SETIYAWAN, BUDI (2024) UJI PENGARUH ISOLAT BAKTERI ASAM LAKTAT DARI AIR CUCIAN BERAS UNTUK INJEKSI MICROBIAL DALAM PEROLEHAN MINYAK TAHAP LANJUT. Masters thesis, UPN Veteran Yogyakarta.
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Abstract
v
RINGKASAN
Produk metabolit bakteri asam laktat (BAL) hasil fermentasi dengan air cucian
beras dapat digunakan dalam meningkatkan perolehan minyak bumi pada tahap
lanjut. Bakteri asam laktat merupakan kelompok bakteri yang dikenal luas dengan
genus terbesarnya adalah Lactobacillus. BAL dapat ditemukan di berbagai
lingkungan alami dan produk fermentasi seperti air cucian beras dan susu.
Penelitian ini bertujuan untuk mengetahui pengaruh bakteri asam laktat yang
diisolasi dari air cucian beras terhadap pH, tegangan antarmuka (IFT), dan
viskositas dalam injeksi mikroba untuk meningkatkan perolehan minyak bumi pada
tahap lanjut.
Bakteri asam laktat (BAL) menjadi mikroba yang menarik untuk diteliti. Metode
penelitian dilakukan di laboratorium dengan menguji: pH, IFT, Viskositas, Imbibisi
dan coreflooding. Isolate BAL diencerkan dengan konsentrasi 2%, 4% dan 6%
dengan waktu pengamatan pada hari ke-1, ke-3, ke-6 dan ke-9. Simulasi reservoir
sebagai uji lanjutan dilakukan dengan model hipotetik pola direct line drive
berbentuk balok dengan 2 sumur produksi dan 2 sumur injeksi untuk menganalisa
optimasi pelaksanaan di lapangan.
Konsentrasi 2% BAL terbukti paling efektif dalam meningkatkan perolehan
minyak sebesar 28,5% dalam uji imbibisi. Pada uji core flooding, konsentrasi 2%
juga berhasil meningkatkan RF sebesar 20%. Isolat BAL cenderung meningkatkan
viskositas dan menurunkan pH campuran air formasi dan minyak dan kurang
berpengaruh terhadap nilai IFT. Peningkatan viskositas yang signifikan
menunjukkan bahwa penambahan isolat BAL menghasilkan produk biopolimer
yang berpotensi meningkatkan perolehan minyak. Berdasarkan simulasi model
hipotetik dengan pola direct line drive, kondisi optimal ditemukan dengan
konsentrasi biopolymer 5%, laju injeksi 22,5 BWPD, dan tekanan injeksi 500 psia.
Kata kunci: Bakteri Asam Laktat, pH, IFT, Viskositas, Imbibisi, core flooding,
direct line drive
vi
ABSTRACT
The metabolites produced by lactic acid bacteria (LAB) through fermentation
with rice wash water can be utilized to enhance oil recovery at advanced stages.
Lactic acid bacteria are a widely recognized group of bacteria, with the largest
genus being Lactobacillus. LAB can be found in various natural environments and
fermented products such as rice wash water and milk. This research aims to
determine the effects of lactic acid bacteria isolated from rice wash water on pH,
interfacial tension (IFT), and viscosity in microbial injection to enhance oil
recovery at advanced stages.
Lactic acid bacteria (LAB) are intriguing microbes to study. The research
methods were conducted in a laboratory by testing: pH, IFT, viscosity, imbibition,
and core flooding. LAB isolates were diluted to concentrations of 2%, 4%, and 6%,
with observations made on days 1, 3, 6, and 9. A reservoir simulation as a follow-
up test was conducted using a hypothetical direct line drive pattern model in the
form of a block with 2 production wells and 2 injection wells to analyze the
optimization of field implementation.
The 2% concentration of BAL has been proven most effective in enhancing oil
recovery by 28.5% in imbibition tests. Similarly, in core flooding experiments, the
2% concentration increased the Recovery Factor (RF) by 20%. BAL isolates tend
to increase viscosity and decrease the pH of the formation water-oil mixture, while
having less impact on Interfacial Tension (IFT) values. The significant increase in
viscosity suggests that adding BAL isolates results in biopolymer products that
have the potential to improve oil recovery. Based on a hypothetical simulation
model using a direct line drive pattern, optimal conditions were found with a 5%
biopolymer concentration, an injection rate of 22.5 BWPD, and an injection
pressure of 500 psia.
Keywords: Lactic Acid Bacteria, pH, IFT, Viscosity, Imbibition, core flooding,
direct line drive
| Item Type: | Thesis (Masters) |
|---|---|
| Uncontrolled Keywords: | Lactic Acid Bacteria, pH, IFT, Viscosity, Imbibition, core flooding, direct line drive |
| Subjects: | T Technology > T Technology (General) |
| Divisions: | Faculty of Engineering, Science and Mathematics > School of Engineering Sciences |
| Depositing User: | Eko Yuli |
| Date Deposited: | 12 Sep 2024 04:42 |
| Last Modified: | 12 Sep 2024 04:42 |
| URI: | http://eprints.upnyk.ac.id/id/eprint/41132 |
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