OPTIMIZATION STUDY OF CHROMITE TAILING OPERATION PARAMETERS USING MULTI-GRAVITY SEPARATOR (MGS) AND FALCON CONCENTRATOR: REVIEW
Chromium is a strategic metal that is widely used in various industries, especially as a raw material for stainless steel. The main source of chromium metal is the mineral chromite (Cr2O3). Chromite minerals are generally separated from their impurities by using gravity concentrations such as sha...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/54270 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Chromium is a strategic metal that is widely used in various industries, especially
as a raw material for stainless steel. The main source of chromium metal is the
mineral chromite (Cr2O3). Chromite minerals are generally separated from their
impurities by using gravity concentrations such as shaking tables, spiral
concentrators, and jigging. However, the gravity concentration method has
disadvantages in treating fine particles (< 0.5 mm). Approximately 50% by weight
of chromite in the feed enters the tailings so that they contain more than 20% Cr2O3.
The disposal of valuable minerals into the tailings causes losses both in terms of
economics and maintenance of mineral resources. Therefore, the development of
gravity concentration technology has been done a lot, one of which is by combining
the gravitational force with the centrifugal force to separate fine particles, as applied
to the multi-gravity separator (MGS) and the Falcon concentrator. The removal of
chromite from the tailings is very important and the process needs to be developed
in order to maintain the chromite source for the future. Several studies have been
carried out to treat tailings from chromite plants, including the MGS and Falcon
concentrator due to their ability to treat fine particles. There are several operating
parameters that need to be considered in using MGS, namely drum speed, wash
water rate, drum tilt angle, and shake amplitude. Meanwhile, there is a bowl rotation
speed and water pressure in the operation of the Falcon concentrator. Research on
chromite tailings processing using MGS and Falcon concentrator on various
operating parameters has been carried out and continues to develop to obtain
optimal results. However, the large number of combinations and the wide range of
variations in the operating parameters used make it difficult to determine the
optimal operating conditions. Therefore, a review of the effect of operating
parameters on the performance of the MGS and Falcon concentrator in treating
chromite tailings is needed.
The literature review process begins with the formulation of the problem, namely
the effect of operating parameters on the concentration of tailings chromite using
the MGS and Falcon concentrator. From the formulation of the problem, literature
searches were carried out through journals, books and internet pages. Through the
literature obtained, the literature is selected by reviewing the abstract to fit the study
topic. Furthermore, a summary and analysis is carried out on experimental data
contained in the literature. Then a discussion is carried out by analyzing the data
that has been collected with the theory and ideal conditions that should occur. The
results of data analysis and discussion are combined and compared to produce a
conclusion and answer the research objectives.
The results of the review show that to increase the yield of MGS, it can be done by
increasing the drum speed and decreasing the wash water rate and the angle of the
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drum. While in Falcon concentrator an increase in bowl rotation speed and a
decrease in water pressure can increase the concentration of particles with finer
sizes, while the bowl rotation speed and an increase in water pressure can increase
the concentration of particles with coarser size. The results of the chromite tailings
concentration using MGS can increase the Cr2O3 content from ~20% to more than
40% with a gain of more than 60%. Meanwhile, using a Falcon concentrator, the
Cr2O3 content, which was originally ~10% in chromite tailings, can increase by
~60%. |
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