4.7 Article

Conversion of chromium-containing solid wastes into value-added products through a plasma-assisted aluminothermic process

Journal

ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
Volume 28, Issue 45, Pages 63682-63689

Publisher

SPRINGER HEIDELBERG
DOI: 10.1007/s11356-021-12581-x

Keywords

Transferred arc plasma; Aluminothermic reaction; Cr-containing waste; Metal recovery; TCLP; Recycling

Funding

  1. University Grants Commission, Government of India
  2. Department of Science and Technology, Government of India
  3. Board of Research in Nuclear Sciences, Government of India

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Solid wastes containing chromium produced by chemical and leather industries pose challenges for proper disposal. A plasma-assisted aluminothermic process has been developed to convert the hazardous waste into non-toxic products quickly and completely recover metals from the waste. Analysis shows the treated products are non-toxic and easy to separate, making this process efficient and environmentally friendly.
Chromium-containing solid wastes have been generated by chemical and leather/tanning industries, and the management and proper disposal of the same wastes have been challenging tasks. A significant fraction of these wastes contains chromium compounds with chromium present in the hexavalent (Cr+6) form, which is hazardous to human beings, animals, and ecosystems. Since these wastes are discarded largely without proper treatments, soil and groundwater get contaminated and they can cause several health issues to human beings. Conventional methods developed to convert hazardous Cr6+ to Cr3+/Cr metal either generate secondary toxic wastes and unwanted by-products and/or are time-consuming processes. In this work, a plasma-assisted aluminothermic process is developed to convert the toxic waste into non-toxic products. The waste was mixed with aluminium powder and subjected to transferred arc plasma treatment in a controlled air atmosphere. Chemical analysis and Cr leachability studies of the waste material prior to plasma treatment have shown that it is highly toxic. Analysis of the products obtained from the plasma treatment showed that Cr and Fe present in the waste could be recovered as a metallic mixture as well as oxide slag, which were found to be non-toxic. Easy separation of the metallic fraction and the slag from the treated product is one of the merits of this process. Besides converting chromium-containing toxic waste to non-toxic materials, the process is rapid and recovers the metals from the waste completely.

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