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The paper discusses tests for effectiveness of three antibacterial substances for application in the national oil and gas industry. The substances were tested with reference to active cultures of microorganisms. These cultures were isolated, inter alia, from drilling fluids, produced waters and extraction sludge, and then multiplied and used in tests discussed in this publication. The tests demonstrated differences in particular tested substances in respect of effectiveness of their impact on aerobic and anaerobic bacteria and fungi. The results of the work will be used in industrial treatments in order to eliminate biogenic contamination, counteract biodegradation of drilling muds, and also for disinfection of reservoirs designed for storing water and other technological fluids.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
245--253
Opis fizyczny
Bibliogr. 27 poz., tab.
Twórcy
autor
- Oil and Gas Institute, Kraków, Poland
autor
- Oil and Gas Institute, Kraków, Poland
autor
- Witek Engineering Services
autor
- Oil and Gas Institute, Kraków, Poland
Bibliografia
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- [2] Atlas R.M.: Handbook of microbiological media. 2nd Ed. USA, CRC Press Inc., 1997.
- [3] Atlas R.M., Bartha R.: Microbial ecology. Fundamentals and applications. 3rd Ed. USA, The Benjamin/Cummings Publishing Comp. Inc., 1993.
- [4] Baveye P. et al.: Environmental impact and mechanisms ofthe biological clogging of saturated soils and aąuifer materials. Cornell University, Ithaca, New York, USA, Apr. 1997.
- [5] Benka-Coker M., Olumagin A.: Effects ofwaste drilling fluid on bacterial isolates from a mangrove swamp oilfield location in the Niger Delta of Nigeria. Bioresource Technology, 55, 1996, 175-179.
- [6] Chang Y. et al.: A methodfor controlling hydrogen sulfide in water by adding solid phase oxygen. Bioresource Technology, 98, 2007, 478-483.
- [7] Chang Y et al.: The use of magnesiumperoxide for the inhibition of sulfate-reducing bacteria under anoxic conditions. J. Ind. Microbiol. Biotechnol., 35, 2008, 1481-1491.
- [8] Duissenov D.: Production and processing ofsour crude and natur al gas — challenges due to increasing stringent regulations. Dep. of Petroleum Engineering and Applied Geophysics. Petroleum Introduction, 2013.
- [9] Elshafie A., AlKindi A., Al-Busaidi S., Bakheit Ch., Albahry S.: Biodegradation of crude oil and n-alkanes byfungi isolated from Oman. Marine Pollution Bulletin, 54 (11), 2007, 1692-1696.
- [10] Falkowicz S., Kapusta P: Biological control of formation damage. Louisiana, USA, SPE Int. Symp. and Exhibit, nr 73792, 2002.
- [11] Green PN. et al.: Biocide testingfor the North Sea oil industry. Proc. ofthe Int. Conf. Aberdeen, 1986.
- [12] Itah A.Y, Brooks A.A., Ogar B.O., Okure A.B.: Biodegradation of international jet A-l aviation fuel by microorganisms isolated from aircraft tank and joint hydrant storage systems. Buli. Environ. Contam. Toxicol., 83, 2009, 318-327.
- [13] Jan-Roblero J., Romero J.M., Amaya M., Le Borgne S.: Phylogenetic characterization of a corrosive consortium isolated from a sour gas pipeline. Appl. Microbiol. Biotechnol., 64, 2004, 863-867.
- [14] Jan-Roblero J., Posadas A., Zavala Diaz de la Serna J., Garcia R., Hernandez--Rodriguez C.: Phylogenetic characterization of bacterial consortia obtained of corroding gas pipelines in Mexico. World Journal of Microbiology and Biotechnology, 24, 2008, 1775-1784.
- [15] Junior J.S., Mariano A.P, de Franceschi de Angelis D.: Biodegradation of biodiesel/diesel blends by Candida viswanathii. African Journal of Biotechnology, 8 (12), 2009, 2774-2778.
- [16] Lohithesh M.D. et al.: Control of sulfate reducing bacteria in oil & gas pipelines. SPE, 2008.
- [17] Nnubia C, Okpokwasili G.C.: The microbiology of drill mud cuttings from a new off-shore oilfield in Nigeria. Environmental Pollution, 82, 1993.
- [18] Okpokwasili G., Nnubia C: Effects of drilling fluids on marine bacteria from a Nigerian offshore oilfield. Environmental Management, 19 (6), 1995, 923-929.
- [19] Raczkowski J., Turkiewicz A., Kapusta P.: Elimination ofbiogenic hydrogen sulphide in Underground Gas Storage - A Case Study. SPE Int. Symp. ATCE, 2004.
- [20] Rolling W. et al.: The microbiology of hydrocarbon degradation in subsurface petroleum reservoirs: perspectives and prospects. Research in Microbiology, 154, 2003, 321-328.
- [21] Rossmore H.W., Sondossi M.: Applications and modę of action of formaldehyde condensate biocides. Advances in Applied Microbiology, 33, 1988, 223-277.
- [22] Russell H.A., Hugo W.B., Fraise A.P., Ayliffe G.A., Lambert P.A., Maillard J.-Y: Principles and practice of disinfection, preservation and sterilization. Willey-Blackwell, 2004.
- [23] Sen R.: Biotechnology in petroleum recovery: the microbial EOR progress in energy and combustion. Science, 34, 2008, 714-724.
- [24] Smith G.A. et al.: Effects of oil and gas well — drilling fluids on the biomass and community structure of microbiota that colonize sands in running sea water. Arch. Environ. Contam. Toxicol., 11 (1), 1982, 17-23.
- [25] Turkiewicz A., Brzeszcz J., Kapusta P, Steliga T.: Sposób usuwania skażenia mikrobiologicznego w zbiornikach cieczy wiertniczych. Patent nr P392737, data udzielenia patentu: 24.06.2013.
- [26] Yemashova N. et al.: Biodeterioration ofcrude oil and oil derivedproducts: a review. Rev. Environ. Sci. Biotechnol., 6, 2007, 315-337.
- [27] Zhu X.Y., Lubeck J., Kilbane II J.J.: Characterization of microbial communities in gas industry pipelines. Applied and Environmental Microbiology, 69 (9), 2003, 5354-5363.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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