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Oil spills contaminate water bodies and hence, cause the death of marine animals. The Niger Delta Oil contaminated water was treated by adsorption using sisal fibre activated carbon (SFAC) doped with silica nanoparticles (SNP) synthesized from Ofada rice husk which was carbonized at temperatures 400 °C and 650 °C. The SNP was synthesized at 600 °C (SNP-1) and 800 °C (SNP-2). The proportion in SFAC: SNP for both temperature values was 4.8:0.2 with a basis of 5 grams of the adsorbent. The samples were characterized by SEM, BET analysis, XRF and XRD. The adsorption equilibrium studies obeyed Langmuir adsorption isotherm; as the linear correlation value was close to unity, with a separation factor of 0.004. SNP-1 shows amophous nature having Fe2O3 and SNP-2 shows crystalline nature which consist of quartz. SNP-2 was used for the study due to its high surface area observed in the BET. High % removal efficiency of 99.84 was attained with silica nanoparticle (SNP-2) integrated in sisal fiber activated carbon (SFAC carbonized at 400 °C).
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Tom
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297--308
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Bibliogr. 33 poz., rys., tab.
Twórcy
autor
- Chemical Engineering Department, Covenant University, km 10 Idiroko Road, Ota, Ogun State, Nigeria
autor
- Chemical Engineering Department, Covenant University, km 10 Idiroko Road, Ota, Ogun State, Nigeria
- Chemical Engineering Department, Covenant University, km 10 Idiroko Road, Ota, Ogun State, Nigeria
- Cummins West Africa Limited, Plot Y, Mobolaji Johnson Ave, Alausa, Lagos State, Nigeria
autor
- Chemical Engineering Department, Covenant University, km 10 Idiroko Road, Ota, Ogun State, Nigeria
autor
- Chemical Engineering Department, Covenant University, km 10 Idiroko Road, Ota, Ogun State, Nigeria
autor
- Chemical Engineering Department, Covenant University, km 10 Idiroko Road, Ota, Ogun State, Nigeria
Bibliografia
- 1. Doshi, B., Sillanpää, M. and Kalliola, S. 2018. A review of bio-based materials for oil spill treatment. Water research, 135, 262–277.
- 2. Egwu, S.A. 2012. Oil Spill Control and Management. Petroleum Technology Development Journal, 2(1). https://www.ptdjournal.com/?page_id=8
- 3. Nyankson, E., Rodene, D., Gupta, R.B. 2016. Advancements in crude oil spill remediation research after the Deepwater Horizon oil spill. Water, Air, & Soil Pollution, 227(1), 1–22.
- 4. Ewida A.Y.I. 2014. Oil Spills: Impact on Water Quality and Microbial Community on the Nile River, Egypt. The Handbook of Environmental Chemistry, 3(4), 192–198. https://doi.org/10.1007/698_2016_97
- 5. Kalejaiye, K. 2015. Nigeria Records 9343 Oil Spill Incidents in 10 Years. The Guardian.
- 6. Anejionu, O.C., Ahiarammunnah, P.A.N., Nri-ezedi, C.J. 2015. Hydrocarbon pollution in the Niger Delta: Geographies of impacts and appraisal of lapses in extant legal framework. Resources Policy, 45, 65–77.
- 7. Liao W., Wang Y.Z. 2019. Cellulose-Based Absorbents for Oil Contaminant Removal. Cellulose-Based Superabsorbent Hydrogels, 951–977. https://doi.org/10.1007/978-3-319-77830-3_31
- 8. Cambiella, A., Ortea, E., Rios, G., Benito, J.M., Pazos, C., Coca, J. 2006. Treatment of oil-in-water emulsions: Performance of a sawdust bed filter. Journal of Hazardous Materials, 131(1–3), 195–199.
- 9. Ghimire, N., Wang, S. 2018. Biological treatment of petrochemical wastewater. In Petroleum Chemicals-Recent Insight, London, UK: IntechOpen, 55–74.
- 10. Abbassi, B., Livingstone, T. 2018. A comparative review and multi-criteria analysis of petroleum refinery wastewater treatment technologies. Environmental Research, Engineering and Management, 74(4), 66–78.
- 11. Mohammadi L., Rahdar A., Bazrafshan E., Dahmardeh H., Susan M., Hasan A.B., Kyzas G.Z., 2020. Petroleum hydrocarbon removal from wastewaters: A review. Processes, 8(4), 447.
- 12. Pal, S., Banat, F., Almansoori, A., Abu Haija, M. 2016. Review of technologies for biotreatment of refinery wastewaters: progress, challenges and future opportunities. Environmental Technology Reviews, 5(1), 12–38.
- 13. Wang, C., Chen, Z., Li, Y., Feng, K., Peng, Z., Zhu, Y., Yang, X. 2021. Refinery wastewater treatment via a multistage enhanced biochemical process. Scientific Reports, 11(1), 1–11.
