STUDY ON THE NEW PROCESS DEVELOPMENT OF TREATED DISTILLATE AROMATIC EXTRACT PRODUCTION BY
Distillate Aromatic Extract (DAE) is a derivative of petroleum products with high aromatic content. DAE is utilized by rubber industry as plasticizer oil, especially in tire manufacturers. DAE is a byproduct of the solvent extraction process for vacuum distillates in FEU (Furfural Extraction U...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/64175 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Distillate Aromatic Extract (DAE) is a derivative of petroleum products with high
aromatic content. DAE is utilized by rubber industry as plasticizer oil, especially
in tire manufacturers. DAE is a byproduct of the solvent extraction process for
vacuum distillates in FEU (Furfural Extraction Unit) for lubricating oil production.
Treated Distillate Aromatic Extract (TDAE) is obtained from Distillate Aromatic
Extract (DAE) feed in an extended extraction process to meet PCA (Polycyclic
Aromatic) content of less than 3% by weight and suitable for use as RPO (rubber
processing oil) in the tire compound manufacturing industry. In addition to PCA
levels, high selling value TDAE products shall have kinematic viscosity in the range
of 17 - 22 cSt when measured at 100oC.
The purpose of this research is to evaluate the potential of FEU (Furfural
Extraction Unit) if it will be used as the unit for the new extraction-based TDAE
production process without using a diluent. It is also expected through this research
that the reduction of PCA level in the DAE feed could be proved through a shake
flash extraction method by manipulating proper process variables, such as
variations in the mixed feed components of DAE, the ratio of furfural solvent to feed
DAE, and the number of extraction tahap.
This study uses Aspen HYSYS process simulation software as a tool to obtain an
overview regarding the feasibility of the TDAE production process technology
without using diluent and uses real feed specifications from Refinery Unit IV
Cilacap.
Through this research, it is proved that the IDIS component can be used as a diluent
to replace the role of the diluent (n-hexane). Eight variations of experiments carried
out in the laboratory (shake extraction test) succeeded in reducing the PCA content
by more than 50% and meet the specifications for the aromatic content of at least
25%. In line 2, the best PCA content value is 3.6%.
In this research, a simulation model of TDAE production was created referring to
the operating conditions of the SPO mode and validated with the actual data of the
Pertamina Refinery Unit IV Daily Monitoring. The simulation model that was built
was able to show that the level of NPCA and Oil extraction in the shake extraction
test experiment was too large which could possibly caused by incomplete
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separation of the extract phase and the raffinate phase by precipitation in the shake
extraction test experiment. If the extraction process is carried out on an extraction
tool that has more reliable performance, such as the operating unit in the field,
namely the FEU Unit (Furfural Extraction Unit) which uses an RDC (Rotating Disc
Contactor) unit which is then added with a Settler vessel operating at a lower
temperature, the achievement of the TDAE yield value and the total aromatic
content in the TDAE product from DAE extraction without the use of diluents can
be expected to be close to the ideal value.
The increase in extraction efficiency at the SFR (Solvent to Feed Ratio) value will
continue to increase the yield and PCA content in TDAE products because fewer
portions of raffinate are trapped and staycarried in the extract phase. Similarly, if
the SFR is increased at a constant extraction efficiency, the yield and PCA content
in the TDAE product will decrease as more oil components and less selective NPCA
are extracted with PCA. The results of this logical prediction indicate that the
simulation model has good validity. This process model consistently describes the
impact of the raffinate phase in the extract phase due to the possibility of imperfect
mixing and precipitation in batch extraction experiments.
Keyword: DAE, TDAE, furfural, without diluent, Furfural Extraction Unit, Aspen
HYSYS
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