ITP Metal Casting: Advanced Melting Technologies: Energy Saving ...

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Endnotes 1 Albany Research Center, “Improving Energy Efficiency in Aluminum Melting”, Presentation at 2005 Aluminum Portfolio Review. 2 J.F. Schifo, “Theoretical/Best Practice Energy Use In Metalcasting Operations,” Keramida Environmental, Inc. May 2005, p 4. 3 Department of Energy, Energy Efficiency and Renewable Energy, Industrial Technology Program, Aluminum Industry of Future, “Indirect-Fired, Controlled Atmosphere Decoating of Aluminum Scrap” 2002. 4 Vladimir Y Gershtein, “Economics of Oxygen-Based Aluminum Smelters,” Industrial Heating, November 2000. 5 Department of Energy, Energy Efficiency and Renewable Energy, Industrial Technology Program, Aluminum IOF, “In-Situ, Real-Time Measurement of Melt Constituents.” 2004. 6 “Technology of Metalcasting,” Melt furnaces. p 113. 7 “Thermal Efficiency of Steel Melting,” by Kent D. Peaslee, Simon Lekakh and Bradley Randall, 58 th T&O Conf Proceedings, SFSA, 2004. 8 “Energy and Environmental Profile of the U.S. Metalcasting Industry”, September 1999, Energetics, Incorporated. 9 Albany Research Center, “Improving Energy Efficiency in Aluminum Melting” presentation at 2005 Aluminum Portfolio Review 10Communication with Case Western Reserve University 11 Department of Energy, Metal Casting Multi Year Program Plan, p.1. 12 Natural gas has more than doubled in the last five years and is expected to rise in costs substantially in the near term as a result of Hurricane Katrina in the Gulf Coast, a key producer of domestic natural gas. 13 North American Die Casting Association, Energy Saving Manual, 1998. 14 This kits is developed by a British company, Morganite. 15 H.P. Harbin and E.S. Reno Jr., New Ideas for Cupola Refractory Practice, AFS Trans. 98, p. 529-531. 16 Melting More Efficiently. Foundry Management & Technology, April 2005. 17 T.B. Niehoff, S.P. Smith and D. Saha, Cupola Operating System for Dust Injection and Improved Process Flexibility, AFS Tran. 1998, p. 427-433. 18 W. J. Peck, W. H. Provis, B.A. Buczkowski, A.D. Karp and S.V. Dighe, “Plasma-Fired Cupola: An Innovation in Iron Foundry Melting,” AFS Transaction Paper, 90 th Casting Congress, May 11-15, 1986. 19 J. Gray, C. Fry, W. Chaput, M.F. Darr , and S.V. Dighe, Plasma Cupola Operations at General Motors Foundry, AFS Trans., Vol.98, p. 553-558. 20 E. Schurmann and W. Hein, Contribution to Melting of Cast Iron in Cokeless, Natural Gas- Fired Cupola Furnace, AFS Trans., Vol. 96, p. 693-698. 42
21 Energetics, Inc., Energy and Environmental Profile of the U.S. Steel Industry, prepared for the U.S. Department of Energy, August 2000., p37 22 http://www.energysolutionscenter.org/HeatTreat/MetalsAdvisor/iron_and_steel/process_descri ptions/raw_metals_preparation/steelmaking/electric_arc_furnace/electric_arc_furnace_equipm ent.htm. 23 Department of Energy, Energy Efficiency and Renewable Energy, Industrial Technology Program “Advanced Scalable Clean Aluminum Melting Systems.” 24 North American Die Casting Association. 25 J. H. Mortimer, Melt Shop 2000, AFS Tran. p. 275-286. 26 J. H. Mortimer, Batch Induction Melting. The Science and Technology, Inductotherm, 2003. 27 R.Q. Sharpless, Induction Melting: Moving into the 21 st century, AFS Trans. 97, p.797-803. 28 J. H. Mortimer, The Science Behind Batch Induction Melting, AFS Trans. 96, p.229-235. 29 E. Dotsch, Quiet MF Coreless Furnaces for High Outputs, Foundry Trade Journal International, 09, 1995, p.98-102. 30 E. Dotsch. 31 Charles H. Fink, Jr., “Modern Induction Melting Improves Process and Productivity,” Foundry Management and Technology, July 2005. [Electronic version]. 32 A.J. Grady. 33 Oak Ridge National Laboratory, “Refractories for Industrial Processing: Energy Reduction Opportunities,” December 2004. 34 Vladimir Y. Gershtein, “Economics of Oxygen Based Aluminum Smelter,” Industrial Heating November, 2000 [Electronic Version]. 35 http://cmc.aticorp.org/datafactors.html 36 Oak Ridge National Laboratory, “Refractories for Industrial processing: Energy Reduction Opportunities”, December 2004, p. 9. 37 http://www.us.lindegas.com/International/Web/LG/US/likelgus.nsf/DocByAlias/nav_ind_iron_ found_rot. 38 A. J. Grady, Refractory Installation and Vibration System for Coreless Induction Furnaces, AFS Tran, 99, p.413-418. 39 “Why Does Oxy-Fuel Make Sense?” Air Products and Chemicals, Inc. 2005, [Electronic version]. 40 J.F. Schifo, “Theoretical/Best Practice Energy Use In Metalcasting Operations,” Keramida Environmental, Inc. May 2005, p.36. 41 R. Bakish, “Advancements In Electron Beam Melting and Refining,” Bakish Materials Corp., Englewood, NJ, Sept 2001 http://www.industrialheating.com/CDA/ArticleInformation/coverstory/BNPCoverStoryItem/0, 2830,62953,00.html 43
Page 1 and 2: Advanced Melting Technologies: Ener
Page 3 and 4: Acknowledgments This study was a co
Page 5 and 6: Executive Summary The metal casting
Page 7 and 8: 1. Objective and Scope of the Study
Page 9 and 10: 3. Melting Process Overview The mel
Page 11 and 12: offers a critical opportunity to re
Page 13 and 14: transfer rate and reduced time requ
Page 15 and 16: 3.4 Selecting Appropriate Melting T
Page 17 and 18: Source: Metals Handbook by ASM Inte
Page 19 and 20: Cokeless Cupola: Iron is melted in
Page 21 and 22: 4.1.4 Immersion Heaters (Low-Temper
Page 23 and 24: elements, advanced coil insulation,
Page 25 and 26: everberatory furnace. Energy benefi
Page 27 and 28: 4.2 Experimental Melting Furnaces S
Page 29 and 30: Another project sponsored by the IT
Page 31 and 32: 4.2.5 Plasma Heating Exhibit 22: Pl
Page 33 and 34: A vertical tube-within-tube convect
Page 35 and 36: molten metal between furnaces or to
Page 37 and 38: 4.4.5 Mechanical Circulating Pumps
Page 39 and 40: scrap preheating system must be of
Page 41 and 42: Limited Available Resources compari
Page 43 and 44: energy efficiency within the melt r
Page 45 and 46: Ferrous Launder System A launder sy
Page 47: The study concludes that to achieve
Page 51 and 52: 60 Plasma Beam Systems, Benefits of

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