Abstract
Coal ash char concentrates from four countries (Portugal, Poland, Romania, and South Africa) were prepared, characterised, and graphitized under the scope of the Charphite project (Third ERA-MIN Joint Call (2015) on the Sustainable Supply of Raw Materials in Europe). Coal ash chars may be a secondary raw material to produce synthetic graphite and could be an alternative to natural graphite, which is a commodity with a high supply risk. The char concentrates and the graphitized material derived from the char concentrates were characterised using proximate analysis, X-ray fluorescence, X-ray diffraction (structural), Raman microspectroscopy, solid-state nuclear magnetic resonance, scanning electron microscopy, and petrographic analyses to determine if the graphitization of the char was successful, and which char properties enhanced or hindered graphitization. Char concentrates with a lower proportion of anisotropic particles and a higher proportion of mixed porous particles showed greater degrees of graphitization. It is curious to see that embedded Al2O3 minerals, such as glass and clay, influenced graphitization, as they most likely acted as catalysts for crystal growth in the basal direction. However, the graphitized samples, as a whole, do not compare well against a reference natural graphite sample despite some particles in select char concentrates appearing to be graphitized following graphitization.
Highlights
1222 million tons of coal combustion by-products (CCP), such as bottom ash (CBA), fly ash (CFA), and flue gas desulphurization residues (FGD), are produced annually in the world [1].Minerals 2020, 10, 986; doi:10.3390/min10110986 www.mdpi.com/journal/mineralsThe landfilling thereof leads to environmental, health, and economic concerns [2,3]
The results presented here form part of the third ERA-MIN collaboration on Sustainable energy technologies–Charphite”
The beneficiation process differed for each country [38,39,41,42,43], and some resulting low-carbon residues were tested for applications in building materials [44]
Summary
1222 million tons of coal combustion by-products (CCP), such as bottom ash (CBA), fly ash (CFA), and flue gas desulphurization residues (FGD), are produced annually in the world [1].Minerals 2020, 10, 986; doi:10.3390/min10110986 www.mdpi.com/journal/mineralsThe landfilling thereof leads to environmental, health, and economic concerns [2,3]. 1222 million tons of coal combustion by-products (CCP), such as bottom ash (CBA), fly ash (CFA), and flue gas desulphurization residues (FGD), are produced annually in the world [1]. CFA and CBA consist of aluminosilicate amorphous phases and minerals, such as quartz, mullite, hematite, magnetite, and lime. Due to the rapid cooling of molten ash, crystallization is hindered, explaining the high percentages of amorphous material in CFA and CBA. A carbon-rich solid residue occurring as partially or incomplete reacted carbon, is present in CFA and CBA in percentages
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