| Title | Alternative alkali activator from pulp mill waste - One-part blast furnace slag mortar activated with recovery boiler fly ash |
|---|---|
| ID_Doc | 6707 |
| Authors | Rasmus, J; Ohenoja, K; Oksanen, J; Adesanya, E; Kinnunen, P; Illikainen, M |
| Title | Alternative alkali activator from pulp mill waste - One-part blast furnace slag mortar activated with recovery boiler fly ash |
| Year | 2023 |
| Published | |
| Abstract | Alternative alkali activators are a growing research area in the field of alkali-activated materials (AAMs) because conventional chemical-based activators, such as sodium hydroxide and sodium silicate, have a large environmental footprint and high costs. Industrial residues are widely studied as substitutional cementitious materials in concrete and precursors in AAMs but not much as activators. In the present study, sodium rich waste from pulp mill was used as an alkali source in AAMs. Recovery boiler fly ash (RBA) is dust-like waste fraction removed from flue gases of recovery boiler by electrostatic precipitators. It consists mainly of alkalis, sulfate, and carbon while sodium sulfate is the main phase. This work utilized RBA as a sole one-part alkali activator for a precursor mixture containing 95 wt% of blast furnace slag and 5 wt% of cement, and the results were compared with two references, one without activator and the other activated with commercial sodium sulfate. The setting properties and strength gain were comparable between the RBA-activated and commercial activator-activated samples. Calorimetry data showed also similar reactivity between them, and X-ray diffractometry, thermogravimetric analysis, and scanning electron microscopy measurements revealed that the same phases were formed. The main issue was the microcracking of the paste samples when using RBA as an activator. Results confirm the earlier findings from the literature, the activator dosage did not greatly impact the properties: in this study, the initial proportion of 1% or 3% Na2O was the most suitable. |
| https://doi.org/10.1016/j.jobe.2023.107113 |
Similar Articles
| ID | Score | Article |
|---|---|---|
15042
|
Fort, J; Mildner, M; Keppert, M; Abed, M; Cerny, R Potential of industrial waste as alternative alkaline activator for development of eco-efficient mortars(2023) | |
| 23730
|
Gómez-Casero, MA; Calado, L; Romano, P; Eliche-Quesada, D Acorn gasification char valorisation in the manufacture of alkali activated materials(2023) | |
| 10058
|
Payá, J; Soriano, L; Font, A; Rosado, MVB; Nande, JA; Balbuena, JMM Reuse of Industrial and Agricultural Waste in the Fabrication of Geopolymeric Binders: Mechanical and Microstructural Behavior(2021)Materials, 14.0, 9 | |
| 13845
|
Sas, Z; Sha, W; Soutsos, M; Doherty, R; Bondar, D; Gijbels, K; Schroeyers, W Radiological characterisation of alkali-activated construction materials containing red mud, fly ash and ground granulated blast-furnace slag(2019) | |
| 15058
|
Seifi, S; Sebaibi, N; Levacher, D; Boutouil, M Mechanical performance of a dry mortar without cement, based on paper fly ash and blast furnace slag(2019) | |
| 13757
|
Shao, NN; Wei, XK; Monasterio, M; Dong, ZJ; Zhang, ZT Performance and mechanism of mold-pressing alkali-activated material from MSWI fly ash for its heavy metals solidification(2021) | |
| 9133
|
Boros, A; Erdei, G; Korim, T Development of Alkali Activated Inorganic Foams Based on Construction and Demolition Wastes for Thermal Insulation Applications(2023)Materials, 16.0, 11 | |
| 10468
|
Xu, RS; Wang, HR; Yang, RH; Kong, FH; Hong, T The potential of copper slag as a precursor for partially substituting blast furnace slag to prepare alkali-activated materials(2024) | |
| 15860
|
Díaz, AG; Bueno, S; Villarejo, LP; Eliche-Quesada, D Improved strength of alkali activated materials based on construction and demolition waste with addition of rice husk ash(2024) | |
| 14155
|
Salas, I; Cifrian, E; Soriano, L; Monzó, J; Andrés, A Environmental assessment of alkali-activated materials based on agro-industrial waste as alkaline activators through leaching tests(2024) |