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Competitive encapsulation of multiple heavy metals by magnesium potassium phosphate cement: Hydration characteristics and leaching toxicity properties. | LitMetric

Competitive encapsulation of multiple heavy metals by magnesium potassium phosphate cement: Hydration characteristics and leaching toxicity properties.

Waste Manag

Research Center of Water Engineering Safety and Disaster Prevention of Ministry of Water Resources, Changjiang River Scientific Research Institute, Wuhan 430010, Hubei, China.

Published: April 2024

AI Article Synopsis

  • Magnesium potassium phosphate cement (MKPC) is effective for solidifying heavy metal pollutants, but research on combining different metals is limited.
  • This study examined the impact of introducing lead, zinc, copper, and cadmium into MKPC with varying magnesium/phosphorus molar ratios, finding that M/P ratios of 2 and 3 yielded the best results in solidification efficiency and strength.
  • Notably, lead enhances solidification by forming low-solubility precipitates, while the combination of lead and copper generates useful phosphate products, supporting the effectiveness of MKPC in treating complex metal pollutants.

Article Abstract

Magnesium potassium phosphate cement (MKPC) is increasingly used in the solidification/stabilization (SS) of heavy metal (HM) pollutants. However, research on composite HM pollutants remains limited. In this study, four heavy metals (Pb/Zn/Cu/Cd) were individually and simultaneously introduced into MKPC systems with different magnesium/phosphorus (M/P) molar ratios. The introduction of HMs altered the extent of hydration and morphology of MgKPO·6HO. Among the MKPC pastes, those with M/P = 2 and 3 had the highest HM solidification efficiency and strength, respectively. The HM solidification efficiency of all specimens exceeded 99 %. In samples with M/P = 3, the codoping of four HMs slightly increased the M/P ratio, thereby increasing MgKPO·6HO content and enhancing strength. Pb could generate additional low-solubility precipitates, such as PbHPO, Pb (PO), Pb (OH) (PO), and Pb (OH), which easily accumulated in pores and were encapsulated by MgKPO·6HO, leading to the highest solidification efficiency of Pb by MKPC. Pb and Cu could also form the composite phosphate products PbCu (PO) (OH)·4HO, thus promoting the S/S effect of Cu. Therefore, the use of MKPC with M/P ratio of 2-3 for the S/S of complex pollutants containing Pb and Cu is a promising approach.

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Source
http://dx.doi.org/10.1016/j.wasman.2024.01.046DOI Listing

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