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Sains Malaysiana 44(11)(2015): 1587–1591
Inhibition
of Consortium Sulfate Reducing Bacteria from Crude Oil for Carbon Steel
Protection
(Perencatan Konsortium Bakteria Penurun Sulfat daripada Minyak
Mentah sebagai Pelindung Keluli Karbon)
NUR AKMA MAHAT1*, NORINSAN KAMIL OTHMAN1, FATHUL KARIM SAHRANI2
& MOHD NAZRI IDRIS1,3
1School of Applied
Physics, Faculty of Science and Technology, Universiti Kebangsaan Malaysia
43600 Bangi, Selangor Darul Ehsan. Malaysia
2School of
Environmental and Natural Resource Sciences, Faculty of Science and Technology
Universiti Kebangsaan Malaysia, 43600 Bangi, Selangor Darul
Ehsan, Malaysia
3School of Materials
and Mineral Resources Engineering, Universiti Sains Malaysia, Engineering
Campus, 14300 Nibong Tebal, Pulau Pinang, Malaysia
Diserahkan: 28 Mac 2015/Diterima: 29 Jun 2015
ABSTRACT
The efficiency of cetyltrimethylammonium bromide (CTAB)
to reduce the activity of consortium bacteria consisting of sulphate-reducing
bacteria (C-SRB) has been investigated on variable concentration by
weight loss test, potentiodynamic polarization and diffusion disk
methods. C-SRB
was isolated from tropical crude oil of Malaysian
offshore. Biofilm analysis was also evaluated by variable pressure
scanning electron microscopy (VPSEM). Weight loss and potentiodynamic polarization analyses
showed that CTAB is able to inhibit the biocorrosion
process and their inhibition efficiency had reached to 85 and 65%
at 300 ppm CTAB, respectively. Increasing of CTAB efficiency
as a function of concentration was also supported by diffusion disk
analysis. Biofilm analysis showed that less of C-SRB and their metabolic by-product
had been observed. It was concluded that CTAB was
able to reduce the C-SRB activity and prevent biocorrosion
process on carbon steel surface.
Keywords: Carbon steel; consortium SRB;
potentiodynamic polarization
ABSTRAK
Kecekapan Cetriltrimetilammonium bromida (CTAB)
untuk mengurangkan aktiviti bagi konsortium bakteria yang mengandungi bakteria penurun
sulfat (C-SRB) telah dikaji pada kepekatan yang berbeza dengan
menggunakan kaedah kehilangan berat, pengutuban potensiodinamik dan resapan
cakera. SRB telah
diasingkan daripada minyak mentah tropika luar pesisir Malaysia. Analisis biofilem juga dinilai dengan mikroskopi pengimbas elektron
pemboleh ubah tekanan (VPSEM). Analisis kehilangan
berat dan pengutuban potensiodinamik mendedahkan bahawa CTAB mampu
untuk menghalang berlakunya proses biokakisan dan kecekapan perencat yang
ditunjukkan bagi kedua-dua kaedah telah mencapai kepada 85 dan 65% pada 300 ppm CTAB. Peningkatan kecekapan CTAB sebagai fungsi kecekapan
juga disokong oleh analisis resapan cakera. Analisis
biofilem menunjukkan bahawa terdapatnya pengurangan daripada sel C-SRB dan juga hasil produk metabolik bakteria telah diperhatikan. Kesimpulannya, CTAB mampu untuk mengurangkan aktiviti C-SRB dan juga mencegah daripada berlakunya proses biokakisan terhadap
keluli karbon.
Kata kunci: Keluli karbon; konsortium SRB; pengutuban potensiodinamik
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*Pengarang untuk surat-menyurat; email: nurakmamahat@yahoo.com
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