Food Prices Are Associated with Dietary Quality, Fast Food Consumption, and Body Mass Index among U.S. Children and Adolescents

Newer urban soils, frequently composed of several types of anthropogenic materials, may contain basic oxygen furnace (BOF) slag, which is a steel industry byproduct and considered a potential alternative material for road construction. An understanding of the flow and solute transfer processes through urban soils thus requires hydraulic characterization of these materials. The BEST (Beerkan Estimation of Soil Transfer Parameters) algorithm serves to estimate the full set of unsaturated soil properties by means of conducting an inverse analysis of Beerkan water infiltration data. This study aimed at characterizing unsaturated hydraulic properties of the BOF slag and its evolution during a 1‐yr period through water infiltration experiments and use of an adapted BEST method for inverse analysis. Results indicate the evolution with time of BOF slag hydraulic parameters due to their physicochemical changes when exposed to rainfall events. Moreover, the findings of this study highlight the initial spatial variability of hydrodynamic characteristics, which after a certain period shifts to mostly homogeneous behavior. This study has contributed to the hydrodynamic characterization of BOF slag by providing hydraulic conductivity and water retention curves, as required for modeling water and thus solute transfer processes vs. time, which is relevant to BOF slag reuse and environmental considerations.

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Effects of lime and cement treatment on the physicochemical, microstructural and mechanical characteristics of a plastic silt

Lemaire

Deneele

Bonnet

et al. 2013

Engineering Geology

160

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Microstructure and hydraulic conductivity of a compacted lime-treated soil

Cuisinier

Auriol

Borgne

et al. 2011

Engineering Geology

160

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GLAMOR – Or How We Achieved a Common Understanding on the Decrease of Glass Dissolution Kinetics

Iseghem¹,

Aertsens²,

Gin³

et al. 2009

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Multi-scale analysis and time evolution of pozzolanic activity of lime treated clays

Vitale

Deneele

Paris

et al. 2017

Applied Clay Science

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29Si solid state NMR investigation of pozzolanic reaction occurring in lime-treated Ca-bentonite

Pomakhina

Deneele

Gaillot

et al. 2012

Cement and Concrete Research

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Use of alkali activated high-calcium fly ash binder for kaolin clay soil stabilisation: Physicochemical evolution

Coudert

Paris

Deneele

et al. 2019

Construction and Building Materials

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This study addresses the use of alkali activated high-calcium fly ash-based binder to improve engineering characteristics of soft clay-rich soils as an alternative to common stabilisers. The physico-chemical reaction sequence has been investigated by considering the binder alone and the binder mixed with kaolin. An insight into the reactivity evidenced that calcium-containing phases derived from high-calcium fly ash represent the reactive phases and, hence, pozzolanic activity is the dominant process. New compounds are formed, thenardite Na2SO4 and an amorphous silicate consisting of chains combined with calcium probably incorporating three-dimensional four-fold aluminium environments.

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Influence of hydrated lime on the surface properties and interaction of kaolinite particles

Chemeda

Deneele

Christidis

et al. 2015

Applied Clay Science

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Dimitri Deneele

Hydrodynamic Characterization of Basic Oxygen Furnace Slag through an Adapted BEST Method

Effects of lime and cement treatment on the physicochemical, microstructural and mechanical characteristics of a plastic silt

Microstructure and hydraulic conductivity of a compacted lime-treated soil

GLAMOR – Or How We Achieved a Common Understanding on the Decrease of Glass Dissolution Kinetics

Multi-scale analysis and time evolution of pozzolanic activity of lime treated clays

29Si solid state NMR investigation of pozzolanic reaction occurring in lime-treated Ca-bentonite

Use of alkali activated high-calcium fly ash binder for kaolin clay soil stabilisation: Physicochemical evolution

Influence of hydrated lime on the surface properties and interaction of kaolinite particles

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