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2022 | Vol. 29 | 221--232
Tytuł artykułu

Critical coalescence concentration (CCC) of various surfactants used as flotation reagents in mineral

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Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The role of flotation frothing agents in the flotation process is generally known, especially due to the size of bubbles and the stability of the foam formed. In recent years, a number of new reagents have been introduced. The purpose of this article is to present a comprehensive database containing the characteristics of surfactant families discussed using the parameter of the so called the Critical Coalescence Concentration (CCC). This article presents an analysis of the experimental data set by the author and the experimental data published in the literature.
Wydawca

Czasopismo
Rocznik
Tom
Strony
221--232
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
  • Department of Geoengineering, Mining and Geology, Wroclaw University of Science and Technology (WUST), Poland, danuta.szyszka@pwr.edu.pl
Bibliografia
  • ATRAFI A., GOMEZ C.O., FINCH J. A. and PAWLIK M., 2012, Frothing behavior of aqueous solutions of oleic acid, Minerals Engineering, 36–38, 138–144.
  • CHO Y.S. and LASKOWSKI J.S., 2002a, Effect of flotation Frothers on bubble size and foam stability, Int. J. Miner. Process, 64, 69–80.
  • CHO Y.S. and LASKOWSKI J.S., 2002b, Bubble coalescence and its effect on bubble size and foam stability, Canadian J. Chem. Eng., 80, pp. 299–305.
  • DRZYMALA J., 2007, Mineral Processing. Foundations of theory and practice of minerallurgy, 1st ed. Oficyna Wydawnicza Politechniki Wrocławskiej, Wroclaw, Poland, 2007.
  • DRZYMALA J. and KOWALCZUK P.B., 2018, Classification of Flotation Frothers, Minerals, 8 (2), 53.
  • DRZYMAŁA J., 2017, Universal equations for Pythagorean and Sauter-type formulas of mean value calculation and classification of the extended Pythagorean means, Mining Science, 24, 27–235.
  • DUCHNOWSKA M., ŁUSZCZKIEWICZ A., DRZYMAŁA J., KONOPACKA Ż., KOWALCZUK P., BAKALARZ A., FOSZCZ D., SZYSZKA D., KARWOWSKI P., 2014, Development of organic carbon separation technology at the stage of initial flotation (Opracowanie technologii wydzielenia węgla organicznego na etapie flotacji wstępnej), Raport Nr I-11/2014/S-21, Instytut Gornictwa Politechniki Wroclawskiej, Wroclaw, November (in Polish).
  • FINCH J.A, NESSET J., and ACUNA C., 2008, Role of frother on bubble production and behavior in flotation, Miner. Eng., 21, 949–957.
  • FINCH J. and ZHANG W., 2014, Frother function-structure relationship: Dependence of CCC95 on HLB and H-ratio, Miner. Eng., 61, 1–8.
  • GRAU R.A. and LASKOWSKI J.S., 2006, Role of Frothers in bubble generation and coalescence in mechanical flotation cell, Can J. Chem. Eng., 84, 170–182.
  • GUPTA A.K., BANERJEE P.K., MISHRA A., SATISH P. and PRADIP, 2007, Effect of alcohol and ether Polyglycol Frothers on foam stability, bubble size and coal flotation, Int. J. Miner. Process., 82, 126–137.
  • KOWALCZUK P.B., 2013, Determination of Critical Coalescence Concentration and Bubble Size for Surfactants Used as Flotation Frothers, Ind. Eng. Chem. Res., 52 (33), 11752–11757.
  • KRACHT W. and FINCH J.A., 2009, Using sound to study bubble coalescence, Journal of Colloid and Interface Science, 332, 237–245.
  • LASKOWSKI J.S., 2003, Fundamental properties of flotation frothers, [in:] L. Lorenzen, D.J. Bradshaw (Eds.), 22nd Int. Mineral Processing Congress, Cape Town, 2, 788–797.
  • LASKOWSKI J.S., 2004, Frothers flotation testing, Physicochemical Problems of Mineral Processing, 38, 13–22.
  • LASKOWSKI J.S., TLHONE T., WILLIAMS P., and DING K., 2003, Fundamental properties of the polyoxypropylene alkyl ether flotation frothers, Int. J. Miner. Process., 72, pp. 289–299.
  • MELO F., LASKOWSKI J.S., 2006, Fundamental Properties of Flotation Frothers and their effect on flotation, Minerals Engineering, 19, 766–773.
  • PACEK A.W., MAN C.C., and NIENOW A.W., 1998, On the Sauter mean diameter and size distributions in turbulent liquid/liquid dispersions in a stirred vessel, Chemical Engineering Science, 53 (11), 2005–2011.
  • SZYSZKA D., 2018, Critical Coalescence Concentration (CCC) for surfactants in aquerous solutions, Minerals, 8 (10), 431.
  • SZYSZKA D., 2013, Critical Coalescence Concetration (CCC) as a parameter for evaluation of selected quaternary ammonium compounds, Mining Science, 20, 101–113.
  • SZYSZKA D., 2016, Critical concentration coalescence of potential frothers for copper-shale flotation (Krytyczne stężenie koalescencji potencjalnych spieniaczy do flotacji łupka miedzionośnego), [in:] Lupek Miedzionosny II, P.B. Kowalczuk, J. Drzymala (Eds.), WGGG PWr, Wroclaw, Poland, pp. 222–227 (in Polish).
  • SZYSZKA D., DRZYMAŁA J., ŁUCZYŃSKI J., WILK K.A., and PATKOWSKI J., 2006, Concentration of α-Terpineol and (2-Dodecanoyloxyethyl)trimethyl Ammonium Bromide Required for Prevention of Air Buble Coalescence in Aqueous Solutions, Physicochem. Probl. Mineral Proc., 40, pp. 53–59.
  • SZYSZKA D., DRZYMAŁA J., RESIAK P., MIELCZARSKI E., and Mielczarski J., 2008b, Entrainment of quartz in flotation tests with Frothers, Proceedings of the XXIV International Mineral Processing Congress, Beijing, China, 1068–1073.
  • SZYSZKA D., GLAPIAK E., DRZYMAŁA J., 2008a, Entrainment-flotation activity of quartz in the presence of selected Frothers, Physicochem. Probl. Mineral Proc., 42, 85–90.
  • TAN X.L., ZHANG L., AN J.Y., ZHAO S., and YU J.Y., 2004, J. Surfactants Deterg., 7, 135.
  • TUCKER J.P., DEGLON D.A., FRANZIDIS J.P, HARRIS M.C., and O’COONOR C.T., 1994, An evaluation of the direct method of bubble size distribution measurments in laboratory batch flotation goal, Minerals Eng., 7, 667.
  • ZHANG W., NESSET J.E, RAO R., and FINCH J.A., 2012, Characterizing Frothers through Coalescence Critical Concentration (CCC) 95-hydrophila-Lipophile Balance (HLB) Relationship, Minerals, 2 (3), pp. 208–227.
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Bibliografia
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