Abstract
Annually, coal-fired electric power plants produce large volumes of potentially hazardous coal combustion products (CCPs) including fly ash. Since majority of the coal fly ash and other CCPs deposited in dry land fills or wet lagoons, they pose risk of contamination to local environment. In this study, we present results of leaching kinetics for As, Mo, and Se from three acidic fly ash samples collected from coal-fired power plants in the southeastern United States. This study shows that the leachate concentrations of As, Mo, and Se increase over time. Three kinetics equations, pseudo-second order, Elovich, and power-function, are able to adequately describe the experimental leaching kinetics data. Experimental leaching data and modeling results indicate that the rate limiting leaching of As, Mo, and Se is controlled by the diffusional process responsible for transferring these elements from interior to the surface of the particles as well as the dissolution of the fly ash particles. Therefore, it is important to adopt effective containment/treatment schemes to avoid potential and persistent dispersion of trace elements from ash disposal facilities to surrounding environment for a long time.
Highlights
Coal-fired electric power plants generate large volumes of coal combustion products (CCPs) such as fly ash, bottom ash, boiler slag, flue gas desulfurization (FGD) materials, and various gases
We present results of leaching kinetics for As, Mo, and Se from three acidic fly ash samples collected from coal-fired power plants in the southeastern United States
The leaching tests of three acidic fly ash samples collected from coal-fired power plants in the southeastern United States show the increasing leachate concentrations of As, Mo, and Se with time
Summary
Coal-fired electric power plants generate large volumes of coal combustion products (CCPs) such as fly ash, bottom ash, boiler slag, flue gas desulfurization (FGD) materials, and various gases. Fly ash contains large quantities of major element constituents as oxides, hydroxides and sulfates. It contains environmentally significant quantities of hazardous leachable trace elements such as As, Mo, and Se [5] [6]. The organic matter in coal is destroyed and, as a result, the concentrations of trace elements in fly ash are enhanced relative to the source coal [7]
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