ITP Metal Casting: Advanced Melting Technologies: Energy Saving ...
ITP Metal Casting: Advanced Melting Technologies: Energy Saving ...
ITP Metal Casting: Advanced Melting Technologies: Energy Saving ...
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21 Energetics, Inc., <strong>Energy</strong> and Environmental Profile of the U.S. Steel Industry, prepared for the<br />
U.S. Department of <strong>Energy</strong>, August 2000., p37<br />
22 http://www.energysolutionscenter.org/HeatTreat/<strong>Metal</strong>sAdvisor/iron_and_steel/process_descri<br />
ptions/raw_metals_preparation/steelmaking/electric_arc_furnace/electric_arc_furnace_equipm<br />
ent.htm.<br />
23 Department of <strong>Energy</strong>, <strong>Energy</strong> Efficiency and Renewable <strong>Energy</strong>, Industrial Technology<br />
Program “<strong>Advanced</strong> Scalable Clean Aluminum <strong>Melting</strong> Systems.”<br />
24 North American Die <strong>Casting</strong> Association.<br />
25 J. H. Mortimer, Melt Shop 2000, AFS Tran. p. 275-286.<br />
26 J. H. Mortimer, Batch Induction <strong>Melting</strong>. The Science and Technology, Inductotherm, 2003.<br />
27 R.Q. Sharpless, Induction <strong>Melting</strong>: Moving into the 21 st century, AFS Trans. 97, p.797-803.<br />
28 J. H. Mortimer, The Science Behind Batch Induction <strong>Melting</strong>, AFS Trans. 96, p.229-235.<br />
29 E. Dotsch, Quiet MF Coreless Furnaces for High Outputs, Foundry Trade Journal International,<br />
09, 1995, p.98-102.<br />
30 E. Dotsch.<br />
31 Charles H. Fink, Jr., “Modern Induction <strong>Melting</strong> Improves Process and Productivity,” Foundry<br />
Management and Technology, July 2005. [Electronic version].<br />
32 A.J. Grady.<br />
33 Oak Ridge National Laboratory, “Refractories for Industrial Processing: <strong>Energy</strong> Reduction<br />
Opportunities,” December 2004.<br />
34 Vladimir Y. Gershtein, “Economics of Oxygen Based Aluminum Smelter,” Industrial Heating<br />
November, 2000 [Electronic Version].<br />
35 http://cmc.aticorp.org/datafactors.html<br />
36 Oak Ridge National Laboratory, “Refractories for Industrial processing: <strong>Energy</strong> Reduction<br />
Opportunities”, December 2004, p. 9.<br />
37 http://www.us.lindegas.com/International/Web/LG/US/likelgus.nsf/DocByAlias/nav_ind_iron_<br />
found_rot.<br />
38 A. J. Grady, Refractory Installation and Vibration System for Coreless Induction Furnaces,<br />
AFS Tran, 99, p.413-418.<br />
39 “Why Does Oxy-Fuel Make Sense?” Air Products and Chemicals, Inc. 2005, [Electronic<br />
version].<br />
40 J.F. Schifo, “Theoretical/Best Practice <strong>Energy</strong> Use In <strong>Metal</strong>casting Operations,” Keramida<br />
Environmental, Inc. May 2005, p.36.<br />
41<br />
R. Bakish, “Advancements In Electron Beam <strong>Melting</strong> and Refining,” Bakish Materials Corp.,<br />
Englewood, NJ, Sept 2001<br />
http://www.industrialheating.com/CDA/ArticleInformation/coverstory/BNPCoverStoryItem/0,<br />
2830,62953,00.html<br />
43