References
- Bazin, C., and G. M. Payenzo. 2011. Analysis and modeling of the operation of a hydraulic classifier for iron ore concentrate. In Proceedings of physical separation, minerals engineering conference, Falmouth, UK. (7–8 June, pp. 23–24).
- Bazin, C., G. M. Payenzo, M. Desnoyers, C. Gosselin, and G. Chevalier. 2012. The use of simulation for process diagnosis: Application to a gravity separator. International Journal of Mineral Processing 104–105:11–16. doi:10.1016/j.minpro.2011.11.009.
- Burt R. O. 1999. The role of gravity concentration in modern processing plants. Minerals Engineering, 12 (11): 1291–1300.
- Das, A., B. Sarkar, and S. P. Mehrotra. 2009. Prediction of separation performance of Floatex Density Separator for processing of fine coal particles. International Journal of Mineral Processing 91 (1–2):41–49. doi:10.1016/j.minpro.2008.11.004.
- Drummond, R., S. Nicol, and A. Swanson. 2002. Teetered bed separators — The Australian experience. Journal of the Southern African Institute of Mining and Metallurgy 102 (7): 385–92.
- Fuerstenau, M. C., and K. N. Han. 2003. Principles of mineral processing, colorado society for mining, metallurgy, and exploration inc, 573. Colorado: SME.
- Galvin, K. P., S. J. Pratten, and S. K. Nicol. 1999. Dense medium separation using a teetered bed separator. Minerals Engineering 12 (9):1059–81. doi:10.1016/S0892-6875(99)00092-8.
- Gupta, A., and D. S. Yan. 2006. Mineral processing design and operations, 516. Amsterdam: Elsevier.
- Honaker, R. Q. 1996. Hindered bed classifiers for fine coal cleaning, Proceedings of 13th International Coal Preparation Conference, 59–70, Lexington, KY.
- Honaker, R. Q., and W. Richard. 2003. Advances in gravity concentration. 196. Littleton, CO: SME. ISBN: 0-87335-227-0.
- Kapure, G., C. Kari, S. M. Rao, and N. D. Rao. 2007. The feasibility of a slip velocity model for predicting the enrichment of chromite in a Floatex density separator. International Journal of Mineral Processing 82 (2):86–95. doi:10.1016/j.minpro.2006.11.004.
- Kari, C., G. Kapure, S. M. Rao, and N. D. Rao. 2006. Predicting the chromite mineral upgradation in floatex density separator using hindered settling models. ISIJ International 46 (7):966–73. doi:10.2355/isijinternational.46.966.
- Kelly, E. G., and D. J. Spottiswood. 1982. Introduction to Mineral Processing, 491. New York: John Wiley & Sons.
- Kohmuench, J. N. 2000. Improving efficiencies in water based separators using mathematical analysis tools, PhD - Mining and Minerals Engineering, Virginia Polytechnic Institute.
- Kohmuench, J. N., M. J. Mankosa, G. Luttrell, and G. T. Adel. 2002. Process engineering evaluation of the CrossFlow separator. Minerals and Metallurgical Processing 19 (1):43–49.
- Kumar, C. R., S. K. Bhoja, S. K. Tripathy, S. Mohanan, T. Venugopalan, and N. Suresh. 2013. Classification performance evaluation of floatex density separator for coal fines. Fuel 108:303–10. doi:10.1016/j.fuel.2013.02.033.
- Kumar, C. R., S. Mohanan, S. K. Tripathy, Y. Ramamurthy, T. Venugopalan, and N. Suresh. 2011. Prediction of process input interactions of Floatex Density Separator performance for separating medium density particles. International Journal of Mineral Engineering 100:136–41.
- Kumar, C. R., S. Mohanan, S. K. Tripathy, A. Ranjan, A. Kumar, T. Venugopalan, and N. Suresh 2012. Prospects of hydraulic bed separation and its application for chromite processing, XXVI International Mineral Processing Congress (IMPC) 2012 Proceedings, 5265–72, New Delhi, India, 24–28 September.
- Laplante, A., and S. Gray. 2005. Advances in gravity gold technology. Developments in Mineral Processing 15:280–307.
- Li, J., L. Ma, G. Cheng, X. Gui, L. Wang, L. Yao, and W. Li. 2014. Impacts of upwelling speed and height-diameter ratio on separation action of coarse coal slime in teetered bed separator. Journal of Chemical and Pharmaceutical Research 6 (3):1413–20.
- Mular, A. L., D. N. Halbe, and D. J. Barratt. 2002. Mineral processing plant design, practice and control, colorado: Society for mining, metallurgy and exploration inc, 2422. Colorado: SME.
- Ozcan, O., and I. B. Celik. 2016. Beneficiation routes for upgrading iron ore tailings with a teetered bed separator. Separation Science and Technology 51 (17):2844–55. doi:10.1080/01496395.2016.1218514.
- Ozcan, O., and L. Ergun. 2017. Performance of teetered bed separator for non coal applications. Separation Science and Technology 52 (8):1486–95. doi:10.1080/01496395.2017.1288745.
- Peng, F. F., and Y. Xia. 2004. Fluid dynamic modeling of fine particle separation in hindered-settling bed separators by CFD. SME Annual Meeting in Virginia University Morgantown Feb. 23-25, 1-11. Denver, Colorado-USA.
- Richards, R. G., and T. A. Jones. 2004. Kelsey centrifugal jig-an update on technology and application. SME Annual Meeting Virginia University Morgantown, Denver, Colorado, Feb. 23–25, 04–21.
- Richardson, J. F., and W. N. Zaki. 1954. The sedimentation of a suspension of uniform spheres under conditions of viscous flow. Chemical Engineering Science 3 (2):65–73. doi:10.1016/0009-2509(54)85015-9.
- Sarkar, B., A. Das, and S. P. Mehrotra. 2008. Study of separation features in floatex density separator for cleaning fine coal. International Journal of Mineral Processing 86:40–49. doi:10.1016/j.minpro.2007.10.002.
- Tripathy, S. K., M. K. Mallick, V. Singh, and Y. Rama Murthy. 2013. Preliminary studies on teeter bed separator for separation of manganese fines. Powder Technology 239:284–89. doi:10.1016/j.powtec.2013.02.015.
- Wills, B. A., and T. Napier-Munn. 2006. Wills’ mineral processing technology, 512. Amsterdam, Netherlands: Elsevier Science & Technology Books.
- Zhang, W. 2009. TBS teeter bed and its application of coarse slime separation. Coal Processing and Utilization 3:36–29.