Study of microflora petroleum stratal waters of deposits of Western Kazakhstan
45 49
Keywords:
microorganisms, enhanced oil recovery, stratal water, surfactant, emulsification indexAbstract
The article provides quantitative and qualitative physical, chemical and microbiological characteristics petroleum stratal waters of the two working deposits «Zhetybai» and «Kulsary». The studies shows that petroleum stratal waters deposits «Zhetybai» and «Kulsary» have a neutral pH are highly mineralized, sodium-chlorine with the various quantitative indicators in the total mineralization and ion content of potassium, calcium, magnesium and sodium. It is established that aerobic microorganisms petroleum stratal waters deposits have environmental value of these ecosystems, as numerous, and, show active vital functions - 25,10х106 CFU/ml and 1,80х106 CFU/ml, respectively, whereas, the number of anaerobic microorganisms in samples of «Zhetibay» - 0,38х105 CFU/ml, and samples «Kulsary» - much smaller - 0,50х102 CFU/ml. Found that the formation waters contain the following groups of organisms: the spore microorganisms, micromycetes, Pseudomonas and representatives of the Bacillus, and actinobacteria and enterobacteria not detected.
During works, from petroleum stratal waters of deposits of Western Kazakhstan 33 cultures of microorganisms that require a further study as perspective microorganisms for creation of technologies of secondary extraction of oil from petroleum layers are abstracted.
References
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2 Lazar I., Petrisor I.G., Yen T.F. Microbial Enhanced Oil Recovery // Petroleum Science and Technology. – 2007. – Vol. 25, No 13. – P. 1353–1366.
3 Khire J.M, Khan M.I. Microbially Enhanced Oil Recovery (MEOR) Part I. Importance and mechanism of MEOR // Enzyme Microb Technol. -1994. – Vol. 16. - P. 170-172.
4 Jimoh I. A. Microbial enhanced oil recovery // Thesis. Luma Print, Aalborg University, Esbjerg. - 2012. – Vol. 21, No 18. – P. 55–56.
5 Wildenschild D., Armstrong R. T. The effects of fractional wettability on microbial enhanced oil recovery // American Geophysical Union Fall Meeting. - 2011. – Vol. 28, No 12. – P. 425–426.
6 Hitzman, D. O. Microbial enhanced oil recovery: The time is now. In: Microbial Enhancement of Oil Recovery // Recent Advances. Development in Petroleum Science. - 1991. - Vol. 8. - P. 11–20.
7 Aeckersberg F., Bak F., Widdel F. Anaerobic oxidation of saturated hydrocarbons to CO2 by a new type of sulfate-reducing bacterium // Arch Microbial. – 1991. - Vol. 156. – P. 5-14
8 Jaysree R.C., Subham Basu, Priyanka P. Singh. Isolation of biosurfactant producing bacteria from environmental samples // Pharmacologyonline. – 2011. – Vol. 67. - P. 1427-1433.
9 Zaks S.O. The method of Studying the connate waters in the oil reservoirs. Proceedings of the Conference on the Development of Research in the Field of Secondary Methods of Petroleum Exploitation // Izv. Akod Nauk AzSSR. -1954. – Vol 42, No 14. – P. 158.
10 Van Hamme J., Singh A., Ward O // Energy Sources. - 2006. - № 24. – Р. 52-56.
11 Губкин И. М. Подземная газификация нефтяных пластов и термический способ добычи нефти. - М.: Изд-во АН СССР 1953. – С. 444.
12 Донченко, Л. В. Пектин, Л., Основные свойства, производство и применение // Москва : ДеЛи принт, - 2007. – № 521. – С. 276.
13 Кайырманова Г. К., Мустапаева Ж. О., Ерназарова А.К., Аманғалиқызы А. Эколого-функциональные свойства аборигенных микроорганизмов нефтепластов // Wschodnioeuropejskie Czasopismo Naukowe (East European Scientific Journal) Biologia. - 2016. – Vol. 7. - P. 145-149.
14 She Y. H., Zhang F., Xia J. J. et al. Investigation of biosurfactant-producing indigenous microorganisms that enhance residue oil recovery in an oil reservoir after polymer flooding // Applied Biochemistry and Biotechnology. - 2011. - Vol. 163, No. 2. - P. 223–234.
