American Journal of Chemical Engineering

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Effect of Frother on Bubble-Particle Collision Probability of Fine Particles

Received: 20 December 2014    Accepted: 23 December 2014    Published: 27 January 2015
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Abstract

The frothers are influence on the ability of bubbles to collect particles from the pulp and carry them to the froth layer. In this study the effect of type and dosage of frothers on bubble-particle collision probability and dispersion of fine particles was investigated. Therefore, collision probability of fine particles was calculated using frothers such as MIBC, Pine Oil, and Poly propylene glycol with concentration of 0, 25, 50 and 75 g/t respectively. According to this study, as the particle size increased the probability of collision increased but with using Poly Propylene Glycol, MIBC and Pine Oil, probability of collision increased, respectively. Under Potential flow conditions, Maximum collision probability was obtained 27.27% with Poly Propylene Glycol dosage of 75 g/t and particle size of 50 µm.

DOI 10.11648/j.ajche.s.2015030202.11
Published in American Journal of Chemical Engineering (Volume 3, Issue 2-2, March 2015)

This article belongs to the Special Issue Flotation Technology

Page(s) 1-5
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Flotation, Frother, Fine particles, Dispersion, Collision

References
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[2] Klimpel, R. and Isherwood, S. (1991) Int J Miner Process, 33: 369–381.
[3] Laskowski, J.S. and Woodburn, E.T. (1998) Frothing in Flotation II, Gordon & Breach, Australia, 2: 1–50.
[4] Zieminski, S., Caron, M. and Blackmore, R. (1967) I&EC Fundam, 62: 233–242.
[5] Gaudin A.M. (1957) Flotation (2nd edition). McGraw-Hill, New York.
[6] Sutherland, K.L. (1948) J. Phys. Chem, 52: 394-425.
[7] Weber, M.E. and Paddock, D. (1983) J Colloid interfaceSci, 94: 328-335.
[8] Yoon, R.H and Luttrell, G.H. (1989) Int J Miner Process, 5: 101-122.
[9] Schubert, H. and Bischofberger, C. (1979) 13th Int Miner Process Cong, Warszawa, 2: 1261-1287.
[10] Chehreh Chelgani, S., Shahbazi, B. and Rezai, B. (2010) Int J of Minerals, Metallurgy and Materials, 17: 526-534.
[11] Shahbazi, B., Rezai, B. and Koleini, S.M. Javad. (2008) Asian Journal of Chemistry, 3: 2180-2188.
[12] Shahbazi, B., Rezai, B. and Koleini, S.M. Javad. (2009) Minerals Engineering, 22: 57–63.
[13] Shahbazi, B., Rezai, B. and Koleini, S.M. Javad. (2010) Chemical Engineering and Processing, 49: 622–627.
[14] Shahbazi, B., Rezai, B. and Koleini, S.M. Javad, Noaparast M. (2013) Iran. J. Chem. Chem. Eng., 32: 109-118.
[15] Shahbazi, B., Rezai, B. and Koleini, S.M. Javad, Noaparast M. (2014) Geosciences ScientificQuarterlyJournal, in press.
[16] Shahbazi, B., Rezai, B. (2014) Journal of Dispersion Science and Technology, in press.
[17] Girgin, E.H., Do, S., Gomez, C.O. and Finch, J.A. (2006) Miner Eng, 19: 201-203.
[18] Rodrigues, R.T. and Rubio. (2003) Miner Eng, 16: 757-765.
[19] Yoon,R.H. (2000) Int J Miner Process, 58: 129-143.
Author Information
  • Mining Engineering Department, Science and Research Branch, Islamic Azad University, Tehran, Iran

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  • APA Style

    Behzad Shahbazi. (2015). Effect of Frother on Bubble-Particle Collision Probability of Fine Particles. American Journal of Chemical Engineering, 3(2-2), 1-5. https://doi.org/10.11648/j.ajche.s.2015030202.11

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    Behzad Shahbazi. Effect of Frother on Bubble-Particle Collision Probability of Fine Particles. Am. J. Chem. Eng. 2015, 3(2-2), 1-5. doi: 10.11648/j.ajche.s.2015030202.11

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    AMA Style

    Behzad Shahbazi. Effect of Frother on Bubble-Particle Collision Probability of Fine Particles. Am J Chem Eng. 2015;3(2-2):1-5. doi: 10.11648/j.ajche.s.2015030202.11

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  • @article{10.11648/j.ajche.s.2015030202.11,
      author = {Behzad Shahbazi},
      title = {Effect of Frother on Bubble-Particle Collision Probability of Fine Particles},
      journal = {American Journal of Chemical Engineering},
      volume = {3},
      number = {2-2},
      pages = {1-5},
      doi = {10.11648/j.ajche.s.2015030202.11},
      url = {https://doi.org/10.11648/j.ajche.s.2015030202.11},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ajche.s.2015030202.11},
      abstract = {The frothers are influence on the ability of bubbles to collect particles from the pulp and carry them to the froth layer. In this study the effect of type and dosage of frothers on bubble-particle collision probability and dispersion of fine particles was investigated. Therefore, collision probability of fine particles was calculated using frothers such as MIBC, Pine Oil, and Poly propylene glycol with concentration of 0, 25, 50 and 75 g/t respectively. According to this study, as the particle size increased the probability of collision increased but with using Poly Propylene Glycol, MIBC and Pine Oil, probability of collision increased, respectively. Under Potential flow conditions, Maximum collision probability was obtained 27.27% with Poly Propylene Glycol dosage of 75 g/t and particle size of 50 µm.},
     year = {2015}
    }
    

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  • TY  - JOUR
    T1  - Effect of Frother on Bubble-Particle Collision Probability of Fine Particles
    AU  - Behzad Shahbazi
    Y1  - 2015/01/27
    PY  - 2015
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    T2  - American Journal of Chemical Engineering
    JF  - American Journal of Chemical Engineering
    JO  - American Journal of Chemical Engineering
    SP  - 1
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    UR  - https://doi.org/10.11648/j.ajche.s.2015030202.11
    AB  - The frothers are influence on the ability of bubbles to collect particles from the pulp and carry them to the froth layer. In this study the effect of type and dosage of frothers on bubble-particle collision probability and dispersion of fine particles was investigated. Therefore, collision probability of fine particles was calculated using frothers such as MIBC, Pine Oil, and Poly propylene glycol with concentration of 0, 25, 50 and 75 g/t respectively. According to this study, as the particle size increased the probability of collision increased but with using Poly Propylene Glycol, MIBC and Pine Oil, probability of collision increased, respectively. Under Potential flow conditions, Maximum collision probability was obtained 27.27% with Poly Propylene Glycol dosage of 75 g/t and particle size of 50 µm.
    VL  - 3
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