KINETICS OF BATCH MICROBIAL DEGRADATION OF PHENOL BY PSEUDOMONAS AERUGINOSA AND DEEP-SEA SEDIMENT BACTERIA: SCALE-UP

Syafrizal Syafrizal

Abstract


Petroleum that is produced from several oil wells produces a fluid containing a mixture of petroleum, natural gas and produced water. The produced water usually contains hazardous chemicals such as hydrocarbons, sulfides, ammonia, phenols and other heavy metals. One of the high pollutants in the water produced is phenol. Through a biodegradation process, the contents of phenolic compounds in the produced water are expected to be reduced so that it meets the quality standards of waste water for oil and gas exploration and production activities. This research is development of the results of previous studies using a bioreactor with a larger scale, namely 3 L. The degradation process of phenolic compounds is carried out in optimal conditions, namely: pH 7, temperature 300C, and selected simple media: NP (5: 1) derived from urea and NPK + 0.1% yeast extract. The results of this study indicated that P. aeruginos and bacterial consortium may degrade phenolic compounds very well, which was 5.3 times faster than the previous studies. The biodegradation percentage was 98.40% in P. aeruginosa and 99.03% in bacterial consortium respectively. The monod kinetics model approach was successfully carried out and gave the value of parameters ?Max, Km, YS/X, and ?d respectively of 0.6305 hours-1, 0.0280 mg/L, 7 10-7 mg/L/ CFU/mL, and 0.00575 hours-1 in P. aeruginosa and 0.3272 hours-1, 0.0355 mg/L, 6.63 10-7 mg/L/CFU/ mL, and 0.00279 hours-1 in bacterial consortium. Based on the valuesof these parameters, P. aeruginosa has better affinity and growth.


Keywords


biodegradation, produced water, phenol, pseudomonas aeruginosa, monod kinetics

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References


ASTM D 1783,.2014, Standard Test Method for Phenolic Compounds in Water American Society and Testing Materials (ASTM) Water and Environmental Technology, Water II 11 (2):1-8.

ASTM D 4281., 2014, 'Standard Test Method for Oil and Grease(Fluorocarbon Extractable Substances) by Gravimetric Determination'. American Society and Testing Materials (ASTM) Water and Environmental Technology Water II 11 (2):471-476.

Awan., Zia Ur Rahman., Shah, Abdul Haleem., Amjad, Mohammad, 2013, 'Microbial Degradation of Phenol by locally Isolated Soil Bacteria'. Global Advanced Research Journal of Microbiology, Vol. 2(4): 072 079.

Cisneros. S., Mart?nez. M.A., 2014, 'Isolation Characterization of a Novel Strain Bacillus sp KJ6629314 with High Potensial to Aerobically Degrade Diesel'. Revista Mexicana de IngenieraQumica, Vol. 13, No. 2 (2014) 393-403.

Debadatta, Das., Rajdeep, Kaur, 2012, 'Biodegradation of Phenol by Variuos Indigenous Microorganism'. Journal of Environmental Research and Development. Vol.7.2A: 1009 -1015.

Razika, Bared., Abbes, Boucheta., Messaoud, Chaib., Soufi, Kacimi, 2010, 'Phenol and Benzoic Acid Degradation by Pseudomonas aeruginosa'. Journal of Water Resource and Protein, Vol 2: 788 791.

Hendarsa, A.S., Hermansyah, H.,Slamet, 2013, 'A Novel photobiodegradation technology for hydrocarbon wastewater treatment'. International Journalof Engineering & Technology IJET-IJENS Vol 13 No. 01: 1- 6.

Hidayat, S,. Kardena, E., 2013, 'Penyisihan senyawa organik limbah air terproduksi pada reaktor batch menggunakan bakteri indogenous dan penambahan nutrisi'. Jurnal Teknik Lingkungan, vol 1, ITB.

Hasiany, S., Noor E., Yani M., 2015, 'Penerapan produksi bersih untuk penanganan air terproduksi di industri minyak dan gas'. Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan. 5(1): 25-32.

Shak, S., Malakahmad, A., Isa, MH., 2012, 'Refinary wastewater Biology Treatment: A short review. Journal of Scientific &Industri Research, Vol 71: 251 256.

Kurniawan, A,. Effendi, A,J., 2014, 'Biodegradatoin of total petroleum hydrocarbons residues below 1% concentration (w/w) using bioremediation process'. Human and Environmental Journal, Vol 21, No. 3. PSLH, UGM.

Liu. Z., Xie. W., 2016, 'Biodegradation of Phenol by Bacteria Strain Acinetobacter Calcoaceticus PA Isolated from Phenolic Wastewater'. Int Journal Environ Res Public Health, 13(3): 300.

Nasiri. M., Jafari. I., 2016, 'Produced Water from Oil-Gas Plants: A Short Review on Challenges and Opportunities'. Periodica Polytechnica Chemical Engineering, 61(2), pp. 73-81.

Poli. A, Finore.I, Romano. I, Gioiello. A, Lama. L, Nicolaus. B., 2017, 'Microbial diversity in Extreme marine habitats and their biomolecules'. Microorganism Journal, 5 (2) 5, PMCID: PMC5488096.

Partila, A.M., 2013, 'Biodegradation og Polyaromatic Hydrocarbons in Petroleum, Oil Contaminating the Environment'. Microbiology Botany Department, Faculty of Science, Cairo University.

Neves, P, R., 2014, 'Pseudomonas aeruginosa'. Encylopedia of Food Microbiology, Vol. 3, pp 1867-1871.

Singh. R., 2107, 'Biodegradation of xenobiotics away for environmental detoxificatoin'. International Journal of Development Research, Vol. 07, issue 07, pp 14082-14087.

Singh, Abha., Kumar, Vinay., JN, Srivastava, 2013, 'Assessment of Bioremediation of Oil and Phenol Contents in Refinery Waste Water via BacteralConsurtium'. Petroleum &Environmental Biotechnology. 4:3, p 1 - 4.

Syafrizal, 2017, 'Optimization of Phenolic Wastes Treatment in Artificial Produced Water by Pseudomonas aeruginosa'. Scientific Contribution for Oil and Gas, Vol. 39, No. 1, Research and Development Centre for Oil & Gas Technology, LEMIGAS.

Razika, Bared., Abbes, Boucheta., Messaoud, Chaib., Soufi, Kacimi, 2010, 'Phenol and Benzoic Acid Degradation by Pseudomonas aeruginosa'. Journal of Water Resource and Protein, Vol 2: 788 791.

V, Rajani, 2015, 'Microbial degradation, of, phenol-A review'. International Journal of Research and Review, Vol. 2, Issue. 2 ISSN:2349-9788.




DOI: https://doi.org/10.29017/SCOG.41.3.333

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