THE EFFECTS OF ADDING SAWDUST BULKING AGENT ON THE DEGRADATION OF TOTAL PETROLEUM HYDROCARBON (TPH) LEVELS IN THE BIOREMEDIATION OF OIL-CONTAMINATED SOIL
Bioremediation is one of the most economical and straightforward efforts to restore soil contaminated by petroleum. To enhance the efficiency of petroleum removal, measured as total petroleum hydrocarbons (TPH), bulking agents (BAs) are used, which can influence the physical, chemical, and biolog...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/84428 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Bioremediation is one of the most economical and straightforward efforts to restore
soil contaminated by petroleum. To enhance the efficiency of petroleum removal,
measured as total petroleum hydrocarbons (TPH), bulking agents (BAs) are used,
which can influence the physical, chemical, and biological conditions in the soil.
This laboratory-scale study utilized soil samples sourced from the Minas Oil Field
in Riau, which has a silty loam texture, as well as artificial soil from Bandung.
Various combinations of bulking agents, fertilizers, and surfactants were tested,
with all variations processed using landfarming techniques to determine the most
effective variation for TPH removal. Bioremediation observations were conducted
over 8 weeks, with measurements of parameters including temperature, pH,
moisture content, total plate count (TPC) of bacterial colonies, TPH levels,
nitrogen, and phosphate. The results showed that the highest TPH removal
efficiency occurred in soil treated with a mixture of wood sawdust BA, bacterial
augmentation, and fertilizer, with a removal rate of 96.68% for reactor series A
and 98.65% for reactor series B. Conversely, the lowest TPH removal efficiency
was observed in reactors with a mixture of wood sawdust BA, bacterial
augmentation, and Tween 80 surfactant, with removal rates of 28.21% for reactor
series A and 37.42% for reactor series B. According to the standards set by Permen
LHK No. 6 of 2021, the best variation was achieved in the reactor with bacterial
augmentation without the addition of bulking agents or other materials, as it was
more economical. This study demonstrated that reactors with the addition of BA
could increase moisture content and the number of bacteria in the soil compared to
reactors without BA. However, TPH removal efficiency and degradation rates were
lower in reactors with BA than in those without BA, indicating that BA did not
enhance TPH removal in the soil.
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