MINERALOGY AND ENRICHMENT OF ION-ADSORPTION TYPE REE ON WEATHERED GRANITOID PROFILES IN WEST SULAWESI: IMPLICATIONS FOR EXPLORATION
The rare earth elements (REE) are the lanthanide+Y+Sc group of elements which are currently needed in the industrial world and are raw materials for making advanced and modern technology. As the need for REE increases, REE exploration activities also increase, therefore this research was conducte...
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id-itb.:738532023-06-24T10:55:15ZMINERALOGY AND ENRICHMENT OF ION-ADSORPTION TYPE REE ON WEATHERED GRANITOID PROFILES IN WEST SULAWESI: IMPLICATIONS FOR EXPLORATION Febbi Alvionita, A. Indonesia Theses rare earth elements; mineralogy; geochemistry; weathered; granitoid. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/73853 The rare earth elements (REE) are the lanthanide+Y+Sc group of elements which are currently needed in the industrial world and are raw materials for making advanced and modern technology. As the need for REE increases, REE exploration activities also increase, therefore this research was conducted as a preliminary study which aims to determine the characteristics of the REE adsorption type in West Sulawesi using optical mineral petrography, X-ray diffraction (XRD), X-ray fluorescence (XRF), and inductively coupled plasma mass spectrometry (ICP-MS). Optical mineral observations show that the source rock at Polewali is quartz monzonite, while at Mamasa it is granodiorite. REEbearing minerals seen on optical mineral petrography are zircon, apatite, alanite and monazite. Clay minerals that have been successfully detected as minerals that bind REE in the weathered zone are kaolinite, halloysite, montmorillonite and nontronite. REE enrichment in the A horizon on both profiles shows that the percentage of clay minerals also affects the amount of TREE, as evidenced by the percentage of kaolinite content of around 13.3% and 5.3% halloysite, more than in the other horizons. The positive Ce anomaly in the weathered samples indicates that both weathered profiles are leaching zones except for the A horizon in Mamasa. The negative Eu anomaly also indicates that plagioclase was released during the differentiation of magma process when rocks are formed. Factors that influence the distribution and accumulation of REE are the type of source rock and the degree of weathering. text |
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The rare earth elements (REE) are the lanthanide+Y+Sc group of elements which are
currently needed in the industrial world and are raw materials for making advanced and
modern technology. As the need for REE increases, REE exploration activities also
increase, therefore this research was conducted as a preliminary study which aims to
determine the characteristics of the REE adsorption type in West Sulawesi using optical
mineral petrography, X-ray diffraction (XRD), X-ray fluorescence (XRF), and inductively
coupled plasma mass spectrometry (ICP-MS). Optical mineral observations show that the
source rock at Polewali is quartz monzonite, while at Mamasa it is granodiorite. REEbearing
minerals seen on optical mineral petrography are zircon, apatite, alanite and
monazite. Clay minerals that have been successfully detected as minerals that bind REE in
the weathered zone are kaolinite, halloysite, montmorillonite and nontronite. REE
enrichment in the A horizon on both profiles shows that the percentage of clay minerals
also affects the amount of TREE, as evidenced by the percentage of kaolinite content of
around 13.3% and 5.3% halloysite, more than in the other horizons. The positive Ce
anomaly in the weathered samples indicates that both weathered profiles are leaching
zones except for the A horizon in Mamasa. The negative Eu anomaly also indicates that
plagioclase was released during the differentiation of magma process when rocks are
formed. Factors that influence the distribution and accumulation of REE are the type of
source rock and the degree of weathering. |
| format |
Theses |
| author |
Febbi Alvionita, A. |
| spellingShingle |
Febbi Alvionita, A. MINERALOGY AND ENRICHMENT OF ION-ADSORPTION TYPE REE ON WEATHERED GRANITOID PROFILES IN WEST SULAWESI: IMPLICATIONS FOR EXPLORATION |
| author_facet |
Febbi Alvionita, A. |
| author_sort |
Febbi Alvionita, A. |
| title |
MINERALOGY AND ENRICHMENT OF ION-ADSORPTION TYPE REE ON WEATHERED GRANITOID PROFILES IN WEST SULAWESI: IMPLICATIONS FOR EXPLORATION |
| title_short |
MINERALOGY AND ENRICHMENT OF ION-ADSORPTION TYPE REE ON WEATHERED GRANITOID PROFILES IN WEST SULAWESI: IMPLICATIONS FOR EXPLORATION |
| title_full |
MINERALOGY AND ENRICHMENT OF ION-ADSORPTION TYPE REE ON WEATHERED GRANITOID PROFILES IN WEST SULAWESI: IMPLICATIONS FOR EXPLORATION |
| title_fullStr |
MINERALOGY AND ENRICHMENT OF ION-ADSORPTION TYPE REE ON WEATHERED GRANITOID PROFILES IN WEST SULAWESI: IMPLICATIONS FOR EXPLORATION |
| title_full_unstemmed |
MINERALOGY AND ENRICHMENT OF ION-ADSORPTION TYPE REE ON WEATHERED GRANITOID PROFILES IN WEST SULAWESI: IMPLICATIONS FOR EXPLORATION |
| title_sort |
mineralogy and enrichment of ion-adsorption type ree on weathered granitoid profiles in west sulawesi: implications for exploration |
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https://digilib.itb.ac.id/gdl/view/73853 |
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