Radionuclide Immobilization by Sorption onto Waste Concrete and Bricks—Experimental Design Methodology
Samo za registrovane korisnike
2019
Autori
Jelić, Ivana V.Šljivić-Ivanović, Marija Z.
Dimović, Slavko
Antonijević, Dragi Lj.
Jović, Mihajlo D.
Vujović, Zoran
Smičiklas, Ivana D.
Članak u časopisu (Objavljena verzija)
,
© 2019, Springer Nature Switzerland AG
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
The utilization of construction and demolition waste materials for the radionuclide immobilization by sorption processes was investigated. Given that the liquid radioactive waste usually has a complex composition and that effects of competition may significantly influence the efficiency of the treatment, the Simplex Centroid experimental design was used to explore ions sorption from multi-component solutions. For the purpose of this study, the common components of construction and demolition waste, such as pathway concrete and different bricks samples, were used along with the multi-component Sr2+, Co2+, and Ni2+ ions solutions. The equations for the prediction of metal ions sorption capacities were derived. The coefficients that correspond to the linear and interaction terms were obtained using a special cubic model. Likewise, by analysis of variance, statistically significant terms of the obtained polynomial were defined. The investigation has shown that the most effective sorption w...as onto the pathway concrete for all three cations, while the highest sorption capacity was found for Co2+ ions. Also, it has been determined that concerning Sr2+ ion removal there was a competition with coexisting Co2+ and Ni2+ ions, reducing its sorption capacity, while sorption of Co2+ and Ni2+ occurred more independently on other cations in multi-component solutions. Based on the obtained results, the applied experimental design can be efficiently used for the description of competitive sorption process and could be a powerful tool for the prediction of cation immobilization in liquid radioactive waste treatment.
Ključne reči:
Liquid radioactive waste / Experimental design / SorptionIzvor:
Water, Air, and Soil Pollution, 2019, 230, 10, 242-Finansiranje / projekti:
- Nove tehnologije za monitoring i zaštitu životnog okruženja od štetnih hemijskih supstanci i radijacionog opterećenja (RS-MESTD-Integrated and Interdisciplinary Research (IIR or III)-43009)
- Razvoj tehnoloških procesa prerade nestandardnih koncentrata bakra u cilju optimizacije emisije zagađujućih materija (RS-MESTD-Technological Development (TD or TR)-34023)
DOI: 10.1007/s11270-019-4298-3
ISSN: 0049-6979
WoS: 000492938300004
Scopus: 2-s2.0-85074171622
Kolekcije
Institucija/grupa
VinčaTY - JOUR AU - Jelić, Ivana V. AU - Šljivić-Ivanović, Marija Z. AU - Dimović, Slavko AU - Antonijević, Dragi Lj. AU - Jović, Mihajlo D. AU - Vujović, Zoran AU - Smičiklas, Ivana D. PY - 2019 UR - https://vinar.vin.bg.ac.rs/handle/123456789/8611 AB - The utilization of construction and demolition waste materials for the radionuclide immobilization by sorption processes was investigated. Given that the liquid radioactive waste usually has a complex composition and that effects of competition may significantly influence the efficiency of the treatment, the Simplex Centroid experimental design was used to explore ions sorption from multi-component solutions. For the purpose of this study, the common components of construction and demolition waste, such as pathway concrete and different bricks samples, were used along with the multi-component Sr2+, Co2+, and Ni2+ ions solutions. The equations for the prediction of metal ions sorption capacities were derived. The coefficients that correspond to the linear and interaction terms were obtained using a special cubic model. Likewise, by analysis of variance, statistically significant terms of the obtained polynomial were defined. The investigation has shown that the most effective sorption was onto the pathway concrete for all three cations, while the highest sorption capacity was found for Co2+ ions. Also, it has been determined that concerning Sr2+ ion removal there was a competition with coexisting Co2+ and Ni2+ ions, reducing its sorption capacity, while sorption of Co2+ and Ni2+ occurred more independently on other cations in multi-component solutions. Based on the obtained results, the applied experimental design can be efficiently used for the description of competitive sorption process and could be a powerful tool for the prediction of cation immobilization in liquid radioactive waste treatment. T2 - Water, Air, and Soil Pollution T1 - Radionuclide Immobilization by Sorption onto Waste Concrete and Bricks—Experimental Design Methodology VL - 230 IS - 10 SP - 242 DO - 10.1007/s11270-019-4298-3 ER -
@article{ author = "Jelić, Ivana V. and Šljivić-Ivanović, Marija Z. and Dimović, Slavko and Antonijević, Dragi Lj. and Jović, Mihajlo D. and Vujović, Zoran and Smičiklas, Ivana D.", year = "2019", abstract = "The utilization of construction and demolition waste materials for the radionuclide immobilization by sorption processes was investigated. Given that the liquid radioactive waste usually has a complex composition and that effects of competition may significantly influence the efficiency of the treatment, the Simplex Centroid experimental design was used to explore ions sorption from multi-component solutions. For the purpose of this study, the common components of construction and demolition waste, such as pathway concrete and different bricks samples, were used along with the multi-component Sr2+, Co2+, and Ni2+ ions solutions. The equations for the prediction of metal ions sorption capacities were derived. The coefficients that correspond to the linear and interaction terms were obtained using a special cubic model. Likewise, by analysis of variance, statistically significant terms of the obtained polynomial were defined. The investigation has shown that the most effective sorption was onto the pathway concrete for all three cations, while the highest sorption capacity was found for Co2+ ions. Also, it has been determined that concerning Sr2+ ion removal there was a competition with coexisting Co2+ and Ni2+ ions, reducing its sorption capacity, while sorption of Co2+ and Ni2+ occurred more independently on other cations in multi-component solutions. Based on the obtained results, the applied experimental design can be efficiently used for the description of competitive sorption process and could be a powerful tool for the prediction of cation immobilization in liquid radioactive waste treatment.", journal = "Water, Air, and Soil Pollution", title = "Radionuclide Immobilization by Sorption onto Waste Concrete and Bricks—Experimental Design Methodology", volume = "230", number = "10", pages = "242", doi = "10.1007/s11270-019-4298-3" }
Jelić, I. V., Šljivić-Ivanović, M. Z., Dimović, S., Antonijević, D. Lj., Jović, M. D., Vujović, Z.,& Smičiklas, I. D.. (2019). Radionuclide Immobilization by Sorption onto Waste Concrete and Bricks—Experimental Design Methodology. in Water, Air, and Soil Pollution, 230(10), 242. https://doi.org/10.1007/s11270-019-4298-3
Jelić IV, Šljivić-Ivanović MZ, Dimović S, Antonijević DL, Jović MD, Vujović Z, Smičiklas ID. Radionuclide Immobilization by Sorption onto Waste Concrete and Bricks—Experimental Design Methodology. in Water, Air, and Soil Pollution. 2019;230(10):242. doi:10.1007/s11270-019-4298-3 .
Jelić, Ivana V., Šljivić-Ivanović, Marija Z., Dimović, Slavko, Antonijević, Dragi Lj., Jović, Mihajlo D., Vujović, Zoran, Smičiklas, Ivana D., "Radionuclide Immobilization by Sorption onto Waste Concrete and Bricks—Experimental Design Methodology" in Water, Air, and Soil Pollution, 230, no. 10 (2019):242, https://doi.org/10.1007/s11270-019-4298-3 . .