Abstract
Metal casting operations are a significant source of hazardous air pollutants. In particular, high production iron foundries emit significant quantities of volatile organic compounds (VOCs) during pouring, cooling and shakeout of iron castings made in green sand molds. End-of-the-pipeline capture and destruction methods to reduce VOC emissions add crippling costs to foundries. Alternately, the incorporation of advanced oxidants (AO) into metal casting green sand systems has been shown to reduce emissions from high production iron foundries in the US, and at the same time reduce operating costs. Cost savings are driven by the benefits of AO in clay recovery systems. Emissions reductions are the direct result of cascading AO-based reactions taking place in green sand molds. This sustainable greening of the metal casting process is a prototype for the development of other AO and non-AO process-based solutions for sustainable high temperature processing of materials. Fundamentals of AO technologies will be discussed along with the performance characteristics of AO processing systems in the metal casting industry and the breadth of other processing and remediation applications for which AO technologies have the potential to be successfully employed.
Original language | English (US) |
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Pages | 369-373 |
Number of pages | 5 |
State | Published - Dec 1 2002 |
Event | Green Processing 2002 - Proceedings: International Conference on the Sustainable Processing of Minerals - Cairns, QLD., Australia Duration: May 29 2002 → May 31 2002 |
Other
Other | Green Processing 2002 - Proceedings: International Conference on the Sustainable Processing of Minerals |
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Country/Territory | Australia |
City | Cairns, QLD. |
Period | 5/29/02 → 5/31/02 |
All Science Journal Classification (ASJC) codes
- General Engineering