페리하이드라이트의 산화음이온 흡착 특성과 광물상 변화

Translated title of the contribution: Adsorption Characteristics of Oxyanions on Ferrihydrite and Mineral Phase Transformation

Gyure Kim, Yeongkyoo Kim

Research output: Contribution to journalArticlepeer-review

Abstract

Ferrihydrite is an iron oxide mineral that is easily found in the natural environment, including acid mine drainage, and has a low crystallinity and high specific surface area, resulting in high reactivity with other ions, and can remove environmentally hazardous substances. However, because ferrihydrite is a metastable mineral, there is a possibility of releasing adsorbed ions by phase transformation to other minerals having low surface area and high crystallinity. In this study, the adsorption characteristics of arsenate, chromate, and selenate on ferrihydrite and the oxyanion removal efficiency of ferrihydrite were studied considering mineral phase transformation. At both pH 4 and 8, the adsorption of oxyanions used in the study were in good agreement with both Langmuir and Freundlich adsorption models except for selenate at pH 8. Due to the difference in surface charge according to pH, at pH 4 a higher amount of ions were adsorbed than at pH 8. The adsorption amount were in the order of arsenate, chromate, and selenate. These different adsorption models and adsorption amounts were due to different adsorption mechanisms for each oxyanions on the surface of ferrihydrite. These adsorption characteristics were closely related to changes in the mineral phase. At pH 4, a phase transformation to goethite or hematite was observed, but only a phase transformation to hematite was observed at pH 8. Among the oxyanion species on ferrihydrite, arsenate showed the highest adsorption capacity and hardly caused phase transformation during the experimental period after adsorption. Contrary to this, chromate and selenate showed faster mineral phase transformation than arsenate, and selenate had the lowest retardation effect among the three oxyanions. Ferrihydrite can effectively remove arsenate due to its high adsorption capacity and low phase transformation rate. However, the removal efficiency for other two oxyanions were low by the low adsorption amount and additional mineral phase transformation. For chromate, the efficient removal is expected only at low concentrations in low pH environments.

Translated title of the contributionAdsorption Characteristics of Oxyanions on Ferrihydrite and Mineral Phase Transformation
Original languageKorean
Pages (from-to)301-310
Number of pages10
JournalEconomic and Environmental Geology
Volume56
Issue number3
DOIs
StatePublished - 30 Jun 2023

Keywords

  • adsorption mechanism
  • ferrihydrite
  • goethite
  • oxyanion
  • phase transformation

Fingerprint

Dive into the research topics of 'Adsorption Characteristics of Oxyanions on Ferrihydrite and Mineral Phase Transformation'. Together they form a unique fingerprint.

Cite this