International Smelting Technology Symposium: Incorporating by Jerome P. Downey, Thomas P. Battle, Jesse F. White

By Jerome P. Downey, Thomas P. Battle, Jesse F. White

Complaints of a symposium backed by means of The Metallurgy and fabrics Society of CIM and the Pyrometallurgy Committee of the Extraction and Processing department of TMS (The Minerals, Metals & fabrics Society)
Held through the TMS 2012 Annual assembly & Exhibition Orlando, Florida, united states, March 11-15, 2012Content:

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A particle size analysis of the materials granulated and recovered using the normal production dewatering equipment in the circuit was performed. The results are shown in Table I. Table I. 45% +4000 -4000 2000 A sample of the granulation water was taken from the circuit immediately after a granulation run, and a particle size analysis was conducted on the solids filtered from the solution. These results are shown in Table II. Table II. 33 These results show that the particle size in the suspended solids ranges from 1 micron to approximately 74 microns (200 mesh) in size, with approximately 77 % of the material greater than 74 microns in size, while 14% of the material was less than 1 micron in size.

Baute, and Jesse F. White TMS (The Minerals, Metals & Materials Society), 2012 WASTE HEAT RECOVERY FROM INDUSTRIAL SMELTING EXHAUST GAS Geir Wedde, Anders Sorhuus Alstom Norway, Drammensveien 165, 0277 Oslo, Norway Keywords: Waste Heat, Energy Recovery, Heat Exchangers, Industry, Aluminium, Ferro-Alloy Abstract Vast quantities of energy are released as heat to the environment from industrial operations. Many countries target waste heat recovery to mitigate CO2 emission. Exhaust gases from industries such as primary aluminium smelting, carry a substantial portion of the waste heat generated.

Conclusion A novel sidewall lining concept has been proposed in the vulnerable matte/slag tidal zone of a PGM furnace. An indirectly-cooled graphite ring is applied in this zone with refractory bricks on the hot face. Thermal FEA modeling indicated that this zone will be adequately cooled. The resistance to damage by slag and matte of two graphite grades was evaluated experimentally. Experimental results show that the graphite is not wet by the matte and is resistant to slag attack at operating temperatures.

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