BIOLEACHING PROCESS OF RARE EARTH ELEMENTS FROM RED MUD WASTE ALUMINA PURIFICATION PROCESS IN TAYAN, WEST KALIMANTAN, USING BACILLUS ZANTHOXYLI STRAIN SKC/VA-2
Residual bauxite or red mud is the residue from the Bayer process that refines bauxite ore into alumina. Red mud contains valuable metals such as Fe, Al, Ti and rare earth elements (REE) such as Ce, Sc, Y, Nd and Gd, which make this waste toxic and can cause environmental pollution. The metal rec...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/71297 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Residual bauxite or red mud is the residue from the Bayer process that refines
bauxite ore into alumina. Red mud contains valuable metals such as Fe, Al, Ti and
rare earth elements (REE) such as Ce, Sc, Y, Nd and Gd, which make this waste
toxic and can cause environmental pollution. The metal recovery from red mud
waste is usually extracted by the hydrometallurgical process. As an alternative to
the hydrometallurgical process, a process was developed to extract metals from red
mud using the biohydrometallurgical process. Biohydrometallurgy is an ecological
process which requires low energy and can be used to extract metals at very low
concentrations. This study examines the recovery of REE from the bauxite ore
processing industry in Tayan, West Kalimantan by the bioleaching method using
Bacillus zanthoxyli strain SKC/VA-2 as a leaching agent.
A series of bioleaching experiments were conducted to study the effect of pulp
density and bioleaching medium on the extraction percentage of REE. The
bioleaching process was conducted at room temperature (± 25°C), medium pH 1,
with red mud particle size -200# +270# (-75 ?m +53 ?m), 10% (v/v) bacterial
inoculum and 180 rpm rotary shaker speed for 7 days. Bioleaching experiments
were conducted at 2% and 5% pulp density and four medium variations as follows:
4 g/L molasses, 5 g/L sulfur addition, 5 g/L sulfur and 2.8 g/L pyrite addition and
10 g/L sulfur and 5.6 g/L pyrite addition. Percentage of REE extraction as a
function of time at various bioleaching conditions was periodically determined by
ICP-MS (inductively coupled plasma-mass spectrometry) analysis.
Based on the experimental results, the best bioleaching process parameters were
2% pulp density variation in Medium 2 (molasse 4 g/L, sulfur 5 g/L) with REE
extraction percentage of 98,11% Tb; 98,41% Gd; 95,0% Lu; 78,76% Nd; 45,03%
La; 41,99% Ce; 38,05% Y. Increasing pulp density causes a decrease in the percent
of REE extraction due to cell damage, decreased O2 concentration and agitation
effects. This is due to the increased solution of viscosity and inhibited bacterial
growth due to the increased metal concentration in the bioleaching medium which
is toxic. The decrease in the percent of REE extraction in the medium without the
addition of sulfur and pyrite is due to bacteria due to the lack of energy supply.
Sulfur acts as a source of sulfide compounds needed as electron donors for bacterial
metabolism while pyrite acts as a source of Fe2+ to increase the redox potential
value in bioleaching |
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