1. The enhancement effect of pre-reduction using zero-valent iron on the solidification of chromite ore processing residue by blast furnace slag and calcium hydroxide
- Author
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Leitao Fan, Binyuan Wang, Zhonglin Chen, Jimin Shen, and Jinchunzi Li
- Subjects
Chromium ,China ,Environmental Engineering ,Materials science ,Compressive Strength ,Health, Toxicology and Mutagenesis ,Iron ,Industrial Waste ,Nitric Acid ,Calcium Hydroxide ,chemistry.chemical_compound ,X-Ray Diffraction ,Nitric acid ,Alloys ,Pressure ,Environmental Chemistry ,Industry ,Mineral processing ,Environmental Restoration and Remediation ,Toxicity characteristic leaching procedure ,Zerovalent iron ,Calcium hydroxide ,Construction Materials ,Metallurgy ,Public Health, Environmental and Occupational Health ,General Medicine ,General Chemistry ,Sulfuric Acids ,Pollution ,chemistry ,Ground granulated blast-furnace slag ,Metals ,Leaching (metallurgy) ,Chromite - Abstract
A bench scale study was performed to assess the effectiveness of the solidification of chromite ore processing residue (COPR) by blast furnace slag and calcium hydroxide, and investigate the enhancement effect of pre-reduction using zero-valent iron (ZVI) on the solidification treatment. The degree of Cr immobilization was evaluated using the Toxicity Characteristic Leaching Procedure (TCLP) as well as the solid waste-extraction procedure for leaching toxicity–sulfuric acid & nitric acid method (Chinese standard HJ/T299-2007). Strength tests and semi-dynamic leaching tests were implemented to investigate the potential for reusing the final treatment product as a readily available construction material. The experimental results showed that the performance of pre-reduction/solidification (S/S) was superior to that of solidification alone. After pre-reduction, all of the S/S treated COPR samples met the TCLP limit for total Cr (5 mg L −1 ), whereas the samples with a COPR content below 40% met the pollution control limit of bricks and building block products (Chinese standard HJ/T 301-2007) produced with COPR for total Cr (0.3 mg L −1 ). At the same time, all of the S/S treated specimens tested were suitable for utilization at certain levels.
- Published
- 2014