Possibilities of force fields application for oil products’ biodegradation enhancement
DOI:
https://doi.org/10.18372/2306-6407.2.7469Keywords:
biodegradation, petroleum products, oil-destructive microorganisms, ultrasound, electric fieldAbstract
Significant contamination of soil and water by oil industry necessitates the development of new and finding ways to intensify the existing methods of cleaning up the environment. Approaches to intensify bioremediation of oil pollution through the use of force fields, including electric field and ultrasound are considered. Accelerating and increased rate of the biodegradation occur mainly by increasing the mass transfer in the environment, stimulating enzymatic activity of microorganisms, acceleration of cell growth and impact on the configuration and reactivity of hydrocarbons molecules.References
Petroleum pollutant degradation by surface water microorganisms / [Antić M. P., Jovancićević B. S., Ilić M. et al.] // Environ. Sci. Pollut. Res. Int. – 2006. – Vol. 13, No. 5. – P. 320–327.
April T. M. Hydrocarbondegrading filamentous fungi isolated from flare pit soils in northern and western Canada / April T. M., Foght J. M., Currah R. S. // Canadian Journal of Microbiology. – 2000. – Vol. 46, No. 1. – P. 38–49.
Atlas R. M. Microbial degradation of petroleum hydrocarbons: an environmental perspective / R. M. Atlas // Microbiological Reviews. – 1981. – Vol. 45, No. 1. – P. 180–209.
Atlas R. M. Hydrocabon biodegradation and oil spill bioremediation / R. M. Atlas, R. Bartha // Advances in Microbial Ecology. – 1992. – Vol. 12. – P. 287–338.
Barton S. The effects of ultrasound on the activities of some glucosidase enzymes of industrial importance / Barton S., Bullock C., Weir D. // Enzyme Microb. Technol. – 1996. – Vol.18, No. 3. – P. 190–194.
Bayer E. M. The electrophoretic mobility of gram-negative and gram-positive bacteria: an electrokinetic analysis / E. M. Bayer, J. L. Sloyer // J. Gen. Microbiol. – 2000. – I. 136. – P. 876–881.
Berg H. C. Mobile behavior of bacteria / H. C. Berg // Physics Today. – 2000. – I. 53. – P. 24.
Binger D. Citronellol Pathway Map / D. Binger, M. Turnbull // Biocatalysis/Biodefradation Database. – 2011. – Access mode. : http://eawag-bbd.ethz.ch/cit/cit_map.html.
Bremner D. Historical introduction to ultrasound / D. Bremner // Advances in Sono-Chemistry. – 1990. – Vol. 4. – P. 1–37.
Chilingar G. V. Electrobioremediation of Soils Contaminated with Hydrocarbons and Metals: Progress Report / G. V. Chilingar, W. W. Loo // Energy Sources. – 1997. – I. 19. – P. 129.
Cochran S. A. Sonoluminescence as an indicator of cell membrane disruption by acoustic cavitation / S. A. Cochran, M. R. Prausnitz // Ultrasound Med. Biol. – 2001. – I. 27. – P. 841–850.
Study on the acceleration effect of ultrasound on the hydrolyzation of starch with glucoamylase / [D. Gao, M. X. Chen, H. Liang et al.] // Journal of South China University of Technology (Natural Science). – 1994. – Vol. 22, No. 1. – P. 70–74.
In-situ bioelectrokinetic remediation of contaminated soils containing hazardous mixed wastes / [Marks R. E., Acar Y. B., Gale R. J., Ozsu-Acar E.]; ed. by D.L. Wise, D.J. Trantolo. – NY: Basel Press, 2000. – 648 p.
Effect of ultrasound on the catalysis of inulinase / [Y. Lin, D. Gao W., G. J. Li et al.] // Journal of South China University of Technology (Natural Science). – 1997. – Vol. 25, No. 9. – P. 142–144.
Enhancement of organic pollutant biodegradation by ultrasound irradiation in a biological activated carbon membrane reactor / [H. Liu, He Y., X. Quan et al.] // Process Biochemistry. – 2005. – I. 40. – P. 3002–3007.
Liu Z. Electrokinetic Movement of Escherichia coli in Capillaries / Liu Z., Chen W., Papadopoulos K. D. // Environ. Microbiol. – 1999. – Vol. 1. – P. 99.
