It is shown that the separation of iron impurities from ash wastes is best done by the method of wet magnetophoresis of iron impurities from an artificial suspension of the medium being analyzed and not by the method of magnetic control proved for free-flowing media on the basis of multioperational separation of iron impurities by dry magnetophoresis. Then the separated iron precipitates necessarily become magnetically enriched.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
E. A. Yatsenko, V. A. Smolii, A. S. Kosarev, et al., “Physical and chemical properties and structure of foamed slag glass based on wastes from thermal power plants,” Steklo Keram., No. 1, 3 – 6 (2013); E. A. Yatsenko, V. A. Smolii, A. S. Kosarev, et al., “Physical and chemical properties and structure of foamed slag glass based on wastes from thermal power plants,” Glass Ceram., 70(1 – 2), 3 – 6 (2013).
M. A. Sheremet, A. A. Nikiforov, and O. G. Volokitin, “Complex for production of silicate melt from ash wastes,” Steklo Keram., No. 9, 23 – 26 (2007); M. A. Sheremet, A. A. Nikiforov, and O. G. Volokitin, “Complex for production of silicate melt from ash wastes,” Glass Ceram., 64(10), 322 – 325 (2007).
A. V. Sandulyak, A. A. Sandulyak, D. V. Ershov, et al., “Magnetic separation of raw materials for glass and ceramic production: problems of ferruginous impurity control (review),” Steklo Keram., No. 6, 29 – 34 (2012); A. V. Sandulyak, A. A. Sandulyak, D. V. Ershov, et al., “Magnetic separation of raw materials for glass and ceramic production: problems of ferruginous impurity control (review),” Glass Ceram., 69(5 – 6), 208 – 213 (2012).
A. V. Sandulyak, D. V. Oreshkin, A. A. Sandulyak, et al., “Results of unlimited scanning magnetic control of iron impurities in quartz sand,” Stroit. Mater., No. 4, 80 – 83 (2012).
V. A. Ershova, A. V. Sandulyak, A. A. Sandulyak, and S. F. Mirsaitov, “Results of magnetic control of iron impurities in feldspar,” Steklo Keram., No. 12, 37 – 38 (2013); V. A. Ershova, A. V. Sandulyak, A. A. Sandulyak, and S. F. Mirsaitov, “Results of magnetic control of iron impurities in feldspar,” Glass Ceram., 70(11 – 12), 457 – 458 (2013).
A. A. Sandulyak, M. N. Polismakova, D. V. Ershov, et al., “Functional extrapolation of mass-operational characteristics of magnetophoresis as a basis for precision method of monitoring iron particles,” Izmeritel. Tekh., No. 8, 57 – 60 (2010).
A. V. Sandulyak, A. A. Sandulyak, V. V. Samakhin, and D. V. Ershov, “Modeling of poly-operational (precision) magnetic control of the iron fraction of molding mixtures,” Izv. Vyssh. Uchebn. Zaved., Chern. Metall., No. 4, 3 – 5 (2012).
A. A. Sandulyak, D. I. Svistunov, M. N. Polismakova, et al., “Traceable chain of magnetic test-filters as a means for monitoring iron impurities,” Zakonodatel’naya Priklad. Metrologiya, No. 3, 26, 35 – 39 (2010).
A. V. Sandulyak, A. A. Sandulyak, D. I. Svistunov, et al., Apparatus for Determining the Content in a Flowing Medium of Magnetically Permeable Impurities (Variants), RF Patent No. 93305 [in Russian], published April 27, 2010.
This work was supported by the Ministry of Education and Science of the Russian Federation as part of the requirements of grant MK-687.2014.8 from the President of the Russian Federation in support of young candidates of science.
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Steklo i Keramika, No. 6, pp. 34 – 37, June, 2014.
Rights and permissions
About this article
Cite this article
Sandulyak, A.A., Ershova, V.A., Sandulyak, A.V. et al. Particulars of Magnetic Control of Iron Impurities in Fine-Grain Media — Secondary raw Materials (Ash Wastes). Glass Ceram 71, 213–216 (2014). https://doi.org/10.1007/s10717-014-9655-5
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10717-014-9655-5