Demineralization of a Low-Rank Coal to Produce Clean Coal for Industrial Utilization

Abstract: An investigation was carried out for the demineralization of a low-rank coal containing high ash (37.74%) and sulphur (8.65%) content to clean it for industrial utilization. The raw coal was evaluated by proximate analysis, total sulphur and Gross Calorific Value (GCV). Run-of-mine coal as received was stage crushed and ground under controlled conditions to fair liberation size. The gravity concentration technology using diagonal deck concentrating table was employed to produce clean coal. A number of gravity … Show more

“…Coal ash deposition is influenced by the type of mineral present in coal [ 50 ]. A significant amount of silica indicates the presence of clay minerals such as shale, slate, and silicates in the coal [ 51 ]. A high Fe 2 O 3 content indicates the presence of inorganic species, which are associated with sulfur in the mineral pyrite and jarosite.…”

Hydrothermal dewatering of low-grade coal: Product evaluation and primary component analysis of ash deposition

“…Coal ash deposition is influenced by the type of mineral present in coal [ 50 ]. A significant amount of silica indicates the presence of clay minerals such as shale, slate, and silicates in the coal [ 51 ]. A high Fe 2 O 3 content indicates the presence of inorganic species, which are associated with sulfur in the mineral pyrite and jarosite.…”

Hydrothermal dewatering of low-grade coal: Product evaluation and primary component analysis of ash deposition