 107–113): Gunter Frohlich
Chapter nine certainly taking place Radioactive fabrics: concerns for Glassmakers (pages 115–132): Charles T. Simmons
Chapter 10 Mathematical Modeling of Forehearths (pages 133–141): O. M. G. C. Op Den Camp, E. G. J. Peters and V. O. Aume
Chapter eleven Oxy?Gas Forehearths: result of Mathematical Modeling of a Flint Glass and box Trials on a Borosilicate Glass (pages 143–154): Alan Stephens, Tom Clayton, Mahendra Misra, John Brown and James Cook
Chapter 12 facts within the Batch Plant (pages 155–170): Richard ok. Pelle
Chapter thirteen blending version Simulation of an On?the?Fly Glass Conversion (pages 171–180): Richard Bergman
Chapter 14 Generalized Predictive regulate for Glass production procedures (pages 181–206): David M. Koenig
Chapter 15 The Glass in Germany: Environmentally Sound Melting and Recycling of Glass (pages 207–214): Helmut A. Schaeffer
Chapter sixteen The NSF Industry?University heart for Glass study: an summary (pages 215–226): T. P. Seward
Chapter 17 A High?Efficiency, Low?NOx Burner for Oxy?Gas Glass Furnaces (pages 227–241): David Rue, Hamid Abbasi, David Neff and Patrick Mohr
Chapter 18 The Pilkington 3R strategy for Controlling NOx Emissions: A Refractory standpoint (pages 243–253): Ian Shulver
Chapter 19 bettering Oxy?Fuel Furnace working potency: An Operator's standpoint (pages 255–269): D. Shamp, J. Smith, M. Joshi, H. Borders, O. Charon and R. Grosman
Chapter 20 an instantaneous comparability of Oxy?Fuel Burner expertise (pages 271–281): John H. Tyler, James F. sales space, Robert D. Marchiando and Kevin A. Lievre
Chapter 21 The Glass production Council (pages 283–287): James A. Shell
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Extra info for 59th Conference on Glass Problems: Ceramic Engineering and Science Proceedings, Volume 20, Issue 1
2 mbar. 25. CO, CO,, NO, NO,, and 0, were measured in the flue gas. The results of the investigations showed that most of the burners from different suppliers have comparable performance concerning NO, emission. In comparison to the other burner types the MG burner showed a very sufficient performance (Fig. 6). Finally the NH, addition was optimized to achieve a more complete reaction between the ammonia and the flue gas. It must be mentioned that wind cooling is significantly affecting the tank pressure because of the 44 comparably low amount of flue gas.
T. J. Faber TNO Institute of Applied Physics, Eindhoven,The Netherlands Radiation is the dominant mode of heat transfer at melting and forming temperatures of glass. The radiative properties of industrial glasses depend on temperature, glass composition, type and content of coloring ions, water contenf and redox state. Because there is an obvious lack of reliable data on these radiative properties. 7-9 pm of glass at temperatures up to 1450°C. Many of the systematic errors occurring in existing measurement methods are eliminated by the special features of this facility, which include control of the atmosphere above the melt and the redox state of the glass.
In light of these facts the conversion became reasonable, although during the project development phase it became clear that the conversion would cause problems in terms of permits. German environmental ordinances related to hazardous contamination of flue gases released from glass production facilities at the time focused only on concentration-related data. From this viewpoint the conversion would result in a worsening of the 37 clean gas conditions because of the increase of NO, concentration.