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Warianty tytułu
Zastosowanie biocydów w przemyśle naftowym i gazowniczym
Języki publikacji
Abstrakty
In recent years there has been increased interest in microbiological phenomena occurring during the exploration, exploitation of hydrocarbon deposits and storage of energy reserves. Excessive and uncontrolled development of microorganisms can cause microbiological contamination of a given medium and changes in the composition of these raw materials (bio-deterioration processes), which translate into tangible economic loss. The article discusses the types of antibacterial substances used in the oil and gas industry. It suggests ways to eliminate harmful microorganisms, as well as a mechanism of biocides action.
Czasopismo
Rocznik
Tom
Strony
103--111
Opis fizyczny
Bibliogr. 35 poz., il.
Twórcy
autor
- Instytut Nafty i Gazu, Kraków
autor
- Instytut Nafty i Gazu, Kraków
autor
- Instytut Nafty i Gazu, Kraków
Bibliografia
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- [3] Benka-Coker M., Olumagin A.: Effects of waste drilling fluid on bacterial isolates from a mangrove swamp oilfield location in the Niger Delta of Nigeria. Bioresource Technology, 1996, 55: 175–179.
- [4] Bergey’s Manual of Determinative Bacteriology. Dissimilatory sulfate – or sulfur-reducing bacteria. Ninth Ed., Williams & Wilkins, 1994: 335–346.
- [5] Brandon D. M.: Biocide and Corrosion Inhibition Use in the Potential Oil and Gas Environmental Industry: Effectiveness and Impacts. SPE/EPA Conf. March 1995, Houston, Texas, Document ID 29735-MS.
- [6] Castaneda H., Benetton X.: SRB-biofilm influence in active corrosion sites formed at the steel-electrolyte interface when exposed to artificial seawater conditions. Corrosion Science, 2008, 50: 1169–1183.
- [7] Das K., Mukherjee A.: Crude petroleum-oil biodegradation efficiency of Bacillus subtilis and Pseudomonas aeruginosa strains isolated from a petroleum-oil contaminated soil from North-East India. Bioresource Technology, 2007, 98, 7: 1339–1345.
- [8] Dudek L., Kapusta P.: Zastosowanie geochemicznych i mikrobiologicznych badań powierzchniowych w celu prześledzenia procesu migracji węglowodorów w rejonie zapadliska przedkarpackiego. „Nafta-Gaz” 2012, nr 11.
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- [10] Enzien M.: New Biocide Formulations for Oil and Gas Injection Waters with improved environmental Footprint. Offshore Techn. Conf. 2011, OTC 21794.
- [11] Itah A. Y., Brooks A. A., Ogar B. O., Okure A. B.: Biodegradation of International Jet A-1 Aviation Fuel by Microorganisms Isolated from Aircraft Tank and Joint Hydrant Storage Systems. Bull Environ Contam Toxicol, 2009, 83: 318–327.
- [12] 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 2004, 64: 863–867.
- [13] Junior J. S., Mariano A. P., Angelis F.: Biodegradation of biodiesel/diesel blends by Candida viswanathii. African Journal of Biotechnology, 2009, 8, 12: 2774–2778.
- [14] Kapusta P., Turkiewicz A.: Badania procesów mikrobiologicznej degradacji polimerów stosowanych w technologii płynów wiertniczych. Rocznik Ochrona Środowiska, 2009, tom. 11, część 2: 1213–1224.
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- [16] Lohithesh M. D. et al.: Control of Sulfate Reducing Bacteria in Oil & Gas Pipelines. SPE 2008.
- [17] Mc Ilwaine D. B.: Oilfield applications for biocides. Chemistry of Materials Sci., 2005, part one, 5: 157–175.
- [18] Nnubia C., Okpokwasili GC.: The microbiology of drill mud cuttings from a new off-shore oilfield in Nigeria. Environ Pollut.1993, 82, 2: 153–156.
- [19] Okpokwasili G., Nnubia C.: Effects of drilling fluids on marine bacteria from a Nigerian offshore oilfield. Environmental Management 1995, 19, 6: 923–929.
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- [21] 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 J. Microbiol. Biotechnol. 2008, 24: 1775–1784.
- [22] Stachowicz A.: Inhibitorowa ochrona antykorozyjna dla urządzeń eksploatacyjnych i przesyłowych kopalni ropy naftowej i gazu ziemnego. „Nafta-Gaz” 2012, nr 3.
- [23] Stachowicz A.: Korozja rur wydobywczych odwiertów gazowych z wysoką zawartością CO2 dla urządzeń eksploatacyjnych i przesyłowych kopalni ropy naftowej i gazu ziemnego. „Nafta-Gaz” 2012, nr 3.
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- [27] Turkiewicz A.: Zagrożenia mikrobiologiczne w środowisku złożowym podziemnych magazynów gazu. III Konf. Nauk. Politechniki Łódzkiej nt.: Rozkład i korozja mikrobiologiczna materiałów technicznych. Łódź, 2003, 85–89.
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- [30] Van Hamme J. D., Singh A., Ward O. P.: Recent advances in petroleum microbiology. Microbiol. Mol. Biol. Rev., 2003, 67 (4): 503–549.
- [31] Viera M. et al.: Use of dissolved ozone for controlling planktonic and sessile bacteria in industrial cooling system. International Biodeterioration and Biodegradation, 1999, 44: 201–207.
- [32] Wilhelms A. et al.: Biodegradation of oil in uplifted basins prevented by deep-burialsterylization. Nature, 2001, 28; 411 (6841): 1034–1037.
- [33] Williams T. M.: Isothiazolone Biocides In Water Treatment Applications. CORROSION 2004.
- [34] Widdel F.: Microbiology and ecology of sulphate – and sulphur – reducing bacteria. W: Biology of anaerobic microorganisms (Red. A. J. B. Zehnder) New York: Willey – Interscience Publication, John Wiley & Sons, 1988.
- [35] Zhu X. Y., Lubeck J., Kilbane II J. J.: Characterization of Microbial Communities in Gas Industry Pipelines. Applied and Environmental Microbiology 2003, 69 (9): 5354–5363.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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