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Carbonized Sorbents of Shungite and Rice Husk for Purification of Petroleum Contaminated Soils

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Contamination of soil and water with petroleum during its extraction, collection, transportation, storage and preparation occurs frequently, and purification of oil spills is one of the pressing environmental problems of oil producing organizations. There are a large number of methods for utilization oil spills. The sorption method in combination with bioremediation is capable of effectively purification of petroleum contaminated soils. The paper shows the possibility of using a carbonized mixture of shungite from the Koksu deposit (Kazakhstan) with rice husk as a sorbent and carrier of microorganism strains. The physicochemical properties and elemental composition, as well as the microstructure of carbonized samples were established. The maximum sorption capacity of carbonized sorbents when purifying the soil samples from oil from the Karazhanbas field was 1.86 g/g after 60 days. The carbonized samples with microorganism strains immobilized on them showed a degree of oil destruction reaching 90%.
Rocznik
Strony
16--25
Opis fizyczny
Bibliogr. 19 poz., rys., tab.
Twórcy
  • Department of Chemistry and Chemical Technology, Al-Farabi Kazakh National University, 71, Al-Farabi Pr., Almaty, 050040, Kazakhstan
  • Institute of Combustion Problems, 172, Bogenbai Batyr Str., Almaty, 050012, Kazakhstan
  • Department of Chemistry and Chemical Technology, Al-Farabi Kazakh National University, 71, Al-Farabi Pr., Almaty, 050040, Kazakhstan
  • Department of Chemistry and Chemical Technology, Al-Farabi Kazakh National University, 71, Al-Farabi Pr., Almaty, 050040, Kazakhstan
  • Institute of Combustion Problems, 172, Bogenbai Batyr Str., Almaty, 050012, Kazakhstan
  • Department of Biology and Biotechnology, Al-Farabi Kazakh National University, 71, Al-Farabi Pr., Almaty, 050040, Kazakhstan
  • Department of Biology and Biotechnology, Al-Farabi Kazakh National University, 71, Al-Farabi Pr., Almaty, 050040, Kazakhstan
Bibliografia
  • 1. Alam M., Hossain A., Hossain D., Johir M., Hossen J., Rahman S., Zhou J., Hasan K., Karmakar A., Ahmed M.B. 2020. The potentiality of rice huskderived activated carbon: from synthesis to application. Processes, 8, 203–240.
  • 2. Al-Jammal N., Juzsakova T. 2016. Review on the effectiveness of adsorbent materials in oil spills clean up. 7th International Conference of ICEEE, 131–138.
  • 3. Chukaeva M., Zaytseva T., Matveeva V., Sverchkov I. 2021. Purification of oil-contaminated wastewater with a modified natural adsorbent. Ecological Engineering & Environmental Technology, 22(2), 46–51.
  • 4. Cui Y., Li J., Zhang Y., Zhang M. 2014. Oil-polluted sea water purification by carbonized rice hull. Journal of Pollution Effects & Control, 2(2), 122–124.
  • 5. Gupta S., Tai N-H. 2016. Carbon materials as oil sorbents: a review on the synthesis and performance. Journal of Materials Chemistry, A, 4, 1550–1565.
  • 6. Ibrahim M.D., Shuaibu R., Abdulsalam S., Giwa S.O. 2016. Remediation of escravous crude oil contaminated soil using activated carbon from coconut shell. Journal of Bioremediation & Biodegradation, 7(5), 365–370.
  • 7. Kennedy K.K., Maseka K.J., Mbulo M. 2018. Selected adsorbents for removal of contaminants from wastewater: towards engineering clay minerals. Open Journal of Applied Sciences, 8, 355–369.
  • 8. Kenes K., Yerdos O., Zulkhair M., Yerlan D. 2012. Study on the effectiveness of thermally treated rice husks for petroleum adsorption. Journal of NonCrystalline Solids, 358, 2964–2969.
  • 9. Mambwe M., Kalebaila K.K., Johnson T. 2021. Remediation technologies for oil contaminated soil. Global Journal of Environmental Science and Management, 7(3), 419–438.
  • 10. Moshnikov I.A., Kovalevski V.V. 2018. Composite materials based on nanostructured shungite filler. Materials Today: Proceedings, 5, 25971–25975.
  • 11. Orng T.P., Poyai T., Chawaloesphonsiya N., Bun S., Painmanakul P. 2020. Optimization of washing conditions and adsorption process for petroleum hydrocarbon removal from drill cuttings byproduct. Thai Environmental Engineering Journal, 34(2), 23–33.
  • 12. Ossai I.C., Ahmed A., Hassan A., Hamid F.S. 2019. Remediation of soil and water contaminated with petroleum hydrocarbon: a review. Environmental Technology & Innovation, 17, 100526.
  • 13. Polunina I.A., Vysotskii V.V., Senchikhin I.N., Polunin K.E., Goncharova I.S., Petukhova G.A., Buryak A.K. 2017. The effect of modification on the physicochemical characteristics of shungite. Colloid Journal, 79, 244–249.
  • 14. Rogovskii I.L., Kalivoshko S.M., Voinash S.A., Korshunova E.E., Sokolova V.A., Obukhova I.A., Kebko V.D. 2020. Research of absorbing properties of carbon sorbents for purification of aquatic environment from oil products. IOP Conf. Series: Earth and Environmental Science, 548, 062040.
  • 15. Riding M.J., Martin F.L., Jones K.C., Semple K.T. 2015. Carbon nanomaterials in clean and contaminated soils: environmental implications and applications. Soil, 1, 1–21.
  • 16. Rizwan Md., Singh M., Mitra C.K., Morve R.K. 2014. Ecofriendly application of nanomaterials: nanobioremediation. Journal of Nanoparticles, 431787.
  • 17. Sui X., Wang X., Li Y., Ji H. 2021. Remediation of petroleum-contaminated soils with microbial and microbial combined methods: advances, mechanisms, and challenges. Sustainability, 13, 9267–9295.
  • 18. Sun P., Sun Y., Luo Y., Hu Y. 2021. The application progress of nano materials for remediation in contaminated soil. 2021. IOP Conf. Series: Earth and Environmental Science, 692, 032035.
  • 19. Viana C.E., Neto J.W., Mourad K.A. 2016. Using rice husks in water purification in Brazil. International Journal of Environmental Planning and Management, 2(3), 15–19.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f828a4b5-64da-4cfa-bd12-3c8d473c98a9
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