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Warianty tytułu
New areas of research – microorganisms – biogenic processes
Języki publikacji
Abstrakty
The aim of the article is to discuss the role of using biocides in to the drilling muds and fracturing fluids and selection of biocidal products under certain circumstances. The problem of enzymatic decomposition of organic blockers is also presented. This article also concerns nitrate-based treatment in underground gas storage. This technology is applied for limiting activity of sulfate-reducting bacteria (SRB) which are responsible for a natural gas sulphurization. Also, attention was paid to the problem of environmental protection in the oil and gas industry which including issues related to a bioremediation of soils contaminated with petroleum products. The discussed matters can create a broad perspectives in future applications of phytoremediation methods, as well as attempts to combined it with the previous method based on using selected autochthonic microorganisms.
Czasopismo
Rocznik
Strony
22--24
Opis fizyczny
Bibliogr. 26 poz.
Twórcy
autor
- Instytut Nafty i Gazu – Państwowy Instytut Badawczy
autor
- Instytut Nafty i Gazu – Państwowy Instytut Badawczy
autor
- Instytut Nafty i Gazu – Państwowy Instytut Badawczy
Bibliografia
- 1. Abhilash P.C.: Plant-microbe interactions: novel applications for exploitation in multipurpose remediation technologies. Trends of Biotechnol., Vol. 30, No 8, 2012: 416-420
- 2. Adroer N. Casas C. de Mas C. Solá C. Mechanism of formaldehyde biodegradation by Pseudomonas putida. Appl. Microbiol. Biotechnol. 1990, 33: 217-220.
- 3. Anjum N.A., Gill S.S., Tuteja N. (ed): Enhancing Cleanup of Environmental Pollutants, Vol 1: Biological Approaches, 2017
- 4. Błaż S.: Zapobieganie zanikom płuczek w formacje skalne w procesie wiercenia. Nafta-Gaz, 2011
- 5. Brycki B., Waligórska M., Szulc A. The biodegradation of monomeric and dimeric alkylammonium surfactants. J. Hazard. Mater. 2014, 280: 797-815.
- 6. Brzeszcz J., Kapusta P., Turkiewicz A.: Zastosowanie metod molekularnych w badaniach bioremediacji substancji ropopochodnych, Nafta-Gaz nr 11, 2013: 829-842.
- 7. Cui N., Zhang X., Xie Q., Wang S., Chen J., Huang L., Qiao X., Li X., Cai X. Toxicity profile of labile preservative bronopol in water: The role of more persistent and toxic transformation products. Environ. Pollut. 2011, 159: 609-615.
- 8. Di Maiuta N., Hubschmid S., Giuliani N., Schwarzentruber P., Dow C.S. Microbial degradation of formaldehyde in white mineral dispersions preserved with formaldehyde-releasing biocides. Int. Biodeter. Biodeg. 2009, 63: 769-777.
- 9. Fallahtafti S. The toxicity characterization and detoxification of two formaldehyde-releasing oilfield microbial control additives. SPE Western North American and Rocky Mountain Joint Meeting, 17-18 April 2014, Denver, Colorado. DOI:10.2118/169551-MS.
- 10. Gałązka A., Gałązka R.: Fitoremediacja gleb skażonych chemicznie. Mikrobiologia oraz metody analityczne w nauce, 2016: 71-84
- 11. Hitzman D.O: Nitrate-based treatments control hydrogen sulfide in reservoirs. AAPG Conf., Vail, Colorado, 2010
- 12. Kahrilas G.A., Blotevogel J., Stewart P.S., Borch. T. Biocides in hydraulic fracturing fluids: a critical review of their usage, mobility, degradation and toxicity. Environ. Sci. Technol. 2015, 49: 16-32
- 13. Kluk D., Steliga T.: Ocena zmian toksyczności gleby skażonej niklem i substancjami ropopochodnymi w procesach fitoremediacji. Nafta-Gaz, 4, 2016: 230-241
- 14. Kumar B.L., Sai Gopal D.V.: Effective role of indigenous microorganisms for sustainable environment. 3 Biotech, 2015, 5(6): 867-876 15. Leung H-W. Ecotoxicology of glutaraldehyde: review of environmental fate and effects studies. Ecotoxicol. Environ. Safe. 2001, 49: 26-39.
- 16. Migneault I., Dartiguenave C., Bertrand M.J., Waldron K.C. Glutaraldehyde: behavior in aqueous solution, reaction with proteins, and application to enzyme crosslinking. BioTechniques 2004, 37: 790-802.
- 17. Miller A.A., Miller P.F.: Emerging Trends in Antibacterial Discovery. Caister Academic Press, 2011
- 18. Radwan K., Ślosorz Z., Rakowska J.: Efekty środowiskowe usuwania zanieczyszczeń ropopochodnych. Technika i Technologia, 04.2017
- 19. Schwermer C.U. et al.: Impact of nitrate on the structure and function of bacterial communities in pipelines used for injection of seawater into oil fields. Appl. Environ. Microbiol., 2008, 74(9): 2841-2851.
- 20. Stringfellow W.T., Domen J.K., Camarillo M.K., Sandelin W.L., Borglin S. Physical, chemical, and biological characteristics of compounds used in hydraulic fracturing. J. Hazard. Mater. 2014, 275: 37-54.
- 21. Such, P. Turkiewicz, A. Kapusta, P. Stopa, J. Rychlicki, S. Zastosowanie biocydów w celu ograniczenia rozwoju flory bakteryjnej w PMG. Wiertnictwo Nafta Gaz 2007, 24: 553-558.
- 22. Turkiewicz A., Brzeszcz J., Witek W., Kapusta P.: Biocide testing for the application in the oil and gas industry. AGH Drilling Oil Gas Quarterly, Vol. 32, No. 2, 2015: 245-253
- 23. Wójcikowski A.: Użytkowanie urządzeń obiegu płuczki wiertniczej Materiały edukacyjne Men, 311[40].Z2.02. Wyd. Instytut Technologii Eksploatacji - Państwowy Instytut Badawczy, Radom, 2007
- 24. Varjani S.J.: Microbial degradation of petroleum hydrocarbons. Bioresour. Technol. 223, 2017: 277- 286
- 25. Vengosh A., Jackson R. B., Warner N., Darrah T. H., Kondash A. A critical review of the risks to water resources from unconventional shale gas development and hydraulic fracturing in the United States. Environ. Sci. Technol. 2014, 48: 8334-8348. 2
- 26. Vorholt J.A. Cofactor-dependent pathways of formaldehyde oxidation in methylotrophic bacteria. Arch. Microbiol. 2002, 178: 239-249.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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