Extraction from aqueous solutions ions of iron and lead by filter loading, created on the basis of steel melting slag

The aim of the present paper is investigation of removal of Fe³⁺ and Pb²⁺ ions from aqueous media by material on the basis of steel melting slag. It has been established that the process of water purification from Fe³⁺ and Pb²⁺ ions by this material proceeds by a mixed mechanism both due to the formation of slightly soluble silicates and also due to the formation of hydroxides. When the filtration rate varies from 2 to 10 column volumes per hour, the percentage of sorption remains within 91,5–99,8%. The most optimal filtration rate is 6 column volumes per hour. Material on the basis of steel melting slag absorbs of Fe (III) up to 5 mg-eq/g and Pb (II) 0.64–1.27 mg-eq/g.

1. . Shpagin A. I. Antifrikcionnye splavy [Antifriction alloys]. Moscow, Metallurgija Publ., 1956, 314 p.

2. . Clearfield Ab. Inorganic Ion Exchange Materials. Florida, CRC Press, Inc. 1982. 290 p.

3. Kuznecov Ju. V., Shhebetkovskij V. N., Trusov F. G. Osnovy ochistki vody ot radioaktivnyh zagrjaznenij [Basics of water purification from radioactive contamination]. Moscow, Atomizdat Publ., 1974. 360 p.

4. . JCPDS PDF-1 File. International Committee for Diffraction Data, release 1994. PA, USA. www.ICDD.com

5. . Pljusnina I. I. Infrakrasnye spektry mineralov [Infrared spectra of minerals]. Moscow, MGU Publ., 1977. 175 p.

6. . Rat’ko A. I., Kolos E. A., Panasjugin A. S. Izvlechenie iz vodnyh rastvorov ionov zheleza (III) silikatami kal’cija [Extraction of iron (III) ions from water solutions by calcium silicates]. Zhrnal prikladnoy khimii  Jornal of Applied Chemistry, 1998, vol. 71, no. 10, pp. 1638–1642.

7. . Zakir’janov D. O., Chernyshev V. A., Zakir’janova I. D., Jaroslavceva T. V. Raschet struktury i opticheskih svojstv oksigalogenidov svinca Pb3O2X2 (X = Cl, Br, I) [Calculation of the structure and optical properties of lead oxyhalides Pb3O2X2 (X = Cl, Br, I)]. Fizika tverdogo tela = Solid State Physics, 2017, vol. 59, vyp. 4, pp. 695–705.