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Mechanisms and models for HG oxidation reactions
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Authors: Geoff Silcox
Summary
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Abstract
As with all IFRF Topic Oriented Technical Meetings, TOTeM 28 united individual IFRF Members and invited guests in a workshop discussion around a topic rather than a technical discipline with a view to identifying Member needs and channeling the IFRF Members’ Research Programme and other R&D activities more closely in line with them.
Chairman Jost Wendt of the University of Utah presided over the topic Mercury, Trace Metals and Fine Particulates in an effort to define:
– Current issues
– The current state of technology
– Technical barriers, gaps
and to determine:
– Future issues
– Future technical issues
– Where current work is being done
– Who and where the key players are
– The respective roles of industry, government, academia, and industrial organizations, such as the IFRF and AFRC
– What R&D initiatives could be taken
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Research: Conference
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Outline
- 01 Programme
- 02 Mercury sampling and analysis: issues and solutions
- 03 An update on DOE’s Mercury R&D program
- 04 Mercury emissions issues in the United States, China, and the developing world
- 05 Hg partitioning, formation and control in electric utilities and in cement plants
- 06 Mechanisms and models for HG oxidation reactions
- 07 Arsenic and selenium partitioning during coal combustion
- 08 Soot Oxidation – with and without additives
- 09 Ash utilization and coal pre-treatment issues
- 10 Micro-pollutant research at ENEL
- 11 Welcome address
- 12 Mercury control strategies and emerging state and Federal regulations
- 13 Micro-pollutant research at Pisa University
- 14 Poster Abstracts
- 15 The EU Project TOMERED – Results of trace metal investigations
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Download PDFSilcox, G. (2007) Mechanisms and models for HG oxidation reactions.