Published August 2022, Pg. 48-55
Section: Nanotechnologies in oil industry
UOT: 622.276.53
DOI: 10.37474/0365-8554/2022-08-48-55
The study of effect of nano-sized agents on the chemical and radionuclide content of produced water
E.G. Shahbazov Dr. in Tech. Sc. - ”Oil-Gas Scientific Research Design” InstituteThe effect of nano-sized agents on the chemical and radionuclide content of produced water is studied. The presence of correlation between radionuclide content of oil and produced water recovered in oil and gas fields of Republic and the general mineralization of ground water as well is shown. The effect of nanotechnological processes has been specified and the results for the research of existing problem obtained. For this purpose, the content of nanocompositions is presented and their impact on the composition of radionuclides in produced water defined.
References:
1. Yusifzade Kh.B., Shakhbazov E.G., Kazimov E.A. Nanotekhnologii pri burenii neftyanykh i gazovykh skvazhin. – Baku, 2014, s. 174.
2. Shakhbazov E.G., Mursalova M.A. Effekt malykh kontsentratsiy i vozhmushcheniy: NANO-PAV dlya protsessov neftedobychi. – Baku, 2016, s. 38.
3. Yusifzade Kh.B., Shakhbazov E.G., Kazimov E.A. Nanotekhnologii pri burenii neftyanykh i gazovykh skvazhin. – Baku, SOCAR, 2014, s. 176.
4. Mirzadzhanzade A.Kh., Abdullayev R.I., Yusifzade Kh.B., Shakhbazov E.G., Kazimov E.A. Nauchnye osnovy razrabotki i razvitiya nanotekhnologiy v neftyanoy promyshlennosti, nanonauke i nanotekhnologiyakh. Entsiklopediya system zhizneobespecheniya, UNESCO- EOLSS, 2011, s. 554-570.
5. Ragimov V., Iskenderova T. Radiatsionnaya ekologiya. Posobie dlya VUZov, Baku, 2012, s. 447.
6. Scaterlay D., Maklenan D.S. Radioaktivnost´ prirodnykh gazov Kanadi, Mobilnaya radiologicheskaya sluzhba. Canada, 1918, 12, 153.
7. Tcherenikov A., Kolb V.A., Vozhchik M. Povyshennaya radioaktivnost´ pri dobyche nefti i gaza i svyazannye s etim radiologicheskie problemy // Nauka o vseobshchey okruzhayushchey srede, 1985, t. 45, s. 77-84.
8. Gesel T.F. Vozdeistvie oblucheniya ot 222-Rn, nakhodyashchegosya v prirodnom gaze i ego produktakh, Zashchita ot izlucheniy, 1975, t. 29, s. 681-687.
9. Byulleten´ po obrashcheniyu s prirodnymi radioaktivnymi materialami (NORM) pri dobyche nefti i gaza, fragment 1.2. Byulleten´ Amerikanskogo neftyanogo instituta, E2 (BUL E2), 1992, pervoe izdanie, aprel 1.
10. Silk T.Zh., Kendal D.M., PHPPS A.В. Skorrektirovanie otsenki doz iz rud i mineral´nykh peskov, Radiologicheskaya zashchiya. 1995, t. 15, No 3, s. 217-222.
11. UK00A Rukovodyashchie printsipy 1987 g. dlya raboty estestvennymi radioaktivnymi veshchestvami na morskikh ustanovkakh.
12. Otto G.N. Natsional´noe issledovanie estestvennykh radioaktivnykh materialov v neftedobyvayushchikh i gazovykh predpriyatiyakh, Amerikanskiy neftyanoy institut, Dallas, Tekhas, 1989.
13. https://az.m.wikipedia.org/wiki/Radium
14. Miralamov Kh.F., Mamedov D.I. Osnovy nanotekhnologii i nanokhimii. Posobie dlya VUZov, Baku, 20008,
s. 293.
15. Garibov A. Prakticheskaya yadernaya fizika. ZAO Tsentr natsional´nykh yadernykh issledovaniy, Baku, 2019,
s. 416.
16. Guseynov F.A., Kazimov Sh.P. Plastovye vody uglevodorodnykh mestorozhdeniy i tekhniko-ekonomicheskie pokazateli razrabotki, s. 264.
17. Guliyeva Ya.G. Razrabotka metodov ochistki plastovykh vod i nefti pri pomoshchi tekhnologii perenosa ionov tyazholykh metallov // Nauchno-issledovatel´skiy institut “Khimiya i geotekhnologicheskie problemy nefti i gaza” Azerbaidzhanskoy gosudarstvennoy neftyanoy akademii, avtoreferat, Baku, 2014, s. 22.
