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Optimization of Removal of Calcium Ions Forming During Synthesis of Boric Acid from Ulexite Ore by Using Ion Exchange Resin

Yıl 2018, , 109 - 117, 05.07.2018
https://doi.org/10.30728/boron.325756

Öz

Ulexite (Na2O·2CaO·5B2O3·16H2O) is one of the most important raw materials for boric acid,
synthesized by dissolving the ore in an acid solution. Since ulexite ore was
dissolved in a phosphoric acid solution, the
final solution included boric acid (H3BO3), sodium
dihydrogen phosphate [NaH2PO4],
and
calcium
dihydrogen phosphate [Ca(H2PO4)2].
The presence of several ions in the solution causes separation
problems for boric acid. This
study includes a special separation step to increase the purity of the
boric
acid that is synthesized
from the dissolution of ulexite ore in phosphoric acid.
For this
purpose, calcium ions in the
final solution were removed using Dowex HCR-S cationic ion exchange resin. Additionally, the Taguchi
optimization method was employed to monitor the removal of calcium ions
.
The design of
experiments
included an orthogonal array
technique in L9 array for three parameters with three different
values; reaction temperature (12 oC, 25 oC, 40 oC),
stirring rate (250 rpm, 300 rpm, 350 rpm), and the amount of resin material
(10% wt., 30% wt., 50% wt.). The results of the calculations revealed that the
optimum values of temperature, stirring rate, and amount of resin are 12 oC,
350 rpm, and 50% wt., respectively. The amount of calcium removed under optimum
conditions was found as 79.49%.

Kaynakça

  • [1] İçelli O, Erzeneoğlu S, Boncukcuoğlu R. “Measurement of X-ray transmission factors of some boron compounds”. Radiation Measurements, 37, 613-616, 2003. [2] Künkül A, Yapici S, Kocakerim MM, Copur M. “Dissolution kinetics of ulexite in ammonia solutions saturated with CO2”. Hydrometallurgy, 44, 135-145, 1997. [3] Imamutdinova VM. “Rates of dissolution of native borates in H3PO4 solutions”. Journal of applied chemistry of the USSR, 40, 2596-2598, 1967. [4] Temur H, Yartaşı A, Çopur M, Kocakerim MM. “The kinetics of dissolution of colemanite in H3PO4 solutions”. Industrial and Engineering Chemistry Research, 39, 4114-4119, 2000. [5] Küçük Ö, Kocakerim MM, Yartaşı A, Çopur M. “Dissolution of kestelek’s colemanite containing clay minerals in water saturated with sulphur dioxide”. Ind. Eng. Chem. Res., 41, 2853-2857, 2002. [6] Doğan HT, Yartaşı A. “Kinetic investigation of reaction between ulexite ore and phosphoric acid”. Hydrometallurgy, 96, 294-299, 2009. [7] Kizilca M, Copur M. “Kinetic investigation of reaction between colemanite ore and methanol”. Chemical Engineering Communications, 202, 1528-1534, 2015. [8] Küçük Ö. “Application of Taguchi method in the optimization of dissolution of ulexite in NH4Cl solutions”. Korean J. Chem. Eng., 23, 21-27, 2006. [9] Ekinci Z, Şayan E, Beşe AV, Ata ON. “Optimization and modeling of boric acid extraction from colemanite in water saturated with carbon dioxide and sulphur dioxide gases”. Int. J. Miner. Process., 82, 187-194, 2007. [10] Doğan TH, Yartaşı A. “Optimization of dissolution of ulexite in phosphate acid solutions”. J.Chem.Soc.Pak., 36, 601-605, 2014. [11] Taguchi G. “Introduction to quality engineering”. New York: Mc Graw-Hill, 1990. [12] Çopur M. “An optimization study of dissolution of Zn and Cu in ZnS concentrate with HNO3 solutions”. Chem. Biochem. Eng., 15, 191-197, 2002. [13] Phadke MS. “Quality engineering using robust design”. Prentice Hall: New Jersey, 61-292, 1989. [14] Roy RK. “A Primer on the Taguchi Method; Competitive Manufacturing Series”. 1990. [15] Wu Y, Wu A. “Taguchi methods for robust design”. The Park Avenue, New York: The American Society of Mechanical Engineers, 2000. [16] Scott WW. “Standard Methods of Chemical Analysis”. Van Nostrand: New York, 1963.
Yıl 2018, , 109 - 117, 05.07.2018
https://doi.org/10.30728/boron.325756

