• Reduction of RDX in Ground Water by Bio-Regenerated Iron Mineral: Results of Field Verification Test at a Miliary Shooting Range
  • Gong, Hyo-young;Lee, Kwang-pyo;Lee, Jong-yeol;Kyung, Daeseung;Lee, Woojin;Bae, Bumhan;
  • Beautiful Environmental Construction Co., Ltd.;Beautiful Environmental Construction Co., Ltd.;Beautiful Environmental Construction Co., Ltd.;Department of Civil & Environmental Engineering, KAIST;Department of Civil & Environmental Engineering, KAIST;Department of Civil & Environmental Engineering, Gachon University;
  • 생물환원 철광물촉매에 의한 지하수 내 RDX 환원:군사격장 현장적용 실증결과
  • 공효영;이광표;이종열;경대승;이우진;배범한;
  • 아름다운환경건설(주);아름다운환경건설(주);아름다운환경건설(주);한국과학기술원 건설 및 환경공학과;한국과학기술원 건설 및 환경공학과;가천대학교 토목환경공학과;
Abstract
This study investigates the in-situ implementation of bio-regenerated iron mineral catalyst to remove explosive compounds in ground water at a military shooting range in operation. A bio-regenerated iron mineral catalyst was synthesized using lepidocrocite (iron-bearing soil mineral), iron-reducing bacteria Shewanella putrefaciens CN32, and electron mediator (riboflavin) in the culture medium. This catalyst was then injected periodically in the ground to build a redox active zone acting like permeable reactive barrier through injection wells constructed at a live fire military shooting range. Ground water and core soils were sampled periodically for analysis of explosive compounds, mainly RDX and its metabolites, along with toxicity analysis and REDOX potential measurement. Results suggested that a redox active zone was formed in the subsurface in which contaminated ground water flows through. Concentration of RDX as well as toxicity (% inhibition) of ground water decreased in the downstream compared to those in the upstream while concentration of RDX reduction products increased in the downstream.

Keywords: Electron transfer mediator;Iron reducing bacteria;Lepidocrocite;RDX;TNX;

This Article

  • 2015; 20(6): 62-72

    Published on Nov 30, 2015

  • 10.7857/JSGE.2015.20.6.062
  • Received on Oct 2, 2015
  • Revised on Nov 6, 2015
  • Accepted on Nov 28, 2015

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