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2015 | Vol. 51, iss. 2 | 375--385
Tytuł artykułu

Optimization of pure borax pentahydrate extraction from calcined tincal

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this study, conditions for the calcination process of tincal were investigated and the optimum calcination conditions for boron extraction from tincal were determined. The experimental parameters were dissolution temperature, solid-to-liquid ratio, dissolution time and stirring speed. The optimum dissolution parameter levels were determined to be temperature 80 °C, solid-to-liquid ratio 10 g/dm3, stirring speed 250 rpm and dissolution time 5 min.
Słowa kluczowe
Wydawca

Rocznik
Strony
375--385
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
  • Celal Bayar University, Science and Arts Faculty, Chemistry Department, 45030 Muradiye, Manisa
autor
autor
  • Celal Bayar University, Science and Arts Faculty, Chemistry Department, 45030 Muradiye, Manisa
Bibliografia
  • ABALI, Y., BAYCA, S.U., MISTINCIK, E., 2006. Kinetics of oxalic acid leaching of tincal. Chemical Engineering Journal, 123, 25–30.
  • ABALI, Y., BAYCA, S.U., ARISOY, K., VAIZOGULLAR, A.I., 2011. Optimization of Dolomite Ore Leaching in Hydrochloric Acid Solutions. Physicochemical Problems of Mineral Processing, 46, 253-262.
  • ABALI, Y., BAYCA, S.U., GULER, A.E., 2007. The dissolution kinetics of tincal in phosphoric acid solutions, International Journal of Chemical Reactor Engineering, 5, 1–10.
  • ALP, I., DEVECI, H., OZDAG, H., 2004. Processing Tincal Ores using Ultrasonic Waves, 2. International Boron Symposium, 23-25 September 2004 Eskisehir Turkey, pp: 59-64. ATA, O.N., COLAK, S. COPUR, M., and CELIK, C., 2000. Determination of the Optimum Conditions for Boric Acid Extraction with Carbon Dioxide Gas in Aqueous Media from Colemanite Containing Arsenic, Ind. Eng. Chem. Res., 39, pp 488–493
  • BEHNAJADY, B., MOGHADDAM, J., BEHNAJADY, M.A., RASHCHI, F., 2012. Determination of the Optimum Conditions for the Leaching of Lead from Zinc Plant Residues in NaCl–H2SO4–Ca(OH)2 Media by the Taguchi Method. Ind. Eng. Chem. Res., 51, 3887–3894.
  • BESE, A.V., BORULU, N., COPUR, M., COLAK, S., ATA, O.N., 2010. Optimization of dissolution of metals from Waelz sintering waste (WSW) by hydrochloric acid solutions, Chemical Engineering Journal 162 () 718–722
  • COPUR, M., OZMETIN, C., OZMETIN, E., KOCAKERIM, M.M., 2004. Optimization study of the leaching of roasted zinc sulphide concentrate with sulphuric acid solutions. Chemical Engineering and Processing: Process Intensification, 43, 1007–1014.
  • EKINCI, Z., SAYAN, E., 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 mineral processing 82, 187 – 194.
  • ETIMADEN, (2013). http://www.etimaden.gov.tr.
  • GERHARTZ, W., 1985. Ullmann’s Encyclopedia of Industrial Chemistry, vol. A4, Germany.
  • KELES, O., 2009. An optimization study on the cementation of silver with copper in nitrate solutions, by Taguchi design, Hydrometallurgy 95, 333–336. KOKLU, M., OZYETIS, O., MARASLIOGLU, D., YAVUKLU, E., CELEN, B., TUFAN, T., GUNDUZ, M., 2003. Developments in analyzes of calcium borate (in Turkish), 18 International Mining Congress and Exhibition of Turkey, 10 – 13 June, Antalya. 141 – 146.
  • KUCUK, O., 2006. Application of Taguchi method in the optimization of dissolution of ulexite in NH4Cl solutions, Korean J. Chem. Eng., 23, 21 – 27.
  • KOTZ, J.C., TREICHEL, P.M., WEAVER, G.C., 2006. Chemistry and Chemical Reactivity, Thomson Learning, Canada.
  • PHADKE, M.S., 1989. Quality Engineering Using Robust Design. Prentice Hall: New Jersey. 61–292.
  • PIGNATIELLO, J.J., 1988. An overview of strategy and tactics of Taguchi. I.I.E. Transactions. 20, 247 – 254.
  • SMITH, R.A., MCBROOM, R.B., 1992. Encyclopedia of Chemical Technology, vol. 4, John Wiley, Canada.
  • YESILYURT, M., 2004. Determination of the optimum conditions for the boric acid extraction from colemanite ore in HNO3 solutions, Chemical Engineering and Processing, 43, 1189–1194.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-d9c19ef0-408f-418d-b3fc-a4541024808e
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