Biomass facilitated phase transformation of natural hematite at high temperatures and sorption of Cd2+ and Cu2+
- Authors
- Wang, Shengsen; Zhao, Mingyue; Zhou, Min; Zhao, Yiting; Li, Yuncong C.; Gao, Bin; Feng, Ke; Yin, Weiqin; Ok, Yong Sik; Wang, Xiaozhi
- Issue Date
- 3월-2019
- Publisher
- PERGAMON-ELSEVIER SCIENCE LTD
- Keywords
- Heavy metals; Pyrolysis; Iron oxide; Reduction; Ion exchange; Water and wastewater treatment
- Citation
- ENVIRONMENT INTERNATIONAL, v.124, pp.473 - 481
- Indexed
- SCIE
SCOPUS
- Journal Title
- ENVIRONMENT INTERNATIONAL
- Volume
- 124
- Start Page
- 473
- End Page
- 481
- URI
- https://scholar.korea.ac.kr/handle/2021.sw.korea/67183
- DOI
- 10.1016/j.envint.2019.01.004
- ISSN
- 0160-4120
- Abstract
- Phase changes of natural hematite are often practiced to improve heavy metal removal and magnetism for easy recycling. In this work, pinewood biomass (PB) and natural hematite (H) admixtures were pyrolyzed at 300, 450 and 600 degrees C under N-2 environment to prepare HBC nanocomposites (HBC300, HBC450 and HBC600). The X-ray diffraction (XRD) confirmed the reductive transformation of hematite (crystallite size approximate to 47 nm) into magnetite (25 nm) and further to wustite (25 nm) and zerovalent iron (48 nm). The Langmuir isotherms showed that the maximum sorption capacities of HBC300, HBC450, and HBC600 were 173, 138, and 130 mmol kg(-1) for Cd2+, and 359, 172, and 197 mmol kg(-1) for Cu2+, respectively. The higher pH up to 5 increased sorption of both Cd2+ and Cu2+, whereas the higher ionic strength (0.05-0.4 M) decreased Cd2+ sorption. Sorption of Cd2+ and Cu2+ by HBC300 was accompanied by one order of magnitude greater cation release than HBC450 and HBC600. In a binary system, Cd2+ sorption was depressed by over four times in presence of Cu2+. Overall, ion exchange was more pronounced for HBC300, and Cu2+ was more favorably retained by specific sorption than Cd2+. The greater magnetism of HBC nanoparticles favors separation from aqueous solutions.
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Collections - College of Life Sciences and Biotechnology > Division of Environmental Science and Ecological Engineering > 1. Journal Articles
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