Carbonized biosorbents based on shungit and rice husk, immobilized with microorganisms for cleaning petroleum contaminated soils
DOI:
https://doi.org/10.18321/cpc20(4)339-348Keywords:
biosorbent, carbonization, shungite, rice husks, petroleum contaminated soils.Abstract
The paper presents the results of experiments and field tests on the use of biosorbents based on shungite from the Koksu deposit and rice husk after carbonization with immobilized strains of microorganisms for cleaning petroleum contaminated soils. Samples of shungite brand “Taurit” shale origin with a particle size of 1 mm are used. Carbonized samples of shungite and rice husks at various ratios were obtained at a temperature of 600 oС in an inert gas environment. Strains of microorganisms were isolated from petroleum contaminated soils of the Ozen and Zhetybay fields and their sorption on carbonized sorbents was determined. For their immobilization, the carbonization product of shungite and rice husks at a ratio of 1:1.7 turned out to be the optimal sorbent. Field tests of a biosorbent for cleaning petroleum contaminated soils were carried out at the site of Eco-su Tazartu LLP, as a result of which, over 60 days, the oil content in the soil decreased from 15.8 to 5.1%, the degree of purification of petroleum contaminated soil with a biosorbent was 67.7%.
References
(1) Xuezhi D, Ahmad AA, Muhammad I, Shah T, Kalwar Q (2020) World J. Agri & Soil Sci 4. https://doi.org/10.33552/WJASS.2020.04.000595
(2) Amro MM (2004) Treatment Techniques of Oil-Contaminated Soil and Water Aquifers.International Conf. on Water Resources & Arid Environment. Riyadh, Saudi Arabia.
(3) Vasilyeva GK, Zinnatshina LV, Kondrashina VS, Strijakova ER, Filonov AE, Sushkova SN (2018) Int. J. Appl. Sci. Res. Rev 5. https://doi.org/10.21767/2394-9988-C1-002
(4) Ongarbayev Y, Baigulbayeva M, Tileuberdi Y, Zhumakhan K (2022) Rudarsko-geološko-naftni zbornik 37:17-26. https://doi.org/10.17794/rgn.2022.4.2
(5) Baigulbayeva ММ, Ongarbayev YК, Tileuberdi Y, Zhambolova АB, Zhumakhan К (2021) Combustion and plasma chemistry 19:151-158. (in Russian).
(6) Ivanov AV, Tafeeva YA, Petrov IV (2019) Method for remediation of oily soil [Sposob remediatsii neftesoderzhashchey pochvy]. Patent of Russian Federation No.2681120.(in Russian).
(7) Serzhantov VG (2013) Composition for obtaining a granular nanostructured sorbent and a method for its production [Sostav dlya polucheniya granulirovannogo nanostrukturirovannogo sorbenta i sposob yego polucheniya]. Patent of Russian Federation No.248291127. (in Russian).
(8) Gospodinov DG, Pronin VA, Shkarin AV (1996) Method for modifying natural shungite sorbent [Sposob modifitsirovaniya prirodnogo sorbenta shungite] Patent of Russian Federation No.2060817. (in Russian).
(9) Khrapunov VV, Isakova RA, Volodin VN (2006) Method for obtaining modified shungite [Sposob polucheniya modifitsirovannogo shungite] Patent of the Republic of Kazakhstan No.13791 (in Russian).
(10) Khamitova KK, Demeev BB, Mogilny VV, Nauryzbaev MK (2009) Method for obtaining modified shungite [Sposob polucheniya modifitsirovannogo shungita] Patent of the Republic of Kazakhstan No. 21445. (in Russian).
(11) Kappler G, Machado DS, Schröpfer SB, Modolo RCE, Moraes CAM, Wander PR, Tarelho LAC (2018) Сarbonized rice husk characterization for soil substrate application. Proceedings WasteEng 2018 Conference. Prague, Czech. P.218-228.
(12) Daffalla SB., Mukhtar H, Shaharun MS (2020) PLoS ONE 15:e0243540. https://doi.org/10.1371/journal.pone.0243540
(13) Cheenmatchaya A, Kungwankunakorn S (2014) International Journal of Environmental Science and Development 5:171-175. https://doi.org/10.7763/IJESD.2014.V5.472
(14) Melvin GJH, Chai KF, Tamiri FM (2019) Characterization of carbonized waste materials: Rice husk and saw dust. IOP Conf. Series: Materials Science and Engineering 606:012002. https://doi.org/10.1088/1757-899X/606/1/012002
(15) Dokichev VA, Latypova DR, Badamshin AG et al (2017) Sorbent-activator for cleaning oil-contaminated soils and soils and method for its production [Sorbent-aktivator dlya ochistki neftezagryaznennykh pochv i gruntov i sposob yego polucheniya] Patent of Russian Federation No. 2615526. (in Russian)
(16) Dokichev VA, Tomilov YV, Latypova DR et al (2017) Sorbent-activator for cleaning oil-contaminated soils and soils and method for its production [Sorbent-aktivator dlya ochistki neftezagryaznennykh pochv i gruntov i sposob yego polucheniya] Patent of Russian Federation No. 2612286. (in Russian)
(17) Jobson AM, Cook FD, Westlake DWS (1972) Appl. Microbiol. 23:1082. https://doi.org/10.1128/am.23.6.1082-1089.1972
(18) Yakovlev SV, Voronov YV (1982). Biological filters [Biologicheskie filtry]. Мoscow: Stroiizdat. 120 p. (In Russian).
(19) Gisi D, Stucki G, Hanselmann KW (1997) Appl. Microbiol. Biotechnol. 48:441-448. https://doi.org/10.1007/s002530051077
(20) Samonin VV, Yelikova YY (2004) Microbiology [Mikrobilogia] 73:810-816. (In Russian). https://doi.org/10.1007/s11021-005-0011-1
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