AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD

Meltem Kizilca; Mehmet Copur

doi:10.17261/Pressacademia.2017.590

Research Article

AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD

Year 2017, Volume: 5 Issue: 1, 198 - 204, 30.06.2017

Meltem Kizilca Mehmet Copur

https://doi.org/10.17261/Pressacademia.2017.590

Abstract

The process
of optimizing the dissolution of colemanite ore (2CaO.3B₂O₃.5H₂O)
in methyl alcohol by CO₂ in a high-pressure reactor was evaluated by
using the Taguchi method. Optimum conditions for the cholemanite mineral were
determined to be as follows: reaction temperature: 140°C, reaction time: 50
min, calcination time: 240 min, calcination temperature: 450 ^oC,
solid-liquid ratio: 1/6 g.mL^-1, mixing rate: 500 cycle/min,
pressure: 20 bar, grain size: -100 mesh and the amount of CaCl₂: 7.5
g.

Keywords

Colemanite, optimization, taguchi method

References

Alkan, M., Dogan, M., 2004, “Dissolution kinetics of colemanite in oxalic acid solutions”, Chemical Engineering and Processing, vol.43, 867– 872.
Bayca, S.U. 2013,”Microwave radiation leaching of colemanite in sulfuric acid solutions”, Separation and Purification Technology, vol.105, 24–32.
Bayca, S.U., Kocan, F, Abalı Y.2013, “Dissolution of colemanite process waste in oxalic acid solutions”, Environmental Progress & Sustainable Energy, vol. 33, no.4, 1111-1116
Bulutcu, A.N., Ertekin C.O., Kuskay Celikoyan, M.B.,2008. Impurity control in the production of boric acid from colemanite in the presence of propionic acid. Chemical Engineering and Processing: Process Intensification, 47 (12), 2270–2274.
Copur, M., Temur, H., Yartası, A., Kocakerim, M.M. 2000, “The Kinetics of Dissolution of Colemanite in H3PO4 Solutions”, Industrial & Engineering Chemistry Research, vol.39, 4114-4119.
Çiftçi, H. 2012, “Modelling and kinetic analysis of boric acid extraction from ulexite in citric acid solution”, Canadian Metallurgical Quarterly: The Canadian Journal of Metallurgy and Materials Science, vol.51, no 1, 1-10.
Çopur, M., Kızılca, M.2015, “Determination of the Optimum Conditions for Copper Leaching from Chalcopyrite Concentrate Ore Using Taguchi Method”, Chemical Engineering Communications, vol.202, no.7, 927-935.
Demirbaş, A., Yüksek, H., Çakmak, İ., Küçük, M.M., Cengiz, M., Alkan, M. 2000, “Recovery of boric acid from boronic wastes by leaching with water, carbon dioxide- or sulfur dioxide-saturated water and leaching kinetics. Resources”, Conservation and Recycling, vol.28, no.1-2, 135146.
Doğan, H., Yartaşı, A.2014” Optimization of Dissolution of Ulexite in Phosphate Acid Solutions”, Journal- Chemical Society of Pakistan,vol. 36, no.4, 601-605.
Kocakerim, M.M., Alkan, M. 1988, “issolution of ulexite in SO2-saturated water”. Hydrometallurgy, vol.19,385.
Kocakerim, M.M., Tunç, M., Küçük Ö., Aluz, M. 2007, “Dissolution of colemanite in (NH4)2SO4 solutions”, Korean Journal of Chemical Engineering., vol.24, 55-5.
Phadke, M. S., 1989, “Quality Engineering using Robust Design,Prentice Hall: New Jersey, 61–292.
Pignatiello, J. J. 1988, IEE Transactions, vol. 20, 247.
Roy, R.K. 1990,”A Primer on the Taguchi method, Van Nostrand Reinhold Company”, New York, USA,.
Sayan, E., Ekinci Z., Bese, A.V., Ata O.N., 2007, “Optimization and modeling of boric acid extraction from colemanite in water saturated with carbon dioxide and sulphur dioxide gases”
International Journal of Mineral Processing, vol.82, no.4,187–194.
Sis, H., Bentli, İ. Ekmekyapar, A., Demirkıran, N.2015. Dissolution Kinetics And Variation Of Particle Size Of Kırka (Turkey) Ulexite in HCl Solutions. Journal of Ore Dressing. 17 (33), 27-37.
Tekin, G., Onganer, Y., Alkan, M. 2013, “Dissolution Kinetics of Ulexite in Ammonium Chloride Solution” Canadian Metallurgical Quarterly: The Canadian Journal of Metallurgy and Materials Sciences. Vol. 37, no.2, 91-97.
Uysal, B. Z., Demirel, H. S., İnce T. E., Uysal, D. 2015, “Boric Acid Production From Sodium Metaborate With Sulfuric Acid”. CBÜ Fen Bil. Dergi., vol.11, no.3, 379-382.

