SEQUENTIAL ISOLATION AND IDENTIFICATION OF HYDROCARBON DEGRADING BACTERIA FOR MICROBIAL ENHANCED OIL RECOVERY (MEOR) APPLICATION
Microbial enhanced oil recovery (MEOR) is a cost-effective and ecofriendly process to retrieve unrecoverable oil from oil wells. Microbes that degrade heavy hydrocarbon fractions have been widely applied for MEOR. These bacteria can be obtained from sequential isolation. This study aimed to isola...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/71260 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Microbial enhanced oil recovery (MEOR) is a cost-effective and ecofriendly
process to retrieve unrecoverable oil from oil wells. Microbes that degrade heavy
hydrocarbon fractions have been widely applied for MEOR. These bacteria can
be obtained from sequential isolation. This study aimed to isolate and identify
indigenous bacteria from West Java oil reservoir samples. This work
demonstrates the sequential isolation method with different media and its SARA
analysis of oil biodegradation after bacterial treatment. The degradation test of
the SARA fraction (Saturated, Aromatic, Resinic, and Asphaltenes) at each
isolation stage was gradually carried out by column chromatography and
gravimetric methods. Isolation of the hydrocarbonoclastic bacteria was carried
out in 2 stages at temperature 50°C in brine medium (2% yeast extract + sterile
brine water + 2% non-sterile crude oil). A total of 39 isolates were obtained from
two stage sequential isolation. The microscopic characteristics of the isolates
showed the dominance of rod-shaped bacteria (bacilli) was 87.18% and Gram
positive was 66.67% in both isolation stages. The results of the SARA degradation
test showed a reduction in the asphaltene fraction of 2.58% in isolation stage I
and 6.30% in isolation stage II, the reduction of the saturation fraction of 35.38%
in isolation stage I and 25% in isolation stage II, while the fraction aromatic
increased by 37.89% in isolation stage I and 32.11% in isolation stage II. The
ability to grow at high temperature was screened in 50°C and obtained 22
bacterial isolates (56.41%) were thermophilic. Identification of
hydrocarbonoclastic thermophilic indigenic bacterial isolates obtained by the
MALDI-TOF MS method and identified 10 isolates as Bacillus licheniformis, 4
isolates as Bacillus cereus, 3 isolates as Bacillus pumilus, 2 isolates as Bacillus
subtilis, 2 isolates as Bacillus fusiformis and 1 isolate isolates as
Stenotrophomonas maltaphilia. Although only 6 bacterial species were identified,
the 22 isolates had different characters and were confirmed by the emulsification
index test which also had different values, so that it was probably different
bacterial strains. Based on literature studies, the 6 bacteria identified from 22
isolates had the ability to degrade the heavy hydrocarbon fraction. Therefore,
indigenous bacteria shows a potential application for MEOR. |
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