Biochemical Method of Removing Iron from Zhuravlinyi Log Kaolin

R. A. Platova, A. A. Shmarina, and Z. V. Stafeeva, “Multidimensional colorimetric gradation of kaolin,” Steklo Keram., No. 1, 17 – 22 (2009); R. A. Platova, A. A. Shmarina, and Z. V. Stafeeva, “Multidimensional colorimetric gradation of kaolin,” Glass Ceram., 66(1 – 2), 17 – 22 (2009). R. A. Platova and Z. V. Stafeeva, “The nature of liquescence and fluidity of Zhuravlinyi Log kaolin (review),” Steklo Keram., No. 3, 12 – 21 (2012); R. A. Platova and Z. V. Stafeeva, “Nature of liquescence and fluidity of kaolin of the Zhuravliny Log deposit (a review),” Glass Ceram., 69(3 – 4), 84 – 91 (2012). R. A. Khalilullova, Increasing the Whiteness of Porcelain by Complex Processing of Mineral Raw Material, Author’s Abstract of Candidate’s Thesis [in Russian], Moscow (1994). R. A. Platova and G. N. Maslennikova, “Biochemical nature of gley formation during souring of clayey materials,” Steklo Keram., No. 9, 14 – 20 (2009); R. A. Platova and G. N. Maslennikova “Biochemical nature of gley formation during souring of clayey materials (a review),” Glass Ceram., 66(9 – 10), 318 – 322 (2009). E. S. Shelobolina, S. M. Pickering, and D. R. Lovley, “Fe-cycle bacteria from industrial clays mined in Georgia, USA,” Clays Clay Minerals, 53(6), 580 – 586 (2005). I. Styriakova and I. Styriak, “Iron removal from kaolins by bacterial leaching,” Ceramics, 44(4), 135 – 141 (2000). Hailiang Dong, Deb. P. Jaisi, and J. Kim, “Microbe–clay mineral interactions,” Am. Mineralogist, 94(11 – 12), 1505 – 1519 (2009). M. R. Hosseini, M. Pazouki, and M. Ranjbar, “Bioleaching of iron from highly contaminated kaolin clay by Aspergillus niger,” Applied Clay Sci., 37(3 – 4), 251 – 257 (2007). Volkan Arslan and Oktay Bayat, “Removal of Fe from kaolin by chemical leaching and bioleaching,” Clays Ñlay Minerals, 57(6), 787 – 794 (2009). Min-Rong Guo, Qiu-Xiang He, and Yu-Man Li, “Removal of Fe from kaolin using dissimilatory Fe(III)-reducing bacteria,” Clays and Clay Minerals, 58(4), 515 – 521 (2010). Roy Anandita, Samarendra K. Singh, and P. C. Banerjee, “Biobeneficiation of kaolin and feldspar and its effect on fired characteristics of triaxial porcelain,” Bull. Mater. Sci., 33(3), 333 – 338 (2010). R. A. Platova, A. N. Chernyshov, and G. N. Maslennikova, “Biological treatment of clayey materials and ceramic pastes: basic directions, methods and application experiens (review),” Steklo Keram., No. 7, 15 – 22 (2012); R. Platova, A. N. Chernyshov, and G. N. Maslennikova, “Bioprocessing of clay materials and ceramic masses: main trends, techniques and practical experience (a review),” Glass Ceram., 69(7 – 8), 229 – 235 (2012). Yu. N. Vodyanitskii, Chemisty, Mineralogy and Color of Gley Soils [in Russian], GNU Soil Institute, Moscow (2006). G. A. Zavarzin and N. N. Kolotilova, Introduction to Natural Sciences: Microbiology [in Russian], KD Universitet, Moscow (2001). J. E. Kostka, J. Wu, K. H. Nealson, and J. W. Stucki, “The impact of structural Fe(III) reduction by bacteria on the surface chemistry of smectite clay minerals,” Geochim. Cosmochim. Acta, 63(22), 3705 – 3713 (1999). S. A. Fysh, J. D. Cashion, and P. E. Clark, “Mossbauer effect studies of iron in kaolin. II Surface iron,” Clays Clay Minerals, 31(4), 293 – 298 (1983).