Ability of Two Dam Fine-Grained Sediments to be Used in Cement Industry as Raw Material for Clinker Production and as Pozzolanic Additional Constituent of Portland-Composite Cement

Faure, A.; Smith, Agnès; Coudray, Coryse; Anger, Baptiste; Colina, Horacio; Moulin, Isabelle; Théry, François

doi:10.1007/s12649-017-9870-8

Cited by 22 publications

(11 citation statements)

References 65 publications

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“…The same finding was made in Diouri et al's study [17] which showed that using 8% of calcined sediment improves the hydration of the cement-sediment blend and results in mechanical strengths equivalent to those obtained with a CEM I Portland cement. Faure et al's study [18] confirmed this by observing portlandite consumption when calcined sediments were used. Calcined sediments also allow the improvement of the durability of concrete as shown in Safer et al's study [19] where part of the cement (10%, 20% and 30%) was substituted by sediment calcined at 750 °C for 5 hours.…”

Section: Introductionmentioning

confidence: 78%

Optimization of Ternary Binders Based on Flash-Calcined Sediments and Ground Granulated Blast Furnace slag Using a Mixture Design

Zeraoui¹,

Maherzi²,

Benzerzour³

et al. 2021

Preprint

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CO2 emissions resulting from the production of cement is a major issue, but can be limited by the partial substitution of cement by low-carbon-impact additions. The aim of this study was the formulation of a ternary binder based on ordinary Portland cement (OPC), ground granulated blast-furnace slag (GGBS) and flash-calcined sediment (FCS), a dredged waste which was valorized after applying a new heat treatment: flash calcination. The used materials were physically, chemically and mineralogically characterized. The composition of the formulations was optimized using mixture designs. Five formulations, one reference formulation RM (100% OPC), one binary formulation (50% OPC/50% GGBS), and three ternary formulations with a variable FCS rate (10%, 15%, 20%), were selected and characterized fresh and hardened. Results showed that the incorporation of FCS reduced the workability and increased the density. In addition, a decrease in the initial setting time and the heat of hydration peak were observed. In the hardened state, the formulation containing 10% FCS showed 90-day mechanical strengths superior to that of RM. The use of FCS in ternary binders could reduce the environmental impact by reducing greenhouse gas emissions.

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Section: Introductionmentioning

confidence: 78%

Optimization of Ternary Binders Based on Flash-Calcined Sediments and Ground Granulated Blast Furnace slag Using a Mixture Design

Zeraoui¹,

Maherzi²,

Benzerzour³

et al. 2021

Preprint

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“…Sand content is approximately close. From a given site's perspective, local hydrodynamics also may influence PSD of accumulated sediments, as in a reservoir where the inlet is enriched in coarse particles and the area near the dam is enriched with fine particles [17,18]. From Insert Table 1Table 1, we observe that continental sediments tend to a higher total organic carbon (TOC) content, with a mean content of 4.21 wt.% versus 2.60 wt.% for marine sediments, and a median of 3.40 vs 2.50 wt.%.…”

Section: Main Sediments Characteristicsmentioning

confidence: 99%

Stabilization/solidification of sediments: challenges and novelties

Elghali¹,

Benzaazoua

Couvidat

et al. 2022

Low Carbon Stabilization and Solidification of Hazardous Wastes

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“…This is due to the elimination of organic matter (density 1 g/cm 3 ) and the decomposition of limestone (density 2.6-2.8 g/m 3 ) to form calcium oxide (density approximately 3.3 g/cm 3 ). However, a decrease in the density of SF 800 upon increasing the calcination temperature could be due to the recrystallization of the mineral phases [44]. The flash calcination also induces a slight increase in particle size without a reduction in specific surfaces.…”

Section: The Physical Characteristics Of Materialsmentioning

confidence: 99%

The Pozzolanic Activity of the Sediment Treated by the Flash Calcination Method

Chu

Amar

Kleib

et al. 2021

Preprint

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The dredged sediment has been positioned for years as alternative materials in the construction field. However, it is often necessary to apply a treatment to improve their reactivity and performance. This article aims to study the pozzolanic reactivity of fluvial sediment treated by flash calcination method at different temperatures 650 °C, 750 °C, and 800 °C. The physico-chemical, mineralogical, and environmental characteristics were studied for treated (flash-calcined sediment) and raw sediment. The pozzolanic reactivity of the flash-calcined sediments was estimated with Frattini’s test, isothermal calorimetry test, lime consumption analysis and compressive strength then compared to metakaolin which is considered as the reference. The results of the compressive strength of mortars show the detrimental effect of raw sediment on the development of resistance. Contrary to the raw sediment, the treatment of the sediments by flash calcination activates the pozzolanic reactivity of the clay phases and considerably improves the contribution of the sediments to the development of resistance and the porous structure. Moreover, the sediment calcined at 750 °C gives better properties than those obtained at 650 °C and 800 °C. The result demonstrates the feasibility of using calcined sediments as a pozzolanic mineral addition in a cementitious material.

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Ability of Two Dam Fine-Grained Sediments to be Used in Cement Industry as Raw Material for Clinker Production and as Pozzolanic Additional Constituent of Portland-Composite Cement

Cited by 22 publications

References 65 publications

Optimization of Ternary Binders Based on Flash-Calcined Sediments and Ground Granulated Blast Furnace slag Using a Mixture Design

Optimization of Ternary Binders Based on Flash-Calcined Sediments and Ground Granulated Blast Furnace slag Using a Mixture Design

Stabilization/solidification of sediments: challenges and novelties

The Pozzolanic Activity of the Sediment Treated by the Flash Calcination Method

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