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  2. Polyaspartate extraction of cadmium ions from contaminated soil: Evaluation and optimization using central composite design

Polyaspartate extraction of cadmium ions from contaminated soil: Evaluation and optimization using central composite design

  • J Hazard Mater. 2018 Jan 15;342:58-68. doi: 10.1016/j.jhazmat.2017.08.013.
Nuhu Dalhat Mu'azu 1 Shamsuddeen A Haladu 2 Nabeel Jarrah 3 Mukarram Zubair 4 Mohammad H Essa 5 Shaikh A Ali 6
Affiliations

Affiliations

  • 1 Department of Environmental Engineering, University of Dammam, 31451, Dammam, Saudi Arabia. Electronic address: dalhat@gmail.com.
  • 2 Department of Basic Sciences, University of Dammam, 31451, Dammam, Saudi Arabia.
  • 3 Department of Environmental Engineering, University of Dammam, 31451, Dammam, Saudi Arabia; Department of Chemical Engineering, Mutah University, Karak, 61710, Jordan.
  • 4 Department of Environmental Engineering, University of Dammam, 31451, Dammam, Saudi Arabia.
  • 5 Department of Civil & Environmental Engineering, King Fahd University of Petroleum and Minerals, 31261, Dhahran, Saudi Arabia.
  • 6 Department of Chemistry, King Fahd University of Petroleum and Minerals, 31261, Dhahran, Saudi Arabia.
Abstract

The occurrences of heavy metal contaminated sites and soils and the need for devising environmentally friendly solutions have become global issues of serious concern. In this study, polyaspartate (a highly biodegradable agent) was synthesized using L-Aspartic acid via a new modified thermal procedure and employed for extraction of cadmium ions (Cd) from contaminated soil. Response surface methodology approach using 35 full faced centered central composite design was employed for modeling, evaluating and optimizing the influence of polyaspartate concentration (36-145mM), polyaspartate/soil ratio (5-25), initial heavy metal concentration (100-500mg/kg), initial pH (3-6) and extraction time (6-24h) on Cd ions extracted into the polyaspartate solution and its residual concentration in the treated soil. The Cd extraction efficacy obtained reached up to 98.8%. Increase in Cd extraction efficiency was associated with increase in the polyaspartate and Cd concentration coupled with lower polyaspertate/soil ratio and initial pH. Under the optimal conditions characterized with minimal utilization of the polyaspartate and high Cd ions removal, the extractible Cd in the polyaspartate solution reached up to 84.4mg/L which yielded 85% Cd extraction efficacy. This study demonstrates the suitability of using polyaspartate as an effective environmentally friendly chelating agent for Cd extraction from contaminated soils.

Keywords

Cadmium ions; Central composite design; Heavy metals extraction; Polyaspartate; Soil washing process.

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