Year 2017, Volume: 5 Issue: 1, 198 - 204, 30.06.2017

Meltem Kizilca Mehmet Copur

https://doi.org/10.17261/Pressacademia.2017.590

Abstract

References

Alkan, M., Dogan, M., 2004, “Dissolution kinetics of colemanite in oxalic acid solutions”, Chemical Engineering and Processing, vol.43, 867– 872.
Bayca, S.U. 2013,”Microwave radiation leaching of colemanite in sulfuric acid solutions”, Separation and Purification Technology, vol.105, 24–32.
Bayca, S.U., Kocan, F, Abalı Y.2013, “Dissolution of colemanite process waste in oxalic acid solutions”, Environmental Progress & Sustainable Energy, vol. 33, no.4, 1111-1116
Bulutcu, A.N., Ertekin C.O., Kuskay Celikoyan, M.B.,2008. Impurity control in the production of boric acid from colemanite in the presence of propionic acid. Chemical Engineering and Processing: Process Intensification, 47 (12), 2270–2274.
Copur, M., Temur, H., Yartası, A., Kocakerim, M.M. 2000, “The Kinetics of Dissolution of Colemanite in H3PO4 Solutions”, Industrial & Engineering Chemistry Research, vol.39, 4114-4119.
Çiftçi, H. 2012, “Modelling and kinetic analysis of boric acid extraction from ulexite in citric acid solution”, Canadian Metallurgical Quarterly: The Canadian Journal of Metallurgy and Materials Science, vol.51, no 1, 1-10.
Çopur, M., Kızılca, M.2015, “Determination of the Optimum Conditions for Copper Leaching from Chalcopyrite Concentrate Ore Using Taguchi Method”, Chemical Engineering Communications, vol.202, no.7, 927-935.
Demirbaş, A., Yüksek, H., Çakmak, İ., Küçük, M.M., Cengiz, M., Alkan, M. 2000, “Recovery of boric acid from boronic wastes by leaching with water, carbon dioxide- or sulfur dioxide-saturated water and leaching kinetics. Resources”, Conservation and Recycling, vol.28, no.1-2, 135146.
Doğan, H., Yartaşı, A.2014” Optimization of Dissolution of Ulexite in Phosphate Acid Solutions”, Journal- Chemical Society of Pakistan,vol. 36, no.4, 601-605.
Kocakerim, M.M., Alkan, M. 1988, “issolution of ulexite in SO2-saturated water”. Hydrometallurgy, vol.19,385.
Kocakerim, M.M., Tunç, M., Küçük Ö., Aluz, M. 2007, “Dissolution of colemanite in (NH4)2SO4 solutions”, Korean Journal of Chemical Engineering., vol.24, 55-5.
Phadke, M. S., 1989, “Quality Engineering using Robust Design,Prentice Hall: New Jersey, 61–292.
Pignatiello, J. J. 1988, IEE Transactions, vol. 20, 247.
Roy, R.K. 1990,”A Primer on the Taguchi method, Van Nostrand Reinhold Company”, New York, USA,.
Sayan, E., Ekinci Z., Bese, A.V., Ata O.N., 2007, “Optimization and modeling of boric acid extraction from colemanite in water saturated with carbon dioxide and sulphur dioxide gases”
International Journal of Mineral Processing, vol.82, no.4,187–194.
Sis, H., Bentli, İ. Ekmekyapar, A., Demirkıran, N.2015. Dissolution Kinetics And Variation Of Particle Size Of Kırka (Turkey) Ulexite in HCl Solutions. Journal of Ore Dressing. 17 (33), 27-37.
Tekin, G., Onganer, Y., Alkan, M. 2013, “Dissolution Kinetics of Ulexite in Ammonium Chloride Solution” Canadian Metallurgical Quarterly: The Canadian Journal of Metallurgy and Materials Sciences. Vol. 37, no.2, 91-97.
Uysal, B. Z., Demirel, H. S., İnce T. E., Uysal, D. 2015, “Boric Acid Production From Sodium Metaborate With Sulfuric Acid”. CBÜ Fen Bil. Dergi., vol.11, no.3, 379-382.

There are 19 citations in total.

Details

Journal Section	Articles
Authors	Meltem Kizilca Mehmet Copur This is me
Publication Date	June 30, 2017
Published in Issue	Year 2017 Volume: 5 Issue: 1

Cite

APA	Kizilca, M., & Copur, M. (2017). AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD. PressAcademia Procedia, 5(1), 198-204. https://doi.org/10.17261/Pressacademia.2017.590
AMA	Kizilca M, Copur M. AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD. PAP. June 2017;5(1):198-204. doi:10.17261/Pressacademia.2017.590
Chicago	Kizilca, Meltem, and Mehmet Copur. “AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD”. PressAcademia Procedia 5, no. 1 (June 2017): 198-204. https://doi.org/10.17261/Pressacademia.2017.590.
EndNote	Kizilca M, Copur M (June 1, 2017) AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD. PressAcademia Procedia 5 1 198–204.
IEEE	M. Kizilca and M. Copur, “AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD”, PAP, vol. 5, no. 1, pp. 198–204, 2017, doi: 10.17261/Pressacademia.2017.590.
ISNAD	Kizilca, Meltem - Copur, Mehmet. “AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD”. PressAcademia Procedia 5/1 (June 2017), 198-204. https://doi.org/10.17261/Pressacademia.2017.590.
JAMA	Kizilca M, Copur M. AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD. PAP. 2017;5:198–204.
MLA	Kizilca, Meltem and Mehmet Copur. “AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD”. PressAcademia Procedia, vol. 5, no. 1, 2017, pp. 198-04, doi:10.17261/Pressacademia.2017.590.
Vancouver	Kizilca M, Copur M. AN OPTIMIZATION STUDY ON DISSOLUTION OF THE CALCINED COLEMANITE MINERAL IN METHYL ALCOHOL BY CO2 IN AN AUTOCLAVE SYSTEM USING TAGUCHI METHOD. PAP. 2017;5(1):198-204.

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