Abstract
Low-grade magnesium oxide (LG-MgO) was proposed as ordinary Portland cement (OPC) or lime substitute (CaO) for metal(loid)s remediation in contaminated soils. Some metal(loid)s precipitate at pH ≈ 9 in insoluble hydroxide form thus avoiding their leaching. LG-MgO avoids the re-dissolution of certain metal(loid)s at 9.0 < pH < 11.0 (pH-dependents), whose solubility depends on the pH. A highly contaminated soil with heavy metal(loid)s was stabilized using different LG-MgO by-products sources as stabilizing agents. Two of the three studied LG-MgOs were selected for the stabilization, by mixing 5, 10, and 15 wt.%. The effect of using LG-MgO not only depends on the size of the particles, but also on those impurities that are present in the LG-MgO samples. Particle size distribution, X-ray fluorescence (XRF), X-ray diffraction (XRD), thermogravimetric analysis, citric acid test, specific surface, bulk density, acid neutralization capacity, batch leaching tests (BLTs), and percolation column tests (PCTs) were techniques used to deeply characterize the different LG-MgO and the contaminated and remediated soils. The remediation’s results efficacy indicated that when the medium pH was between 9.0 and 11.0, the concentration of pH-dependent metal(loid)s decreases significantly. Although around 15 wt.% of a stabilizing agent was appropriate for the soil remediation to ensure an alkali reservoir that maintains optimal stabilization conditions for a long period, 5 wt.% of LG-MgO was enough to remedy the contaminated soil. When evaluating a polluted and decontaminated soil, both BLTs and PCTs should be complementary procedures.
Highlights
The incidence and availability of heavy metals and metalloids in soils is the main issue affecting environmental health, crop and livestock production, food and water quality, and eco-toxicology [1]
The goal of this study aims to evaluate the potential use of different Low-grade magnesium oxide (LG-MgO) by-product sources to be used as alkali stabilizers of heavy metals and metalloids in contaminated soil
A heavily contaminated soil was remediated by using different types of LG-MgO (MCB100M, MCB100, and PC8), which differ from each other by their MgO content, particle size, and reactivity
Summary
The incidence and availability of heavy metals and metalloids in soils is the main issue affecting environmental health, crop and livestock production, food and water quality, and eco-toxicology [1]. Concerning contaminated soils, the contamination of metal(loid)s can produce toxicity, it would depend on the factors which affect the bioavailability of the elements. According to their solubility, the leaching of heavy metals and metalloids to natural currents of groundwater, rivers, and the sea is an important environmental issue. The mobilizing and the immobilizing techniques are the two categories for the metal(loid)s’ remediation contained in contaminated soils [5] While the former focuses on the intensive extraction of metal(loid)s in processing plants, the immobilizing techniques stabilize heavy metal(loid)s through adsorption, complexation, or precipitation reactions, avoiding the leaching phenomenon [6]. In-situ processes depend on specific site conditions, they are preferred because of the lower energy requirements
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