SYNTHESIS OF NICKEL SULFATE FROM RELEACH SOLUTION OF MIXED HYDROXIDE PRECIPITATE (MHP) AND PURIFICATION OF PREGNANT LEACH SOLUTION BY SOLVENT EXTRACTION USING VERSATIC 10 AND CYANEX 272
The development of the electric car market has increased the demand for nickel sulfate. Nickel as nickel sulfate hexahydrate is one of the precursor materials for lithium ion battery cathodes used for batteries in electric cars. The NiSO4 synthesis process is generally carried out through crystal...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/57904 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The development of the electric car market has increased the demand for nickel sulfate. Nickel
as nickel sulfate hexahydrate is one of the precursor materials for lithium ion battery cathodes
used for batteries in electric cars. The NiSO4 synthesis process is generally carried out through
crystallization of sulfate solutions with high nickel content. Various parameters that are
regulated in the NiSO4 crystallization process can affect the recovery of NiSO4 crystals such
as crystallization rate and purity. In this study, the effect of the NiSO4 crystallization process
on the rate of crystallization of Ni and the Ni content on the crystals were studied. In addition,
Ni content on the crystals resulting from the crystallization process of samples that went
through the extraction stage using Cyanex 272 was also compared with the extraction stage
using Ni-Cyanex 272.
In this study, samples were prepared by releaching of Mixed Hydroxide Precipitate (MHP) and
purification of the pregnant leach solution by solvent extraction using Versatic 10 and Cyanex
272. The sample preparation process removes impurities and generates precursor solution that
has high purity of nickel. Series of crystallization experiments were carried out by varying the
processing time, %seed, initial pH of the solution, and process temperature at a certain level.
The metal concentrations in the sample, residual solution, and product were analysed using
Atomic Absorption Spectroscopy (AAS) to study the effect of each variable on the
crystallization rate and the Ni content on the obtained crystals.
The investigation that has been done shows the rate of Ni crystallization increases with time,
%seed, and temperature, while the pH of the solution does not show any effect on the
crystallization rate. The crystallization rate can be derived from zero-order reaction kinetics
with a reaction rate constant of 64.83 mg/hour. For the Ni content of the obtained crystal,
based on the results obtained, the variables tested in this study did not affect the Ni content
when all the solvent has been evaporated. In addition, the sample prepared by the extraction
step using Ni-Cyanex 272 was able to provide higher levels of Ni in the crystal than the sample
extraction using Cyanex 272. The results of the crystallization experiment showed a process
time of 11 hours, %seed by 25%, initial pH of solution of 5, and a process temperature of 80oC
gave the best results on the rate of Ni crystallization rate. |
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