15 Tardy-Jacquenod C., Caumette P., Matheron R., Lanau C., Arnauld O. and Magot M., Characterization of sulfate-reducing bacteria isolated from oil-field waters // Canadian Journal of Microbiology. -1996.-Vol. 42, No. 3. - P. 259–266.
16 Ханин А.А. Породы-коллекторы нефти и газа и их изучение // Издательство «Недра». – 1969. – № 4. – С. 368.
17 Ибатуллин P.P., Хисамов Р.С., Беляев С.С., Борзенков И.А., Назина Т.Н. Разработка и применение микробных биотехнологий увеличения нефтеотдачи пластов // Нефтяное хозяйство. – 2005. – № 7. – С. 42-45.
18 Hao R., Lv M. and Lu A., Biodegradation of crude oil in soil by Bacillus subtilis SB-1 // Current Topics in Biotechnology. -2011. - Vol. 6, No. 6.- P. 49-55.
19 Nazina T. N., Sokolova D. S., Grigoryan A. A. et al., Geobacillus jurassicus sp. nov., a new thermophilic bacterium isolated from a high-temperature petroleum reservoir, and the validation of the Geobacillusspecies // Systematic and Applied Microbiology, -2005. -Vol. 28, No. 1, - P. 43-53.
20 Гимaтyтдинoв Ш.K. Физиka нeфтянoгo и гaзoвoгo плacтa. - М.: Нeдpa. 1977. – С. 269.
21 Youssef N., Elshahed M. S. and McInerney M. J., “Microbial processes in oil fields. Culprits, problems, and opportunities // Advances in Applied Microbiology. - 2009. -Vol. 66, No. 4, - P. 141-251.
22 Иванов М.К., Бурлин Ю. К., Калмыков Г.А., Карнюшина Е.Е., Коробова Н.И. Петрофизические методы исследования кернового материала // Изд-во Московского университета Москва. – 2008. – № 141. – С. 112.
23 Исмаилов А.А., Смаилова Г.Ж., Исмаилова Д.А., «Состав и физико-химические свойства пластовой воды» // Казахстанско-Британского Технического Университета. – 2012. – № 138. - С. 20 – 23.
24 Чоловский И.П., Брагин Ю.И., Бакина В.В. Методические указания к лабораторным работам по курсу «Промысловая геология и гидрогеология. - М.: Изд-во «Нефть и газ», 1997. – С. 42.
25 Дияшeв P.Н. Coвмecтнaя paзpaбoткa нeфтяныx плacтoв. - М.: Нeдpa, 1984. - С. 207.
26 Кашнер Д. Жизнь микробов в экстремальных условиях. - М.: Мир, 1981. – С. 511.
27 Манакова И.Н., Шантарин В.Д., Тюменьский Государственный Нефтегазовый Университет, Процессы сорбции фенола из водных объектов после обработки в постоянном электрическом поле. - М.: Изд-во «Нефть и газ», 2014. - С. 15.
28 Боронин П.А., Севастьянов А.А., Тюменьский Государственный Нефтегазовый Университет, Использование модели дикстра и парсонса для оценки эффективности волнового воздействия на пласт. - М.: Изд-во «Нефть и газ», 2014. - С. 34 - 36.
29 Palashpriya Das, Soumen Mukherjee, Ramkrishna Sen. Substrate dependent production of extracellular biosurfactant by a marine bacterium // Bioresource Technology. – 2009. - Vol. 105, No. 3, - P. 1015- 1019.
30 Лукьянов О.В., Шагеев А.Ф., Семенов А.В. Новые технологии при разработке карбонатных коллекторов // Наука и технологии «Разведка и разработка». – 2013. - № 142. – С. 59.
References
1. Kurbanbayev M.I., Miroshnikov V.Ya., Tolokonsky S.I. (2011) Enhancement of oil recovery in Kazakhstan deposits [Povishenie nefteotdashi plasta na mestorozhdeniah Kazakhstana]. III Mezhdunarodniy naushnii simpozium Teoria i praktika primenenia metodov uveleshenia nefteodshy plastov, vol. 149, pp. 243.
2 Lazar I., Petrisor I.G., Yen T.F. (2007) Microbial Enhanced Oil Recovery. Petroleum Science and Technology., vol. 25, no 13, pp. 1353–1366.
