FERRONICKEL PRODUCTION TECHNOLOGY FROM LATERITIC NICKEL ORE USING HIGH TEMPERATUR: A CRITICAL REVIEW AND FACTSAGE SIMULATION
Nickel is the 24th most abundant element on lithosphere. Nickel is widely used as alloying element and superior commodity because it has strength and high corrosion resistance properties. The world's nickel resources comprise 72% nickel laterite and 28% nickel sulphide. Lateritic nickel ore...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/56974 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Nickel is the 24th most abundant element on lithosphere. Nickel is widely used as
alloying element and superior commodity because it has strength and high corrosion
resistance properties. The world's nickel resources comprise 72% nickel laterite and
28% nickel sulphide. Lateritic nickel ore extraction will produce ferronickel which
becomes the raw material of stainless steel. There are many technologies for
producing ferronickel such as RK – EF, Direct reduction – Magnetic Separation,
and Sintering – Electric furnace. PT Vale Indonesia Tbk. is one of the nickel matte
manufacturer that use RK – EF technology, but this technology requires a large
energy of 502 kWh/t calcine for the electric furnace, so it becomes a challenge to
find alternative technologies that are energy efficient. This literature study aims to
review operating parameters on the three technologies mentioned and conduct
thermodynamics simulation of laterite nickel ore reduction with Factsage 7.1.
The study of literature begins with collecting books, journals, and proceedings
related to the lateritic nickel ore reduction process to produce ferronickel or NPI.
The literature that has been obtained is then taken for data analysis so that
information is obtained as discussion points to answer the objectives of this
literature study. The simulation of the nickel ore reduction process is carried out by
looking at the effect of temperature on the type of product produced by adding 5%
reducing agent. Simulations were also carried out to determine the effect of adding
carbon and CaO to the reduced product with an operating temperature of 1550oC.
The results of the study show that direct reduction – magnetic separation technology
has a lower operating temperature than RK – EF so it is more energy efficient, but
the nickel content in the product is lower. Sintering – Electric Furnace technology
forms a binder phase in the sinter so that the transportation of intermediate products
will be easier compared to calcine in the RK – EF technology. Operating
temperature range of RK - EF smelting is 1300-1700oC while the Direct reduction
– Magnetic separation is 1100-1300oC. In the Sintering – Electric Furnace process,
the best sinter strength is achieved on a raw material basicity of 1.5 and 1.9. The
results of the Factsage simulation show that the products of laterite nickel ore
reduction with the addition of 5% carbon are Fe-Liquid, slag, olivine, Spinel, and
gas phases. The addition of carbon will increase the recovery of Ni and will start to
stagnate at the addition of 6% C. The addition of CaO will increase the amount of
slag produced and change the slag composition so that the slag produced will have
a higher basicity. |
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