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SYNTHESIS OF ALUMINA FROM KAOLIN FOUND IN AJEBO, OGUN STATE, NIGERIA

Year 2024, Volume: 25 Issue: 1, 115 - 122, 28.03.2024
https://doi.org/10.18038/estubtda.1375497

Abstract

This study proposes the utilization of kaolin as an alternate resource for alumina production due to the decreasing availability of bauxite ores in Nigeria. This project covers the procedures and operations required to produce a high surface area γ-alumina using kaolin, a refractory material. The kaolin used in this study was sourced from Ajebo in Ogun State, Nigeria. The mineral processing of kaolin was the initial step involving removing inherent impurities from the clay. Subsequently, calcination was performed to eliminate crystallised water and impurities and activate the kaolin's limited alumina content. This activation process facilitated the subsequent acid-leaching reactions. At 90oC, 5M HCl acid was used to leach meta-kaolin, which was then filtered. The filtrate was mixed with 5M NaOH at 900oC and was transformed into sodium aluminate. This reaction also facilitated the removal of magnesium and iron hydroxides. Subsequently, HCl was introduced to adjust the pH of the solution. The resulting aluminium hydroxide was then calcinated at temperatures of 700oC and 900oC for 2 hours each to produce γ-alumina. Ultimately, the calcined material was cooled to ambient temperature inside the furnace. The produced γ-alumina was further characterised using X-ray Fluorescence (XRF), Fourier Transform Infrared spectrometer (FTIR), and Scanning Electron Microscopy (SEM).

References

  • [1] Kianinia Y, Darban AK, Taheri-Nassaj E, Rahnama B, Fotoutan A. Synthesis of nano-size mesoporous γ–Al2O3 powder from domestic Hamedan kaolin. Iranian Journal of Materials Science & Engineering 2015;12(1).
  • [2] Aderemi BO, Ajayi OA. Sourcing Aluminium from Kaolin Clay for Metallurgical Industry. In Proceedings of Nigerian Materials Congress 2009; 104-107.
  • [3] Rahayu ES, Subiyanto G, Imanuddin A, Nadina S, Ristiani R, Yuniarti E. Kaolin as a source of silica and alumina for synthesis of zeolite y and amorphous silica alumina. InMATEC Web of conferences 2018 (Vol. 156, p. 05002). EDP Sciences.
  • [4] Bagherzadeh Y, Golmakani MH, Karimi EZ. Straight synthesis of α and γ alumina from kaolin by HCl acid leaching. Journal of Mining and Metallurgy, Section B: Metallurgy. 2023(00):17-.
  • [5] Bhattacharyya S, Behera PS. Synthesis and characterization of nano-sized α-alumina powder from kaolin by acid leaching process. Applied Clay Science. 2017;146:286-90.
  • [6] Bawa SG, Ahmed AS, Okonkwo PC. The Study of Thermal Effect on the Surface Properties of Gamma-Alumina Synthesized from Kankara Kaolin. Nigerian Journal of Technology. 2016;35(1):66-70.
  • [7] Paranjpe KY. Alpha, Beta and Gamma Alumina as a catalyst - A Review. The Pharma Innovation Journal. 2017; 6(11): 236-238.
  • [8] Wang Y, Wang J, Shen M, Wang W. Synthesis and properties of thermostable γ-alumina prepared by hydrolysis of phosphide aluminium. Journal of Alloys and Compounds. 2009;467(1-2):405-12. [9] Said S, Mikhail S, Riad M. Recent processes for the production of alumina nano-particles. Materials Science for Energy Technologies. 2020;3:344-63.
  • [10] Ibrahim KM, Moumani MK, Mohammad SK. Extraction of γ-alumina from low-cost kaolin. Resources. 2018;7(4):63.
  • [11] Hosseini SA, Niaei A, Salari D. Production of γ-Al2O3 from kaolin. Open Journal of Physical Chemistry. 2011; 25;1(02):23-7.
  • [12] Kshash JM, Baha'a AS. Preparation of nanogama alumina from Iraqi kaolin. Iraqi Bulletin of Geology and Mining. 2018;14(1):121-30.
  • [13] Bawa SG, Ahmed AS, Okonkwo PC. Synthesis of gamma-alumina from Kankara kaolin as potential zeolite active matrix. Nigerian Journal of Basic and Applied Sciences. 2016;24(2):66-72.
  • [14] Salahudeen N, Ahmed AS, Ala'a H, Dauda M, Waziri SM, Jibril BY. Synthesis of gamma alumina from Kankara kaolin using a novel technique. Applied Clay Science. 2014;105:170-7.
  • [15] Tantawy MA, Alomari AA. Extraction of alumina from Nawan kaolin by acid leaching. Oriental Journal of Chemistry. 2019;35(3):1013.
  • [16] Yang H, Liu M, Ouyang J. Novel synthesis and characterization of nanosized γ-Al2O3 from kaolin. Applied Clay Science. 2010;47(3-4):438-43.
  • [17] Park JH, Kim SW, Lee SH, Kim HS, Park SS, Park HC. Synthesis of Alumina Powders from Kaolin with and without Ultrasounds. Journal of Materials Synthesis and Processing. 2002;10:289-93.
  • [18] Farahmandjou M, Golabiyan N. Synthesis and characterisation of Al2O3 nanoparticles as catalyst prepared by polymer co-precipitation method. Materials Engineering Research. 2019;1(2):40–44.

