Contact angle and bubble attachment studies in the flotation of trona and other soluble carbonate salts

O. Ozdemir*, C. Karaguzel, A. V. Nguyen, M. S. Celik, J. D. Miller

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

44 Citations (Scopus)

Abstract

Trona, Na2CO3 · NaHCO3 · 2H2O, is mined as the primary source for sodium carbonate production in the United States. Recent studies have shown that the flotation method can be used for pre-processing of trona ore to remove insoluble mineral contaminants for the production of soda ash (sodium carbonate). Studies with carbonate salts suggest that certain important factors can affect their flotation response, including viscosity of the brine and interfacial water structure. Flotation studies showed that contrary to the strong flotation of NaHCO3 with both anionic and cationic collectors, Na2CO3 does not float at all. Based on the analysis of interfacial water structure in saturated brines, Na2CO3 was found to act as a strong water structure maker, whereas NaHCO3 acts as a weak water structure maker. Bubble attachment time measurements suggest that collector adsorption at the surface of NaHCO3 induces flotation; this is not the case for Na2CO3. Contact angle measurements indicated that the surface of Na2CO3 is hydrated to a great extent, whereas the NaHCO3 salt surface is less hydrated. These results reveal that there is a strong relationship between the interfacial water structure and the contact angle of these salts. The less stable NaHCO3 surface is ascribed to the interfacial water structure which allows for NaHCO3 flotation with both anionic and cationic collectors.

Original languageEnglish
Pages (from-to)168-175
Number of pages8
JournalMinerals Engineering
Volume22
Issue number2
DOIs
Publication statusPublished - Jan 2009

Funding

The financial support provided by the Department of Energy, Basic Science Division Grant No. DE-FG-03-93ER14315 is gratefully acknowledged. In addition, this collaborative research was supported by NSF under Grant No. INT-0207583 and TUBITAK under Grant No. MISAG-NSF-3. The authors also acknowledge the Australian Research Council for financial support.

FundersFunder number
Basic Science Division
TUBITAK
National Science FoundationINT-0207583
U.S. Department of Energy
Australian Research Council

    Keywords

    • Bubble attachment time
    • Froth flotation
    • Industrial minerals
    • Thin-layer wicking method
    • Trona

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