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Simultaneous Stabilization of Cu/Ni/Pb/As Contaminated Soil by a ZVI-BFS-CaO Composite System

Author

Listed:
  • Runlai Luo

    (Institute of Environmental Pollution and Health, School of Environmental and Chemical Engineering, Shanghai University, Shanghai 200444, China
    These authors contributed equally to this work.)

  • Nan Zhao

    (China Construction Eighth Engineering Division Co., Ltd., Shanghai 200131, China
    CAS Key Laboratory of Soil Environment and Pollution Remediation, Institute of Soil Science, Chinese Academy of Sciences, Nanjing 210008, China
    These authors contributed equally to this work.)

  • Zhengmiao Jia

    (Institute of Environmental Pollution and Health, School of Environmental and Chemical Engineering, Shanghai University, Shanghai 200444, China
    China Construction Eighth Engineering Division Co., Ltd., Shanghai 200131, China)

  • Sihan Wu

    (China Construction Eighth Engineering Division Co., Ltd., Shanghai 200131, China)

  • Xing Chen

    (China Construction Eighth Engineering Division Co., Ltd., Shanghai 200131, China
    State Key Laboratory of Chemical Engineering, School of Chemical Engineering, East China University of Science and Technology, Shanghai 200237, China)

  • Zhongyuan Li

    (China Construction Eighth Engineering Division Co., Ltd., Shanghai 200131, China)

  • Feng Ju

    (State Key Laboratory of Chemical Engineering, School of Chemical Engineering, East China University of Science and Technology, Shanghai 200237, China)

  • Yongming Luo

    (CAS Key Laboratory of Soil Environment and Pollution Remediation, Institute of Soil Science, Chinese Academy of Sciences, Nanjing 210008, China)

  • Hui Li

    (Institute of Environmental Pollution and Health, School of Environmental and Chemical Engineering, Shanghai University, Shanghai 200444, China)

Abstract

The simultaneous stabilization of Cu, Ni, Pb, and As in sustainable environmental development remains a significant challenge in heavy metal remediation. In this paper, liquid phase equilibrium experiments have evaluated the immobilization efficiency of 20 potential stabilization materials. Soil stabilization experiments, material characterization, and long-term effectiveness assessments have been performed to investigate the efficient composite stabilization agent and its underlying mechanisms. Results demonstrate that seven materials, including calcium oxide (CaO) and hydroxyapatite (HAP), exhibit multi-metal immobilization capabilities. Among single-material stabilization in soil, HAP for Pb, zero-valent iron (ZVI) for As, and blast furnace slag (BFS) for Cu exhibit prominent stabilization efficiency, yet they cannot efficiently stabilize the four heavy metals simultaneously. Subsequently, the ZVI:BFS:CaO composite agent (6:3:1 mass ratio, 10% addition rate) has been proposed by formulation optimization, achieving remarkable stabilization rates: 99.92% for Cu, 96.16% for Ni, 92.06% for Pb, and 99.58% for As. XRD, XPS, and SEM-EDS analyses confirm that the stabilization occurs through synergistic mechanisms including precipitation, complexation, and lattice encapsulation. The composite stabilizing agent withstood 15 wet–dry and 150 freeze–thaw cycles, with four types of heavy metals stabilization rates > 60%, confirming its long-term effectiveness.

Suggested Citation

  • Runlai Luo & Nan Zhao & Zhengmiao Jia & Sihan Wu & Xing Chen & Zhongyuan Li & Feng Ju & Yongming Luo & Hui Li, 2025. "Simultaneous Stabilization of Cu/Ni/Pb/As Contaminated Soil by a ZVI-BFS-CaO Composite System," Sustainability, MDPI, vol. 18(1), pages 1-22, December.
    • Handle: RePEc:gam:jsusta:v:18:y:2025:i:1:p:342-:d:1828858
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