LEADER 07455nam 22005293 450 001 9911019523603321 005 20230728080304.0 010 $a9781394200306 010 $a1394200307 010 $a9781394200283 010 $a1394200285 035 $a(MiAaPQ)EBC7275457 035 $a(Au-PeEL)EBL7275457 035 $a(CKB)27860996700041 035 $a(Exl-AI)7275457 035 $a(Perlego)4195474 035 $a(EXLCZ)9927860996700041 100 $a20230728d2023 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$a83rd Conference on Glass Problems, Ceramic Transactions Volume 271 210 1$aNewark :$cJohn Wiley & Sons, Incorporated,$d2023. 210 4$dİ2023. 215 $a1 online resource (161 pages) 225 1 $aCeramic Transactions Series 311 08$aPrint version: ACerS (American Ceramics Society, The) 83rd Conference on Glass Problems, Ceramic Transactions Volume 271 Newark : John Wiley & Sons, Incorporated,c2023 9781394200276 327 $aCover -- Title Page -- Copyright -- Contents -- Foreword -- Preface -- Acknowledgements -- PLENARY -- Evolution of Refractory in the Glass Industry -- ABSTRACT -- INTRODUCTION -- REFRACTORY EVOLUTION OF THE GLASS CONTACT AREA -- REFRACTORY EVOLUTION OF THE MELTER CROWN -- REFRACTORY EVOLUTION OF THE MELTER BOTTOM -- REFRACTORY EVOLUTION OF THE REGENERATOR -- REFERENCES -- How Big Is My Carbon Footprint?Revisited -- ABSTRACT -- INTRODUCTION -- ELECTRICITY GENERATION BY SOURCE -- HYDROGEN -- CONCLUSION -- REFERENCES -- Glass Melting of the Future -- ABSTRACT -- INTRODUCTON -- CONCLUSION -- REFERENCES -- QUALITY -- Digital Measurement of Cord Stresses in Container Glass -- ABSTRACT -- CORD DETECTION -- SAMPLE PREPARATION -- MANUAL MEASUREMENT -- DIGITAL MEASUREMENT -- MEASUREMENT CHALLENGES -- PERFORMANCE COMPARISON WITH GAGE R& -- R ANALYSIS -- SAMPLE SELECTION -- TEST PLANNING AND EXECUTION -- MEASUREMENT RESULTS -- MEASUREMENT TIMES -- OBSERVATIONS -- GAGE R& -- R ANALYSIS RESULTS -- CONCLUSION -- The Electrical Systems Will Become the Gas Skits of the Future -- INTRODUCTION -- OUR PAST -- OUR PRESENT -- OUR ELECTRIC FUTURE -- HOW CAN SCHNEIDER ELECTRIC CONTRIBUTE? -- CONCLUSION -- REFERENCES -- MELTING AND CONTROL -- All-Electric-Forehearth Design with Zero Emissions -- INTRODUCTION -- SPECIALLY DESIGNED PROFILED ROOF BLOCK -- RADIANT HEATING ELEMENTS -- CENTRE LINE RADIATION COOLING IN REAR ZONES -- TARGETED INSULATION -- LOW THERMAL MASS INSULATION -- IN-GLASS TEMPERATURE MEASUREMENT -- AUTOMATED COOLING DAMPERS, FH DESIGNED READY FOR AUTOMATED CONTROL -- EASY ACCESS GUARDING AND LOW MAINTENANCE -- ZERO CO2 EMISSION -- ENERGY EFFICIENCY -- The Fully Compartmentalized Glass Furnace -- INTRODUCTION -- P-10 PROCESS FLOW -- 10-1 ROTARY KILN -- 10-2 ROTARY ABLATIVE MELTER -- 10-3 RECEIVER -- 10-4 VACUUM COLUMN REFINER -- 10-5 TRANSITION. 327 $aPERSPECTIVE ON P-10 -- REFERENCES -- 5-Year Operating Experience with the Optimelt? Heat Recovery Technology on a Tableware Furnace -- ABSTRACT -- INTRODUCTION -- GENERAL PROJECT EXPERIENCE -- GREEN GLASS ISSUE -- BACKWALL-PORT CONNECTION -- BURNER PORT ISSUE -- REFRACTORY WEAR DOWNCOMER PORT - DAMPER DOOR -- REGENERATORS KEEP CLEAN WITH OPTIMELT TECHNOLOGY -- OXYGEN SENSOR ISSUEA -- OPTIMELT IMPACT ON FLUE GAS SYSTEM -- ENERGY EFFICIENCY -- FURNACE EMISSIONS -- CONCLUSION -- Modern Controller and Sensor Technology to Achieve Optimum Energy Efficiency -- INTRODUCTION -- COMBUSTION CONTROL -- GLASS FURNACE SIMULATION -- SUPPORT THE DESIGN OF THE FURNACE OF THE FUTURE -- SUPPORT DAILY PRODUCTION -- GLASS MELT CONTROL -- REFERENCES -- REFRACTORIES AND RAW MATERIALS -- How Will the Electrification of Glass Furnaces Impact