@inproceedings{2355_08_Belem, author={Ouffa, N and Benzaazoua, M and Belem, T and Trauchessec, R and Lecomte, A}, editor={Wilson, GW and Beier, NA and Sego, DC and Fourie, AB and Reid, D and }, title={An alternative to NaOH in the alkali-activation of ground granulated blast furnace slag in the formulation of cemented paste backfills}, booktitle={Paste 2023: Proceedings of the 25th International Conference on Paste, Thickened and Filtered Tailings}, date={2023}, publisher={University of Alberta, Edmonton, and Australian Centre for Geomechanics, Perth}, pages={112-126}, abstract={In the mining district of the Abitibi region (Canada), several underground mines use cemented paste backfill (CPB) for ground support. The binder typically used is a blend of 20% general use Portland cement (GU) and 80% ground granulated blast furnace slag (GGBFS), and qualified as the reference binder (RB). Using the RB always allows CPB to achieve the unconfined compressive strengths (UCSs) targets required. Due to its relatively high price, limited GGBFS availability and the high carbon footprint attributable to GU manufacturing, the search for alternative binders becomes imperative. Alkali-activated binders (AABs) made of GGBFS, and type F fly ash (FAF) activated using NaOH, were tested at the laboratory scale. This activation process achieved similar UCSs of CPB prepared with the RB. Unfortunately, the economic and environmental assessment of these AABs suffers from the high costs of NaOH, its high carbon footprint and GGBFS dosage, which is still significant. Consequently, the industrial application of these AABs in mine backfilling becomes challenging. The proposed alternative to NaOH consists of using circulating dry scrubber dusts (CDSD) from the desulfurisation process of Rio Tinto Iron and Titanium operations at Sorel-Tracy (Quebec, Canada). This byproduct was successfully tested in a CPB formulation. Moreover, FAF and fine glass powder (FGP) are proposed as partial replacement to GGBFS. The results show that at 28 days the UCS values of CPB prepared with the GGBFS/CDSD mixtures are comparable to the ones of the RB. At 7 days, satisfactory UCS are obtained and can reach the same UCS of the CPB prepared with the RB by adding only 5% clinker to the GGBFS/CDSD mixture. In addition, several mixtures have shown comparable and even higher UCSs to the RB with lower costs and smaller carbon footprints (CO2eq). The results are promising and encouraging for a future industrial application. }, keywords={cemented paste backfill}, keywords={NaOH}, keywords={alkali-activated binders}, keywords={circulating dry scrubber dusts}, keywords={binder cost}, keywords={carbon footprint}, doi={10.36487/ACG_repo/2355_08}, url={https://papers.acg.uwa.edu.au/p/2355_08_Belem/} }