Litcius/Paper detail

Enhancing the rheology and leachability of fly ash slurry using natural – synthetic mixed surfactant systemfor hydraulic stowing in underground mines

Umakanta Behera, S. Das, Devi Prasad Mishra, Pankaj Kumar Parhi, Debadutta Das

2021International Journal of Coal Preparation and Utilization43 citationsDOI

Abstract

The present investigation is intended to develop the stabilization and transportation behavior of fly ash slurry (FAS) using the mixture of the surfactants, namely, Sapindus laurifolia (S. laurifolia, natural) and sodium dodecyl sulfate (SDS, synthetic). In addition to the rheological study, an attempt has been made to remove the toxic and other trace metals through the leaching method to address the safe disposal of FAS for mining backfilling applications. The data obtained from the different rheological studies of ash concentrations in the range of 45–65.8% were fitted to the Bingham plastic model. Addition of synthetic surfactant SDS to natural surfactant S. Laurifolia does enhance the wettability of fly ash (FA) particles by decreasing the surface tension and increasing the zeta potential of the slurry. The effect of other parameters like temperature, mixed surfactant concentration, and FA concentration on the formulation, stability, and leachability of FAS was investigated and reported. The results from the present investigation revealed that the optimum dosages of surfactants for both leaching and transportation of FAS is 0.009 g/cc of saponin and 0.008 g/cc of SDS. The stabilization interaction and leaching mechanism were proposed considering the hydrophobic/hydrophilic property of FA, S. laurifolia, and SDS.AbbreviationsCMC: Critical micellar concentration; S. laurifolia: Sapindus laurifolia; SDS: Sodium dodecyl sulfate; FA: Fly ash; FAS: Fly ash slurry; η: Dynamic viscosity; τ0: Yield stress; γ: Applied shear rate; ζ: Zeta potential; τ: Shear stress

Topics & Concepts

Pulmonary surfactantFly ashSlurryZeta potentialSodium dodecyl sulfateChemistryShear thinningRheologyLeaching (pedology)Chemical engineeringWettingChromatographyPulp and paper industryMaterials scienceComposite materialEnvironmental scienceOrganic chemistrySoil waterBiochemistryEngineeringSoil scienceNanoparticleCoal Combustion and Slurry ProcessingTunneling and Rock MechanicsMining and Gasification Technologies