References
- 1. Chmielewski, A. G. (2013). Nuclear power for Poland. World J. Nucl. Sci. Technol., 3, 123-130. http://dx.doi.org/10.4236/wjnst.2013.34021.
- 2. Ahmed, S. H., Sharaby, C. M., & El Gammal, E. M. (2013). Uranium extraction from sulfuric acid medium using trioctylamine impregnated activated carbon. Hydrometallurgy, 134/135, 150-157.
- 3. Kahouli, S. (2011). Re-examining uranium supply and demand: New insights. Energy Policy, 39(1), 358-376.
- 4. Rejman, W. (1996). Uranium mines in Poland. Wiedza i Życie, 9, 78-79 (in Polish).
- 5. Miecznik, J. B., Strzelecki, R., & Wołkowicz, S. (2011). Uranium in Poland - history of prospecting and chances for fi nding new deposits. Prz. Geol., 59(10), 688-697 (in Polish).
- 6. Chajduk, E., Bartosiewicz, I., Pyszynska, M., Chwastowska, J., & Polkowska-Motrenko, H. (2013). Determination of uranium and selected elements in Polish dictyonema shale and sandstones by ICP-MS. J. Radioanal. Nucl. Chem., 295, 1913-1919.
- 7. Frąckiewicz, K., Kiegiel, K., Herdzik-Koniecko, I., Chajduk, E., Zakrzewska-Trznadel, G., Wołkowicz, S., Chwastowska, J., & Bartosiewicz, I. (2012). Extraction of uranium from low-grade Polish ores: dictyonemic shales and sandstones. Nukleonika, 58(4), 451-459.
- 8. Zakrzewska-Trznadel, G., Herdzik-Koniecko, I., Cojocaru, C., & Chajduk, E. (2014). Experimental design and optimization of leaching process for recovery of valuable chemical elements (U, La, V, Mo, Yb and Th) from low-grade uranium ore. J. Hazard. Mater., 275, 136-145.
- 9. Kiegiel, K., Zakrzewska-Kołtuniewicz, G., Gajda, D., Miśkiewicz, A., Abramowska, A., Biełuszko, P., Danko, B., Chajduk, E., & Wołkowicz, S. (2015). Dictyonema black shale and Triassic sandstones as potential sources of uranium. Nukleonika, 60(3), 515-522. DOI: 10.1515/nuka-2015-0096.
- 10. Weil, B. (2012). Uranium mining and extraction from ore. Available from http://large.stanford.edu/courses/2012/ph241/weil2/.
- 11. Bhargava, S. K., Ram, R., Pownceby, M., Grocott, S., Ring, B., Tardo, J., & Jones, L. (2015). A review of acid leaching of uraninite. Hydrometallurgy, 151, 10-24.
- 12. Strelow, F. W. E., & Bohma, C. J. C. (1967). Anion exchange and a selectivity scale for elements in sulfuric acid media with a strongly basic resin. Anal. Chem., 39(6), 595-599.
- 13. Kraus, K. A., & Nelson, F. (1956). Anion-exchange studies of the fi ssion products. In International Conference of the Peaceful Uses of Atomic Energy (Vol. 7, p. 113). Geneva, Switzerland: United Nations.
- 14. Greer, A. H., Mindler, A. B., & Termini, J. P. (1958). New ion exchange resin for uranium recovery. Ind. Eng. Chem., 50(2), 166-170. DOI: 10.1021/ie50578a028.
- 15. Marhol, M. (1982). Ion exchange in analytical chemistry. Prague: Academia.
- 16. Minczewski, J., Chwastowska, J., & Dybczyński, R. (1982). Separation and preconcentration methods in inorganic trace analysis. Chichester: E. Horwood.
- 17. Ikeda, A., Aida, M., Fujii, Y., Kataoka, S., Annen, S., & Sato, J. (2002). Ion exchange separation for decontamination of centrifuge enrichment plant. J. Nucl. Sci. Technol., 39(10), 1099-1105.
- 18. Kolomiets, D. N., Troshkina, L. D., Sheremet’ev, M. F., & Konopleva, L. V. (2005). Sorption of uranium from sulfuric acid leaching solutions by strongly basic anion exchangers. Russ. J. Appl. Chem., 78(5), 722-726.
- 19. Zagorodnyaya, A. N., Abisheva, Z. S., Sharipova, A. S., Sadykanova, S. E., Bochevskaya, Y. G., & Atanova, O. V. (2013). Sorption of rhenium and uranium by strong base anion exchange resin from solutions with different anion compositions. Hydrometallurgy, 131/132, 127-131.
- 20. Kunin, R., & Preuss, A. F. (1956). Ion exchange in the atomic energy program. Ind. Eng. Chem., 48(8), 30A-35A.
- 21. Zontov, N. (2006). Continuous counter current ion exchange in uranium ore processing. In ALTA 2006 Uranium Conference.
- 22. Mikhaylenko, M., & Van Deventer, J. (2009). Notes of practical application of ion exchange resins in uranium extractive. In ALTA 2009 Uranium Conference.
- 23. Carr, J., Zontov, N., & Yamin, S. (2008). Meeting the future challenges of the uranium industry. In ALTA 2008 Uranium Conference, p. 20.
- 24. Dybczyński, R. (1970). Effect of resin crosslinking on the anion exchange separation of rare earth-EDTA complex. J. Chromatogr., 50, 487-503.
- 25. Dybczyński, R. (1972). Effect of resin crosslinking on the cation exchange separation of alkali and alkaline earth metals on sulfonic cation exchangers. J. Chromatogr., 71, 507-522.
- 26. Gajda, D., Kiegiel, K., Zakrzewska-Kołtuniewicz, G., Chajduk, E., Bartosiewicz, I., & Wołkowicz, S. (2015). Mineralogy and uranium leaching of ores from Triassic Peribaltic Sandstones. J. Radioanal. Nucl. Chem., 303, 521-529.
- 27. Dionex Corporation. (1985). System 2000i/SP ion chromatograph operation and maintenance manual. Document No. 32584. Revision 01.
- 28. Marczenko, Z. (1976). Spectrophotometric determination of elements. London: Wiley.
- 29. Martell, R. M., & Smith, A. E. (1976). Critical stability constants. New York: Plenum Press.
- 30. Inczedy, J. (1976). Analytical applications of complex equilibria. Chichester: E. Horwood.
- 31. Anderson, R. E., Bauman, W. C., & Harrington, D. F. (1955). Sulfate-bisulfate equilibrium on anion exchange resins. Ind. Eng. Chem., 47, 1620-1623.
- 32. Kiegiel, K., Abramowska, A., Gajda, D., & Zakrzewska, G. (2015). A study of precipitation of yellow cake for production of nuclear fuel. In INCT Annual Report 2014 (pp. 36-37). Warszawa: Institute of Nuclear Chemistry and Technology.
- 33. Danko, B., Samczyński, Z., & Dybczyński, R. (2006). Analytical scheme for group separation of the lanthanides from biological materials before their determination by Neutron Activation Analysis. Chem. Anal., 51, 527-539.