OPTIMUM PARAMETERS IN SILICOMANGANESE PRODUCTION PROCESS: LITERATURE REVIEW AND PROCESS SIMULATION USING FACTSAGE
East Nusa Tenggara owns 60% of Indonesia's manganese resources. The quality of manganese ore from East Nusa Tenggara is known worldwide as premium quality manganese ore because it has high manganese content and low levels of phosphorus and iron. Until now, East Nusa Tenggara does not yet ha...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/51432 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | East Nusa Tenggara owns 60% of Indonesia's manganese resources. The
quality of manganese ore from East Nusa Tenggara is known worldwide as
premium quality manganese ore because it has high manganese content and
low levels of phosphorus and iron. Until now, East Nusa Tenggara does not
yet have a manganese processing and refining plant. This is a prospect for
building a silico-manganese smelter. The smelter construction is expected to
have a multiplier effect so that it can drive the regional economy. This
literature study aims to review the optimal parameters in the smelting process
of manganese ore into silico-manganese.
The literature study begins with data from several journals, reference books,
theses, and other published forms of research to provide general information
about manganese ore, silicomanganese production process, and silicomanganese
smelting thermodynamics. The next step is to discuss the
parameters that can affect the recovery of silicon and manganese in the silicomanganese
process. The results of this literature study are then used to
determine the optimal parameters for the silico-manganese smelting process
as well as a reference in performing thermodynamic simulation of the silicomanganese
smelting process using the FactSage 7.2 software.
The results showed that the higher the operational temperature, the higher
MnO and SiO2 were reduced into the molten metal. The higher the basicity
value B = [(%CaO+%MgO)/%SiO2] and R = [(%CaO+%MgO)/%Al2O3] in
the feed material, the higher the manganese content in the metal, however the
silicon content in the metal, and the recovery of both silicon and manganese
will decrease. The higher the mass ratio value of Mn / Fe in the feed, the
higher the manganese and silicon content in the metal. The lower the mass
ratio value Mn / Si in the feed, the higher the silicon content in the metal, but
the manganese content in the metal will decrease. Optimal parameters are
those that provide maximum silicon and manganese recoveries and produce
a silico-manganese metal with standard composition. The optimum
parameters have been determined as follows: The optimal operating
temperature is 1600?C, the optimal B basicity value in the range 0.2 – 0.6, the
optimal R basicity value is 1.3 – 1.8, the mass ratio value of Mn / Fe in the
feed at a minimum 3.5, and the mass ratio value of Mn / Si at a minimum 2.5. |
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