3 Khire JM, Khan MI. (1994) Microbially Enhanced Oil Recovery (MEOR). Part I. Importance and mechanism of MEOR. Enzyme Microb Technol. vol. 16, pp. 170-172.
4 Jimoh I. A. (2012) Microbial enhanced oil recovery. PhD Thesis. Aalborg University, Esbjerg, vol. 21, no 18. pp. 55–56.
5 Wildenschild D., Armstrong R.T. (2011) The effects of fractional wettability on microbial enhanced oil recovery. American Geophysical Union Fall Meeting., vol. 28, no 12, pp. 425–426.
6 Hitzman, D. O. (1991). Microbial enhanced oil recovery: The time is now. In: Microbial Enhancement of Oil Recovery. Recent Advances. Development in Petroleum Science., vol. 8, pp. 11–20.
7 Aeckersberg F., Bak F., Widdel F. (1991) Anaerobic oxidation of saturated hydrocarbons to CO2 by a new type of sulfate-reducing bacterium. Arch Microbial. vol. 156, pp. 5-14.
8 Jaysree R.C., Subham Basu, Priyanka P.Singh. (2011) Isolation of biosurfactant producing bacteria from environmental samples. Pharmacologyonline, vol. 67, pp. 1427-1433.
9 Zaks S.O. (1954) The method of Studying the connate waters in the oil reservoirs. Proceedings of the Conference on the Development of Research in the Field of Secondary Methods of Petroleum Exploitation. Izv. Akod Nauk AzSSR., vol 42, no 14, pp. 158.
10 Van Hamme J., Singh A., Ward O. (2006) Energy Sources. vol. 24, pp. 52-56.
11 Gubkin I. M. (1953) Underground gasification of oil layers and thermal oil recovery method [Podzemnaya gazifikasia neftianih plastov i termicheskyi sposob dobishy nefty]. M.:Izd-vo AN SSSR., pp. 444.
12 Donchenko, L. V. (2007) Pectin basic properties, production and application [Pektin osnovnye svoistva, proizvotsvo i primenenie]. Moskva : Deli print, vol. 5, pp. 276.
13 Kayirmanova G. K., Mustapaeva J. O., Yernazarovа A. K., (2016) Amanelis Ecological and functional properties of native microorganisms reteplase [Ecologo-funksionalnoe svoistva aborigennih microorganizmov nefteplastov]. Wschodnioeuropejskie Is Naukowe (Scientific Journal East European) Biologia, vol. 7. pp. 145-149.
14 She Y. H, Zhang F, Xia J. J. (2011) Investigation of biosurfactant-producing indigenous microorganisms that enhance residue oil recovery in an oil reservoir after polymer flooding, Applied Biochemistry and Biotechnology, vol. 163, no. 2, pp. 223-234.
15 Tardy-Jacquenod C., Caumette P., Matheron R., Lanau C., Arnauld O and Magot M. (1996) Characterization of sulfate-reducing bacteria isolated from oil-field waters. Canadian Journal of Microbiology, vol. 42, no. 3, pp. 259-266.
16 Khanin, A. A. (1969) Porody-oil and gas reservoir and their study [Porody - kollektori nefti i gaza i ih izushenie]. Izdatelstvo "Nedra", vol. 4, pp. 368
17 Ibatullin P. P., Khisamov R. S., Belyaev S. S., Borzenkov I. A., Nazina T. N. (2005) The development and application of microbial biotechnology to increase oil reservoirs [Razrabotka i primenenie mikrobnih biotehnolyi uveleshenia nefteotdashi plastov]. Neftianoe hoziaystvo, vol. 7. – pp. 42-45.
18 Hao R., Lv M., and Lu A. (2011) Biodegradation of crude oil in soil by Bacillus subtilis SB-1. Current Topics in Biotechnology., vol. 6, no 6, pp. 49-55.
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Published
2017-12-07
How to Cite
Kaiyrmanova, G., Darmenkulova, Z., Zhubanova, A., Yernazarova, A., Zhabasova, G., & Tapeshova, S. (2017). Study of microflora petroleum stratal waters of deposits of Western Kazakhstan. Experimental Biology, 72(3), 104–113. Retrieved from https://bb.kaznu.kz/index.php/biology/article/view/1284
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MICROBIOLOGY
