STUDY OF VARIABLES SIGNIFICANCE AND OPTIMIZATION TO REDUCTIVE LEACHING PARAMETERS OF BANGKA PRE-OXIDIZED ILMENITE IN HYDROCHLORIC ACID USING ANOVA AND TAGUCHI METHODS TO PRODUCE SYNTHETIC RUTILE
Rutile is used as a raw material in the pigment industry and in the Kroll process which requires feed with titanium dioxide levels above 90%. However, due to the lack and depletion of natural rutile in nature, ilmenit upgrading to produce synthetic rutile become promising in order to substitute t...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/49098 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Rutile is used as a raw material in the pigment industry and in the Kroll process
which requires feed with titanium dioxide levels above 90%. However, due to the
lack and depletion of natural rutile in nature, ilmenit upgrading to produce
synthetic rutile become promising in order to substitute the industrial need for
rutile. The process of rutile extraction from ilmenite mineral can be carried out
either by the pyrometallurgical route through melting to produces titanium-rich
slag or by the hydrometallurgical route through leaching in acidic solutions,
separation of iron and titanium and titanium recovery. In this study the effect of
pre-oxidation and reductive leaching on the performance of Bangka ilmenite
leaching in hydrochloric acid was studied. Analysis by the Taguchi and ANOVA
methods was carried out to optimize the process and determining the significance
and contribution of leaching variables to the extraction percentage of Fe and Ti.
The experimental work was started with the preparation, sampling, and
characterization of the initial ilmenite sample by using XRD, mineragraphy, and
XRF analyses. Preliminary experiments were carried out to determine the optimal
temperature to oxidize ilmenite that yields rutile and hematite. Afterward, a series
of leaching experiment was conducted using the Taguchi orthogonal array L'16
(45), that uses 5 leaching variables, each with 4 levels. Variables that were kept
constant in the leaching experiment were stirring speed of (700 rpm), volume of
HCl solution (200 ml), and Fe°/Ilmenite mass ratio of 1/5. The leaching variables
which were studied are HCl concentration, leaching temperature, solid-liquid ratio,
ilmenite size fraction, and leaching time.
Optimum temperature for oxidation was obtained at 700°C, for 6 hours. The
leaching variables that have significant effect to Fe extraction are leaching
temperature, solid-liquid ratio, HCl concentration, and ilmenite size fraction. The
leaching duration at the range studied did not significantly affect extraction
percentages of iron and titanium. The leaching variables that significantly affect
titanium extraction are in the order of: solid-liquid ratio, HCl concentration,
temperature, size fraction, and leaching time. Optimal leaching condition was
obtained at 6M HCl concentration, temperature 80°C, S/L ratio 1/20, ilmenite size
fraction of -200 +325#, 6-hour leaching time, with iron and titanium extraction
percentages of 98.07% and 11.35%, respecively. Selectivity of Fe leaching to Ti
under optimum condition reached 0.9 (out of 0-1 scale). The ilmenite leaching
residues under optimal conditions contains 92.6% of rutile (TiO2), 2.9% of
hematite (Fe2O3), and 2.5% of cassiterite (SnO2). |
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