Journal of Environmental Science International (한국환경과학회지)

The Korean Environmental Sciences Society (한국환경과학회)
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Preparation of Calcium Peroxide Originated from Oyster Shell Powder and Oxygen Releasing Ability

패각 분말기반 과산화칼슘 제조와 산소 유리 특성

  • Yoo, Gilsun (Department of Energy and Environmental Engineering, Soonchunhyang University) ;
  • An, Jieun (Department of Energy and Environmental Engineering, Soonchunhyang University) ;
  • Cho, Daechul (Department of Energy and Environmental Engineering, Soonchunhyang University) ;
  • Kwon, Sung Hyun (Department of Marine Environmental Engineering/Engineering Research Institute(ERI), Gyeongsang National University)
  • 유길선 (순천향대학교 에너지환경공학과) ;
  • 안지은 (순천향대학교 에너지환경공학과) ;
  • 조대철 (순천향대학교 에너지환경공학과) ;
  • 권성현 (경상대학교 해양환경공학과)
  • Received : 2018.04.30
  • Accepted : 2018.07.20
  • Published : 2018.09.30
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Abstract

Bioremediation in situ is heavily dependent on the oxygenic environment which would privide the dwelling microorganism with sufficient oxygen. The situation could be easily resolved with supply of an Oxygen Releasing Compound (ORC). In this paper we prepared that sort of material out of oyster shell powder (mostly calcium carbonate) that prevails every shore areas of the country. We used two different oxidizing methods in the first step of the whole manufacturing process-conventional heating in a furnace and an ultrasound generator to obtain calcium oxide. Then that calcium oxide was further oxidized into calcium peroxide which may release oxygen under a moisturized condition. The oxygen releasing experiments were run to test the performance of our products, and to determine the gas kinetics during the experiments. Interestingly, calcium peroxide derived from ultrasound treatment was much more energy-effective as ORC than that from furnace heating although the heat derived process was better than that of ultrasound in terms of oxygen content and its releasing rate. We also found that most of the data collected from the gas releasing experiments fairly supported an ordinary $1^{st}$ order kinetics to oxygen concentration, which shaped a sharp discharge of oxygen at the very early moment of each test.

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References

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