Refractories? -- ABSTRACT -- INTRODUCTION -- EFFECT OF ELECTRICAL BOOSTING ON REFRACTORIES -- SIDEWALL CORROSION -- BOTTOM PAVING CORROSION -- ELECTRODE BLOCK CORROSION -- CONCLUSION -- Future-Proofing Your Dust Collection System Best Practices in Dust Collection for the Glass Industry -- ABSTRACT -- INTRODUCTION -- STEP 1: UNDERSTAND YOUR DUST -- STEP 2: DETERMINE EXPOSURE LEVELS AND PERMISSIBLE EXPOSURE LIMITS -- STEP 3: CONTAIN DUST-PRODUCING PROCESSES -- STEP 4: CHOOSE A DUST COLLECTION APPROACH -- STEP 5: DUST COLLECTOR SELECTION AND SYSTEM DESIGN -- CONSIDERATIONS FOR FUTURE-PROOF DUST COLLECTION SYSTEM DESIGN -- CONCLUSION -- REFERENCES -- COMBUSTION AND SUSTAINABILITY -- Partial Oxy-Fuel Conversion of Glass Forehearths: A Cost-Effective Way to Reduce CO2 Emissions by 50% -- ABSTRACT -- INTRODUCTION -- LINDE'S PARTIAL OXY-FUEL FOREHEARTH SOLUTION -- CFD MODELLING -- SINGLE-ZONE BETA TEST -- FULL FOREHEARTH CONVERSION -- CONCLUSION -- Advances in Glass Industry Energy Savings using Heat Oxycombustion -- ABSTRACT. 327 $aINTRODUCTION: ENERGY EFFICIENCY IMPROVEMENT -- RADIATIVE HEAT EXCHANGE -- CHALLENGES OF IMPLEMENTING HEATOX R -- COMPUTATIONAL FLUID DYNAMICS (CFD) -- COMPARISON OF EXPERIENCE VS. CFD -- CONCLUSIONS ON THE PILOT SYSTEM & -- NEXT STEPS -- REFERENCES -- Blue and Green Hydrogen Production, Distribution, and Supply for the Glass Industry and the Potential Impact of Hydrogen Fuel Blending in Glass Furnaces -- INTRODUCTION -- BLUE AND GREEN HYDROGEN FOR THE GLASS INDUSTRY -- THE POTENTIAL IMPACT ON HYDROGEN FUEL BLENDING IN GLASS FURNACES -- CONCLUSION -- REFERENCES -- Design and Implementation of Optifire? Flex Burner for Foam Reduction in Oxy-Fuel Glass Furnaces -- ABSTRACT -- INTRODUCTION -- PRIMARY FOAM -- SECONDARY FOAM -- EFFECT OF FURNACE ATMOSPHERE ON FOAM STABILITY -- STAGED COMBUSTION -- FOAM MITIGATION APPROACH WITH FLEX BURNER -- BURNER ATTRIBUTES AND INSTALLATION -- FOAM MITIGATION TRIAL AT CUSTOMER SITE -- FIELD RESULTS -- IN FURNACE GAS ANALYSIS DURING FLEX BURNER TRIAL -- CURRENT STATUS OF FLEX BURNERS -- SUMMARY OF FLEX BURNER TEST RESULTS IN 500 TPD CONTAINER GLASS FURNACE -- REFERENCES -- EULA. 330 $aThe 83rd Conference on Glass Problems is a comprehensive collection of papers presented at the annual event held in 2022 at the Greater Columbus Convention Center, Columbus, Ohio. Edited by S. K. Sundaram and published by The American Ceramic Society, this volume is part of the Ceramic Transactions series. It explores various aspects of glass manufacturing, focusing on innovations and challenges in the industry. Key topics include advancements in refractory materials, energy efficiency, oxy-fuel combustion, and hydrogen fuel blending in glass furnaces. The book is intended for professionals and researchers in the glass industry, offering insights into modern technologies and practices aimed at improving glass production processes. The conference featured plenary sessions, technical presentations, and discussions on quality control, melting technologies, and raw material management.$7Generated by AI. 410 0$aCeramic Transactions Series 606 $aGlass manufacture$7Generated by AI 606 $aRefractory materials$7Generated by AI 615 0$aGlass manufacture 615 0$aRefractory materials 676 $a666.1 700 $aACerS (American Ceramics Society$b The)$01839846 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9911019523603321 996 $a83rd Conference on Glass Problems, Ceramic Transactions Volume 271$94419225 997 $aUNINA