Anthracite fines

General features Ferric oxide Fe2O3 1,9 Sizing more 010 mm (%) 90,0 Caustic lime CaO 0,75 Sizing (%) less1 mm (%) 35,0 Magnesium oxide MgO 0,99 Total Moisture , % Wr 13,0 Titanium oxide TiO2 0,8 Moisturehygroscopic (adb), % Wrh 3,5 Manganous oxide MnO2 0,04 Ash (adb), % Ad 12,0 Phosphorus oxide P2O5 0,1 Volatilematter, % Vdaf 3,5 Sulphur oxide SO3 0,2 FixedCarbon Cfdaf 97,0 Sodium oxide Na2O 0,9 Volume of volatile matter , sm3/gr Vvdaf 62,0 Potassium oxide K2O 2,7 Realdensity, gr/sm3 drd 1,77 Ash Fusion Temperature (in oxygen atmosphere), 0C Apparent density, gr/sm3 dad 1,6 InitialDeformation tA 1140 Porousity % Prd 9,7 H=1/2W tB 1440 GrossCalorificValue, MgJ/kg Qsdaf 33,74 Fluid tC 1490 GrossCalorificValue, kcal/kg Qsdaf 8100 HardgroveGrindabilityIndex. HGI 3960 NetCalorificValue, MgJ/kg Qir 25,13 Macerale structure, %: NetCalorificValue, kcal/kg Qir 6000 Cleancoal 98 ReactivitywithCO2, sm3 /gr Rco2 0,88 Claysubstance Mgl 2 Structural toughness, % nc 86,4 Sulphide Ms 0 Resistivity, Om/sm P 3,0*102 Carbonate Mk 0 Thermal stability, % nTC 91,1 Quartz Mkz eCTL Total Sulphur, % Std 0,20 Structure of clean coal, % Carbon, % Ctdaf 94,41 Vitrinite Vt 36 Hydrogen, % Htdaf 1,62 Exinite (Liptinite) L 0 Nitrogen, % Ndaf 1,4 Semivitrinite Sv 6 Oxygen, % Oddaf 2,78 Inertinite I 58 Phosphorus, % Pd 0,0015 The sum of fusain components, % EOK 62 Chlorine, % Cld 0,045 Vitrinitereflectance RO 3,98 Arsenic, % As 0,0035 Vitrinitereflectanceanisotropy AR 64 Elementary ash analysis, % Standard deviation % SR 0,407 Silicon oxide SiO2 66,9 Number of breaks - 2 Aluminium oxide Al2O3 24,72