Öz

Kaynakça

  • [1] İçelli O, Erzeneoğlu S, Boncukcuoğlu R. “Measurement of X-ray transmission factors of some boron compounds”. Radiation Measurements, 37, 613-616, 2003. [2] Künkül A, Yapici S, Kocakerim MM, Copur M. “Dissolution kinetics of ulexite in ammonia solutions saturated with CO2”. Hydrometallurgy, 44, 135-145, 1997. [3] Imamutdinova VM. “Rates of dissolution of native borates in H3PO4 solutions”. Journal of applied chemistry of the USSR, 40, 2596-2598, 1967. [4] Temur H, Yartaşı A, Çopur M, Kocakerim MM. “The kinetics of dissolution of colemanite in H3PO4 solutions”. Industrial and Engineering Chemistry Research, 39, 4114-4119, 2000. [5] Küçük Ö, Kocakerim MM, Yartaşı A, Çopur M. “Dissolution of kestelek’s colemanite containing clay minerals in water saturated with sulphur dioxide”. Ind. Eng. Chem. Res., 41, 2853-2857, 2002. [6] Doğan HT, Yartaşı A. “Kinetic investigation of reaction between ulexite ore and phosphoric acid”. Hydrometallurgy, 96, 294-299, 2009. [7] Kizilca M, Copur M. “Kinetic investigation of reaction between colemanite ore and methanol”. Chemical Engineering Communications, 202, 1528-1534, 2015. [8] Küçük Ö. “Application of Taguchi method in the optimization of dissolution of ulexite in NH4Cl solutions”. Korean J. Chem. Eng., 23, 21-27, 2006. [9] Ekinci Z, Şayan E, Beşe AV, Ata ON. “Optimization and modeling of boric acid extraction from colemanite in water saturated with carbon dioxide and sulphur dioxide gases”. Int. J. Miner. Process., 82, 187-194, 2007. [10] Doğan TH, Yartaşı A. “Optimization of dissolution of ulexite in phosphate acid solutions”. J.Chem.Soc.Pak., 36, 601-605, 2014. [11] Taguchi G. “Introduction to quality engineering”. New York: Mc Graw-Hill, 1990. [12] Çopur M. “An optimization study of dissolution of Zn and Cu in ZnS concentrate with HNO3 solutions”. Chem. Biochem. Eng., 15, 191-197, 2002. [13] Phadke MS. “Quality engineering using robust design”. Prentice Hall: New Jersey, 61-292, 1989. [14] Roy RK. “A Primer on the Taguchi Method; Competitive Manufacturing Series”. 1990. [15] Wu Y, Wu A. “Taguchi methods for robust design”. The Park Avenue, New York: The American Society of Mechanical Engineers, 2000. [16] Scott WW. “Standard Methods of Chemical Analysis”. Van Nostrand: New York, 1963.
Toplam 1 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Research Makaleler
Yazarlar

Tuba Hatice Doğan

Ahmet Yartaşı Bu kişi benim

Yayımlanma Tarihi 5 Temmuz 2018
Kabul Tarihi 16 Mayıs 2018
Yayımlandığı Sayı Yıl 2018

Kaynak Göster

APA Doğan, T. H., & Yartaşı, A. (2018). Optimization of Removal of Calcium Ions Forming During Synthesis of Boric Acid from Ulexite Ore by Using Ion Exchange Resin. Journal of Boron, 3(2), 109-117. https://doi.org/10.30728/boron.325756