SYNTHESIS OF ALUMINA FROM KAOLIN FOUND IN AJEBO, OGUN STATE, NIGERIA

Year 2024, Volume: 25 Issue: 1, 115 - 122, 28.03.2024
https://doi.org/10.18038/estubtda.1375497

Abstract

This study proposes the utilization of kaolin as an alternate resource for alumina production due to the decreasing availability of bauxite ores in Nigeria. This project covers the procedures and operations required to produce a high surface area γ-alumina using kaolin, a refractory material. The kaolin used in this study was sourced from Ajebo in Ogun State, Nigeria. The mineral processing of kaolin was the initial step involving removing inherent impurities from the clay. Subsequently, calcination was performed to eliminate crystallised water and impurities and activate the kaolin's limited alumina content. This activation process facilitated the subsequent acid-leaching reactions. At 90oC, 5M HCl acid was used to leach meta-kaolin, which was then filtered. The filtrate was mixed with 5M NaOH at 900oC and was transformed into sodium aluminate. This reaction also facilitated the removal of magnesium and iron hydroxides. Subsequently, HCl was introduced to adjust the pH of the solution. The resulting aluminium hydroxide was then calcinated at temperatures of 700oC and 900oC for 2 hours each to produce γ-alumina. Ultimately, the calcined material was cooled to ambient temperature inside the furnace. The produced γ-alumina was further characterised using X-ray Fluorescence (XRF), Fourier Transform Infrared spectrometer (FTIR), and Scanning Electron Microscopy (SEM).

References

  • [1] Kianinia Y, Darban AK, Taheri-Nassaj E, Rahnama B, Fotoutan A. Synthesis of nano-size mesoporous γ–Al2O3 powder from domestic Hamedan kaolin. Iranian Journal of Materials Science & Engineering 2015;12(1).
  • [2] Aderemi BO, Ajayi OA. Sourcing Aluminium from Kaolin Clay for Metallurgical Industry. In Proceedings of Nigerian Materials Congress 2009; 104-107.
  • [3] Rahayu ES, Subiyanto G, Imanuddin A, Nadina S, Ristiani R, Yuniarti E. Kaolin as a source of silica and alumina for synthesis of zeolite y and amorphous silica alumina. InMATEC Web of conferences 2018 (Vol. 156, p. 05002). EDP Sciences.
  • [4] Bagherzadeh Y, Golmakani MH, Karimi EZ. Straight synthesis of α and γ alumina from kaolin by HCl acid leaching. Journal of Mining and Metallurgy, Section B: Metallurgy. 2023(00):17-.
  • [5] Bhattacharyya S, Behera PS. Synthesis and characterization of nano-sized α-alumina powder from kaolin by acid leaching process. Applied Clay Science. 2017;146:286-90.
  • [6] Bawa SG, Ahmed AS, Okonkwo PC. The Study of Thermal Effect on the Surface Properties of Gamma-Alumina Synthesized from Kankara Kaolin. Nigerian Journal of Technology. 2016;35(1):66-70.
  • [7] Paranjpe KY. Alpha, Beta and Gamma Alumina as a catalyst - A Review. The Pharma Innovation Journal. 2017; 6(11): 236-238.
  • [8] Wang Y, Wang J, Shen M, Wang W. Synthesis and properties of thermostable γ-alumina prepared by hydrolysis of phosphide aluminium. Journal of Alloys and Compounds. 2009;467(1-2):405-12. [9] Said S, Mikhail S, Riad M. Recent processes for the production of alumina nano-particles. Materials Science for Energy Technologies. 2020;3:344-63.
  • [10] Ibrahim KM, Moumani MK, Mohammad SK. Extraction of γ-alumina from low-cost kaolin. Resources. 2018;7(4):63.
  • [11] Hosseini SA, Niaei A, Salari D. Production of γ-Al2O3 from kaolin. Open Journal of Physical Chemistry. 2011; 25;1(02):23-7.
  • [12] Kshash JM, Baha'a AS. Preparation of nanogama alumina from Iraqi kaolin. Iraqi Bulletin of Geology and Mining. 2018;14(1):121-30.
  • [13] Bawa SG, Ahmed AS, Okonkwo PC. Synthesis of gamma-alumina from Kankara kaolin as potential zeolite active matrix. Nigerian Journal of Basic and Applied Sciences. 2016;24(2):66-72.
  • [14] Salahudeen N, Ahmed AS, Ala'a H, Dauda M, Waziri SM, Jibril BY. Synthesis of gamma alumina from Kankara kaolin using a novel technique. Applied Clay Science. 2014;105:170-7.
  • [15] Tantawy MA, Alomari AA. Extraction of alumina from Nawan kaolin by acid leaching. Oriental Journal of Chemistry. 2019;35(3):1013.
  • [16] Yang H, Liu M, Ouyang J. Novel synthesis and characterization of nanosized γ-Al2O3 from kaolin. Applied Clay Science. 2010;47(3-4):438-43.
  • [17] Park JH, Kim SW, Lee SH, Kim HS, Park SS, Park HC. Synthesis of Alumina Powders from Kaolin with and without Ultrasounds. Journal of Materials Synthesis and Processing. 2002;10:289-93.
  • [18] Farahmandjou M, Golabiyan N. Synthesis and characterisation of Al2O3 nanoparticles as catalyst prepared by polymer co-precipitation method. Materials Engineering Research. 2019;1(2):40–44.
There are 17 citations in total.

Details

Primary Language English
Subjects Ceramics in Materials Engineering
Journal Section Articles
Authors

Henry Mgbemere 0000-0003-3887-7628

Chiedozie Oluigbo 0000-0002-8900-2883

Publication Date March 28, 2024
Submission Date October 13, 2023
Acceptance Date January 30, 2024
Published in Issue Year 2024 Volume: 25 Issue: 1

Cite

AMA Mgbemere H, Oluigbo C. SYNTHESIS OF ALUMINA FROM KAOLIN FOUND IN AJEBO, OGUN STATE, NIGERIA. Estuscience - Se. March 2024;25(1):115-122. doi:10.18038/estubtda.1375497