L.P. van Reeuwijk scite author profile

The enormous and worldwide production of coal fly ash cannot be durably isolated from the weathering cycle, and the weathering characteristics of fly ash must be known to understand the long-term environmental impact. We studied the weathering of two coal fly ashes and compared them with published data from weathered volcanic ash, it's closest natural analogue. Both types of ash contain abundant aluminosilicate glass, which alters to noncrystalline clay. However, this study reveals that the kinetics of coal fly ash weathering are more rapid than those of volcanic ash because the higher pH of fresh coal fly ash promotes rapid dissolution of the glass. After about 10 years of weathering, the noncrystalline clay content of coal fly ash is higher than that of 250-year-old volcanic ash. The observed rapid clay formation together with heavy metal fixation imply that the long-term environmental impact of coal fly ash disposal may be less severe and the benefits more pronounced than predicted from previous studies on unweathered ash. Our findings suggest that isolating coal fly ash from the weathering cycle may be counterproductive because, in the long-term under conditions of free drainage, fly ash is converted into fertile soil capable of supporting agriculture.

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Pedotransfer functions for the estimation of moisture retention characteristics of Ferralsols and related soils

Berg

et al. 1997

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A simple method for defluoridation of drinking water at village level by adsorption on Ando soil in Kenya

Zevenbergen¹,

Reeuwijk

Frapporti³

et al. 1996

Science of The Total Environment

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Proto‐imogolite and the process of podzol formation: a critical note

Buurman¹,

Reeuwijk

1984

Journal of Soil Science

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The presence of imogolite or other poorly crystalline aluminosilicates in the lower B horizons of podzols can be explained by neoformation from silica in the percolating soil solution and aluminium species liberated from their organic bond by activity of micro-organisms. There are physicochemical arguments refuting the alternative concept that iron and aluminium are transported down the profile as short range order aluminosilicates such as proto-imogolite which would thus play an important role in podzol formation. There is ample evidence to attribute the mobilization, translocation and precipitation of sesquioxides to complexing organic compounds.

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Weathering of MSWI bottom ash with emphasis on the glassy constituents

Zevenbergen¹,

Reeuwijk²,

Bradley³

et al. 1998

Journal of Geochemical Exploration

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L.P. van Reeuwijk

Clay Formation and Metal Fixation during Weathering of Coal Fly Ash

Pedotransfer functions for the estimation of moisture retention characteristics of Ferralsols and related soils

A simple method for defluoridation of drinking water at village level by adsorption on Ando soil in Kenya

Proto‐imogolite and the process of podzol formation: a critical note

Weathering of MSWI bottom ash with emphasis on the glassy constituents

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