Nelson D. L. Principles of Biochemistry / Nelson D. L, Cox M., Lehninger M. – [4th ed.]. – NY: W. H. Freeman and Company, 2005. – 1100 p.
Olszanowski A. The Use of an Electric Field to Enhance Bacterial Movement and Hydrocarbon Biodegradation in Soils / A. Olszanowski, K. Piechowiak // Polish J. Environ. Stud. – 2006. – Vol. 15, No. 2. – P. 303–309.
Pitt W. G. Ultrasound increases the rate of bacterial cell growth / W. G. Pitt, S. A. Ross // Biotechnol Prog. – 2003. – 19(3). – P. 1038–1044.
Ultrasound stimulation of microorganisms for enhanced biodegradation / [Schlafer O., Onyeche T., Bormann H. et al.] // Ultrasonics. – 2002. – I. 40. – P. 25–29.
Application of low intensity ultrasound to biotechnology / [Shi L. C., Wang B. C., Yang Y. H., Dai C. Y.] // Journal of Chongqing University. – 2002. – Vol. 25, No. 10. – P. 139–142.
Sikkema J. Mechanisms of membrane toxicity of hydrocarbons / Sikkema J., de Bont J. A, Poolman B. // Microbiol Rev. Jun. – 1995. – Vol. 59(2). – P. 201–222.
Ultrasound-mediated DNA transfer for bacteria / [Song Y., Garaventa G., Bottero S. et al.] // Nucleic Acids Res. – 2007. – Vol. 35, No. 19. – P. 1073–1080.
Sugar I. Stochastic model for electric field-induced membrane pores electroporation / I. P. Sugar, E. Neumann // Biophysical Chemistry. – 1984. – Vol. 19(3). – P. 211–225.
Wang B. C. Carrot cell growth response in a stimulated ultrasonic environment / Wang B. C., Yoshikoshi A., Sakanishi A. // Colloids and Surface. Biointerfaces. – 1998. – Vol. 12. – P. 89–95.
Wu J. Y. Ultrasound-induced stress responses of Panax ginseng cells: enzymatic browning and phenolics production / J. Y. Wu, L. D. Lin // Biotechnol. Prog. – 2002. – Vol. 18. – P. 862–866.
Yeung A. T. Fundamental Formulation of Electrokinetic Extraction of Contaminants from Soil / A. T. Yeung, S. Datla // Can. Geotech. J. – 1995. – I. 32. – P. 569.
Enhancement of Lipase-catalysed esterification in organic solvent by ultrasonic irradiation / [M. H. Zong, Du W., H. Q. Li et al.] // Journal of South China University of Technology (Natural Science). – 2000. – Vol. 28, No. 3. – P. 101–104.
Аспекты выбора технологий обезвреживания и утилизации опасных отходов / [Дикинис А. В., Илларионов А. В., Шилов Д. В. и др.] // Экология и промышленность России. – 2010. – Вып. 6. – С. 52–55.
Ейрінг Г. Основы химической кинетики / Ейрінг Г., Лин С.Г., Лин С.М. –М.: Мир, 1983. – 528 с.
Кардашев Г. А. Физические методы интенсификации процессов химической технологи / Г. А. Кардашев. – М.: Химия, 1990. – 208 с.
Ковалишин Б. М. Підвищення енергоефективності паливних установок через активацію молекул реагентів реакції горіння / Б. М. Ковалишин // Наукові вісті НТУУ “КПІ”. – 2011. – No 1. – C. 136–139.
Ткачук Н. Г. Интенсификация роста и ферментативной активности микроорганизмов ила для очистных сооружений электрическим током и ультразвуком: дис. ... канд. техн. наук : 05.18.11 / Ткачук Николай Григорьевич. – К., 1983. – 157 c.
Трофимова Т. И. Курс физики : [учеб. пособие для вузов] / Т. И. Трофимова. – [2-е изд., перераб. и доп.]. – М. : Высш. шк., 1990. – 478 с.
Хорбенко И. Г. Ультразвуковая обработка материалов / Хорбенко И. Г., Абрамов О. В., Швегла М. П. ; под ред. О. В. Абрамова. – М.: Машиностроение, 1984. – 280 с.