TERPENE PRODUCT SEPARATION
Terpineol is a hydration product of terpine hydrate from turpentine oil. This hydration reaction yields brownish crude terpineol containing residues of turpentine, terpineol, terpine hydrate, and impurities. Terpineol holds a higher market value (8,160 USD/ton) compared to turpentine (6,630 USD/t...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/81850 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Terpineol is a hydration product of terpine hydrate from turpentine oil. This hydration
reaction yields brownish crude terpineol containing residues of turpentine, terpineol,
terpine hydrate, and impurities. Terpineol holds a higher market value (8,160 USD/ton)
compared to turpentine (6,630 USD/ton). Based on its boiling point, turpentine acts as a
light impurity in crude terpineol. Removing these light impurities can enhance the purity
of terpineol. Distillation is chosen for separation because of the significant difference in
boiling points among the components in crude terpineol. However, separation at high
temperatures leads to the thermal decomposition of compounds in crude terpineol. Thus,
vacuum distillation is performed to lower the boiling point of crude terpineol components,
aligning with the broader separation region observed in the vapor-liquid equilibrium
curve at reduced pressure.
This study aims to analyze the optimal operating conditions for separating turpentine from
crude terpineol using batch vacuum distillation. The variables investigated include
operating pressure and reflux ratio. Operating pressures of 400 mmHg, 450 mmHg, and
500 mmHg are tested, while reflux ratios of 2, 3, and 4 are varied. The experimental
procedure comprises three main stages: characterization of crude terpineol, separation of
turpentine from crude terpineol using batch vacuum distillation, and characterization of
distillation products. Characterization is conducted using Gas Chromatography-Mass
Spectrometry (GC-MS) and Gas Chromatography-Flame Ionization Detection (GC-FID).
Results show higher turpentine concentration in the distillate as pressure decreases and
the reflux ratio increases. Optimal conditions are determined by considering distillate
volume, turpentine concentration, and operational costs. Maximizing distillate volume
and turpentine concentration while minimizing operational expenses yields optimum
conditions at 425.25 mmHg pressure and a reflux ratio of 4. These conditions produce a
distillate volume of 92.7 mL, a turpentine concentration of 96.51%, and an operational
cost of IDR 24,310. |
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