Transcript ZnCHISA10a
ZINC STRIPPING FROM STEELWORK DUST Kamil Wichterle, Jan Cieslar, Jana Wichterlová VSB-Technical University of Ostrava, 70833 Ostrava Poruba, Czech Republic [email protected] What is the steelwork dust ? World steel production Iron ore Scrap 60% 40% Blast furnace Pig iron Fe, C, (Si,P,S,…) O2 CaO Direct reduction Sponge iron Fe, (Si,P,S,…) Oxygen steelmaking BOF (basic oxygen furnace) Steelmaking slag Fe 0,5%Zn, 0,03%Pb, Electric steelmaking EAF (electric arc furnace) Steel 1 400 mil. t /year Dust 30 mil. t /y 2-5 mil. t Zn /y Dust composition depends mostly on the quality of scrap Statistics for USA and Canada (year 2000) for EAF mostly (50%): Fe 15-30% Zn 12-25% Pb 1-2% Cd 0,02-0,05% Percentage of iron is higher and percentage of the heavy metals is lower in the dust from BOF process (as the heavy metals are absent in the entering pig iron) In particular our samples from the tandem furnaces Arcelor Mittal contained Fe about 50% Zn 8-16% Pb 1% Cd 0,02% Dust as a basic neutralizing agent 1 tonne PRICE NaOH CaO ZnFe2O4 $ 400 $ 25 $ -20 Steelmaking dust processing Pyrometalurgy: Reduction roasting at 1000-2000°C problems: Distillation of Zn (boiling point 907°C) and its condensation in oxidizing environment in form of ZnO Hydrometalurgy: problems: Total dissolution (both Fe and Zn oxides) in conc. H2SO4 or HCl Hydrolysis at increasing pH in large volume of water leads to iron precipitation = haematite, goethite, or jarosite Filtration problems: Chlorine metalurgy: Reaction of Cl2 or HCl with the dust –chlorides formation The iron chlorides decompose at higher temperature to oxides and HCl ZnCl2 (boiling point 756°C) is volatile and it condenses as a watersoluble salt Experimental studies of the reactions of HCl with metallurgy dust VŠB -Technical University of Ostrava Faculty of Metallurgy and Material Engineering Department of Chemistry Jan Cieslar Šárka Langová Juraj Leško Dalibor Matýsek Radim Škuta Jana Wichterlová Kamil Wichterle Arcelor Mittal Steel – Tandem Furnaces The dust in Arcelor Mittal Steel plant is separated by textile filtres and collected as a water suspension – after a sedimenttion in Dorr thickenners the mud is dumped in deposits The dust in Arcelor Mittal Steel plant is collected by textile filtres and transferred to water suspension – after a sedimenttion in Dorr thickenners the mud is dumped in deposits Distribution of particle size for the TP dust sample Mineralogy of the sample TP % w/w Hematit 3,2 Magnetit 35,6 Wuestit 3,2 Franklinit 36,6 Grafit 4,4 Zinkit 5,6 amorphous 11,4 % Zn distribution Zn % 9,9 69,0 4,5 31,0 Inlet HCl Quartz tube Oven Condenser Laboratory equipment EQUILIBRIUM DATA 2 HCl(g) + 1/3 Fe2O3(s) = 2/3 FeCl3(s,l,g) + H2O(g) 2 HCl(g) + 1/4 Fe3O4(s) = 1/4 FeCl2(s,l,g) + 1/2 FeCl3(s,l,g) + H2O(g) 2 HCl(g) + FeO (s) = FeCl2(s,l,g) + H2O(g) 2 HCl(g) + ZnO (s) = ZnCl2(s,l,g) + H2O(g) 2 HCl(g) + 1/4 ZnFe2O4(s) = 1/4 ZnCl2(s,l,g) + 1/2 FeCl3(s,l,g) + H2O(g) 2 HCl(g) + ZnFe2O4(s) = ZnCl2(s,l,g) + Fe2O3(s) + H2O(g) FeCl2(s,l,g) + ZnFe2O4(s) = ZnCl2(s,l,g) + Fe2O3(s) + FeO (s) 2/3 FeCl3(s,l,g) + ZnFe2O4(s) = ZnCl2(s,l,g) + 4/3 Fe2O3(s) Gibbs energy, kJ/mol 80 40 0 200 Eq.(1) Eq.(4) Eq.(7) Eq.(2) Eq.(5) Eq.(8) 400 Eq.(3) Eq.(6) 600 800 Temperature, °C -40 -80 1000 (1) (2) (3) (4) (5) (6) (7) (8) Evidently, iron chlorides are unstable at temperatures higher than 300°C. Zinc chloride is generally chemically stable up to 700°C However, ZnCl2 at higher temperatures leaves the reaction space as a vapor (its boiling point is 756°C) which affects the equilibrium Therefore, higher temperatures are suitable to separate ZnCl2 vapors from the solid residuum of iron oxides 90 80 70 X [%] 60 50 40 30 X(Zn) 20 X(Fe) X(HCl) 10 X(Zn)+X(Fe) 0 100 200 300 400 500 600 700 800 T [°C] Zn, Fe, and HCl conversions as functions of temperature for the TP dust sample (45 minutes reaction) 900 100,0 X(Zn) X(Fe) X [%] 80,0 X(HCl) 60,0 40,0 20,0 0,0 0 10 30 20 40 t [min] Zn, Fe, and HCl conversions as functions of reaction time for the TP dust sample (temperature 900°C) 50 World steel production Iron ore Scrap 60% 40% Blast furnace Pig iron Fe, C, (Si,P,S,…) O2 CaO Direct reduction Sponge iron Fe, (Si,P,S,…) Oxygen steelmaking BOF (basic oxygen furnace) Steelmaking slag Fe 0,5%Zn, 0,03%Pb, Electric steelmaking EAF (electric arc furnace) Steel 1 400 mil. t /year Dust 30 mil. t /y 2-5 mil. t Zn /y World zinc production 2009 8 millions tonnes Zn China (continental) 2.9 Peru 1.4 Australia 1.3 United States 0.7 Canada 0.7 Zinc lossed in steelmaking dust: 3 millions tonnes of Zn 1 tonne of Zn = $ 1500 - $ 2500 !!!!!! (2009-2010) Efficient way of zinc recycling is worth to be studied Thank you for the attention