Immobilization of cesium with alkali-activated blast furnace slag

Komljenović, Miroslav M; Tanasijević, Gordana; Džunuzović, Nataša; Provis, J. L.

doi:10.1016/j.jhazmat.2019.121765

2020

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Authors

Komljenović, Miroslav M

Tanasijević, Gordana

Džunuzović, Nataša

Provis, J. L.

Article (Published version)

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Abstract

Alkali-activated binders (AABs), as a promising alternative to Portland cement, are now being used on a commercial scale in various applications around the world, including hazardous and radioactive waste immobilization. In this paper, the leaching resistance, strength, and nanostructural alteration of alkali-activated blast furnace slag (AABFS) doped with 2 % and 5 % cesium were investigated. The addition of cesium caused a significant increase in the compressive strength of AABFS, followed by mild strength reduction after leaching. AABFS can be considered a potentially efficient matrix for cesium immobilization, since the mean leachability index in both cases (2 % and 5 % of Cs added) was above the threshold value of 6. Both doping with Cs and leaching caused the transformation of the AABFS nanostructure. The majority of the aluminum that was released from the C-A-S-H gel due to leaching remained within the AABFS matrix, initiating gel reconstruction: the C-A-S-H gel was converted to...

Keywords:

Solidification / Nanostructure / Leaching / Hazardous waste / Alkali-activated binder

Source:
Journal of Hazardous Materials, 2020, 388

Publisher:

Elsevier, Amsterdam

Funding / projects:

NATO SPS programme [G5402]
Geopolymers - technology for converting the industrial waste into functional materials (RS-34026)

DOI: 10.1016/j.jhazmat.2019.121765

ISSN: 0304-3894

PubMed: 31928790

WoS: 000524462500040

Scopus: 2-s2.0-85077709263

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	33

TY - JOUR
AU - Komljenović, Miroslav M
AU - Tanasijević, Gordana
AU - Džunuzović, Nataša
AU - Provis, J. L.
PY - 2020
UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/1321
AB - Alkali-activated binders (AABs), as a promising alternative to Portland cement, are now being used on a commercial scale in various applications around the world, including hazardous and radioactive waste immobilization. In this paper, the leaching resistance, strength, and nanostructural alteration of alkali-activated blast furnace slag (AABFS) doped with 2 % and 5 % cesium were investigated. The addition of cesium caused a significant increase in the compressive strength of AABFS, followed by mild strength reduction after leaching. AABFS can be considered a potentially efficient matrix for cesium immobilization, since the mean leachability index in both cases (2 % and 5 % of Cs added) was above the threshold value of 6. Both doping with Cs and leaching caused the transformation of the AABFS nanostructure. The majority of the aluminum that was released from the C-A-S-H gel due to leaching remained within the AABFS matrix, initiating gel reconstruction: the C-A-S-H gel was converted to C-S-H gel, and an additional N-(C)-A-S-H gel was also formed. Cesium was preferentially associated with the N-(C)-A-S-H gel rather than with the C-A-S-H gel. The results of this research seem to be in good agreement with the Cross-linked Substituted Tobermorite Model (CSTM).
PB - Elsevier, Amsterdam
T2 - Journal of Hazardous Materials
T1 - Immobilization of cesium with alkali-activated blast furnace slag
VL - 388
DO - 10.1016/j.jhazmat.2019.121765
ER -

@article{
author = "Komljenović, Miroslav M and Tanasijević, Gordana and Džunuzović, Nataša and Provis, J. L.",
year = "2020",
abstract = "Alkali-activated binders (AABs), as a promising alternative to Portland cement, are now being used on a commercial scale in various applications around the world, including hazardous and radioactive waste immobilization. In this paper, the leaching resistance, strength, and nanostructural alteration of alkali-activated blast furnace slag (AABFS) doped with 2 % and 5 % cesium were investigated. The addition of cesium caused a significant increase in the compressive strength of AABFS, followed by mild strength reduction after leaching. AABFS can be considered a potentially efficient matrix for cesium immobilization, since the mean leachability index in both cases (2 % and 5 % of Cs added) was above the threshold value of 6. Both doping with Cs and leaching caused the transformation of the AABFS nanostructure. The majority of the aluminum that was released from the C-A-S-H gel due to leaching remained within the AABFS matrix, initiating gel reconstruction: the C-A-S-H gel was converted to C-S-H gel, and an additional N-(C)-A-S-H gel was also formed. Cesium was preferentially associated with the N-(C)-A-S-H gel rather than with the C-A-S-H gel. The results of this research seem to be in good agreement with the Cross-linked Substituted Tobermorite Model (CSTM).",
publisher = "Elsevier, Amsterdam",
journal = "Journal of Hazardous Materials",
title = "Immobilization of cesium with alkali-activated blast furnace slag",
volume = "388",
doi = "10.1016/j.jhazmat.2019.121765"
}

Komljenović, M. M., Tanasijević, G., Džunuzović, N.,& Provis, J. L.. (2020). Immobilization of cesium with alkali-activated blast furnace slag. in Journal of Hazardous Materials
Elsevier, Amsterdam., 388.
https://doi.org/10.1016/j.jhazmat.2019.121765

Komljenović MM, Tanasijević G, Džunuzović N, Provis JL. Immobilization of cesium with alkali-activated blast furnace slag. in Journal of Hazardous Materials. 2020;388.
doi:10.1016/j.jhazmat.2019.121765 .

Komljenović, Miroslav M, Tanasijević, Gordana, Džunuzović, Nataša, Provis, J. L., "Immobilization of cesium with alkali-activated blast furnace slag" in Journal of Hazardous Materials, 388 (2020),
https://doi.org/10.1016/j.jhazmat.2019.121765 . .