- 14. Demirbas, A., Bamufleh, H.S., Edris, G., Alalayah, W.M. 2017. Treatment of contaminated wastewater. Petroleum Science and Technology, 35(9), 883–889.
- 15. Gupta, S., Tai, N.H. 2016. Carbon materials as oil sorbents: a review on the synthesis and performance. Journal of Materials Chemistry A, 4(5), 1550–1565.
- 16. Burnstock, A. 2019. Taking different forms: metal soaps in paintings, diagnosis of condition, and issues for treatment. In Metal Soaps in Art, Springer, Cham, 243–262.
- 17. Wolok, E., Barafi, J., Joshi, N., Girimonte, R., Chakraborty, S. 2020. Study of bio-materials for removal of the oil spill. Arabian Journal of Geosciences, 13(23), 1–11.
- 18. Rovani, S., Santos, J.J., Corio, P., Fungaro, D.A. 2018. Highly pure silica nanoparticles with high adsorption capacity obtained from sugarcane waste ash. ACS omega, 3(3), 2618–2627.
- 19. Dungani R., Karina M.S., Sulaeman A., Hermawan D., Hadiyane A. 2015. Agricultural Waste Fibers Towards Sustainability and Advanced Utilization: A Review. Asian Journal of Plant Sciences, 15(1–2), 42–55. https://doi.org/10.3923/ajps.2016.42.55
- 20. Cao, D., Shi, F., Koike, T., Lu, Z., Sun, J. 2014. Halophyte plant communities affecting enzyme activity and microbes in saline soils of the Yellow River Delta in China. CLEAN–Soil, Air, Water, 42(10), 1433–1440.
- 21. Silvani, L., Vrchotova, B., Kastanek, P., Demnerova, K., Pettiti, I., Papini, M.P. 2017. Characterizing biochar as alternative sorbent for oil spill remediation. Scientific Reports, 7(1), 1–10.
- 22. Hajeeth, T., Sudha, P.N., Vijayalakshmi, K. 2015. Removal of Cr (VI) from aqueous solution using graft copolymer of cellulose extracted from sisal fibre with acrylic acid monomer. Cellul. Chem. Technol, 49(9–10), 891–900.
- 23. Nuriyah, S.R.A., Muafiqie, H. 2017. Analisis Pengaruh Produk Domestik Regional Bruto Dan Kemiskinan Terhadap Indeks Pembangunan Manusia Kabupaten Bojonegoro. Journal of Public Power, 1(2), 97–109.
- 24. Jaman, H., Chakraborty, D., Saha, P. 2009. A study of the thermodynamics and kinetics of copper adsorption using chemically modified rice husk. CLEAN–Soil, Air, Water, 37(9), 704–711.
- 25. Dawodu, F.A., Abonyi, C.J., Akpomie, K.G. 2021. Feldspar-banana peel composite adsorbent for efficient crude oil removal from solution. Applied Water Science, 11(1), 1–10.
- 26. Malekmohammadi, S., Mirbagheri, A. and Ehteshami, M. 2016. Comparison of silica, activated carbon, and zeolite adsorbents in the removal of ammonium, iron, COD, turbidity and phosphate pollutants, and investigating the effect of discharge on the removal of pollutants. International Journal of Humanities and Cultural Studies.
- 27. Jyoti, A., Singh, R.K., Kumar, N., Aman, A.K., Kar, M. 2021. Synthesis and properties of amorphous nanosilica from rice husk and its composites. Materials Science and Engineering: B, 263, 114871.
- 28. Chowdhury, S., Mishra, R., Saha, P., Kushwaha, P. 2011. Adsorption thermodynamics, kinetics and isosteric heat of adsorption of malachite green onto chemically modified rice husk. Desalination, 265(1–3), 159–168.
- 29. Dizbay-Onat, M., Vaidya, U.K., Lungu, C.T. 2017. Preparation of industrial sisal fiber waste derived activated carbon by chemical activation and effects of carbonization parameters on surface characteristics. Industrial crops and products, 95, 583–590.
- 30. Lin‐Liu, Y.R., Chan, V.S., Chiu, S.C. 1996, February. Plasma rotation in the presence of radio frequency fields. In AIP Conference Proceedings. American Institute of Physics, 355(1), 247–250.
- 31. Horsfall Jnr, M., Spiff, A.I. 2005. Effects of temperature on the sorption of Pb2+ and Cd2+ from aqueous solution by Caladium bicolor (Wild Cocoyam) biomass. Electronic Journal of Biotechnology, 8(2), 43–50.
- 32. Zhang, M., Wang, S., Wang, C. and Li, J. 2012. A facile method to fabricate superhydrophobic cotton fabrics. Applied Surface Science, 261, 561–566.
- 33. Sanchez, D.N., Knapp, C.W., Olalekan, R.M., Nanalok, N.H. 2021. Oil Spills in the Niger Delta Region, Nigeria: Environmental Fate of Toxic Volatile Organics.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-124bf4fd-029f-40a3-9c2a-a93579057326