The relationship between excluded mineral matter and the abrasion index of a coal

Predictions of the wear rates of components in grinding mills at pulverised coal-fired power stations are currently made using empirical relationships based on the ash content of the coals. However, modern coal characterisation techniques now allow the mineral inclusions in a coal that are responsib...

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Veröffentlicht in:	Fuel (Guildford) 2004-02, Vol.83 (3), p.359-364
Hauptverfasser:	Wells, J.J., Wigley, F., Foster, D.J., Gibb, W.H., Williamson, J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Abrasion Applied sciences Coal and derived products Coal milling Coal minerals Energy Erosion Exact sciences and technology Fuels Mechanical preparation Processing
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creator	Wells, J.J. Wigley, F. Foster, D.J. Gibb, W.H. Williamson, J.
description	Predictions of the wear rates of components in grinding mills at pulverised coal-fired power stations are currently made using empirical relationships based on the ash content of the coals. However, modern coal characterisation techniques now allow the mineral inclusions in a coal that are responsible for the abrasive nature of the coal to be accurately characterised. Hence, there is scope to make improved predictions of wear based on a detailed knowledge of the mineral matter in a particular coal. It is first necessary, however, to understand the nature of the minerals and properties of the minerals in a coal that would contribute to abrasive wear. In this study known quantities of quartz, pyrite and slate have been added to a washed coal and the Abrasion Indices of the coal/mineral mixtures have been measured. The results show how the size, shape and hardness of excluded mineral matter contribute to the abrasive properties of a coal.
doi_str_mv	10.1016/S0016-2361(03)00262-X
format	Article
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subjects	Abrasion Applied sciences Coal and derived products Coal milling Coal minerals Energy Erosion Exact sciences and technology Fuels Mechanical preparation Processing
title	The relationship between excluded mineral matter and the abrasion index of a coal
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