• Bioremediation of Petroleum Contaminated Soils by Pilot Scale Biopile
  • Yoon, Jeong Ki;Noh, Hoe-Jung;Kim, Hyuk;Kim, Jong Ha;Kim, Tae Seung;Ko, Sung Hwan;
  • National Institute of Environmental Research;National Institute of Environmental Research;National Institute of Environmental Research;National Institute of Environmental Research;National Institute of Environmental Research;EcoPhile Co.;
  • Pilot 규모 biopile에 의한 유류오염토양의 정화
  • 윤정기;노회정;김혁;김종하;김태승;고성환;
  • 국립환경과학원;국립환경과학원;국립환경과학원;국립환경과학원;국립환경과학원;에코필;
Abstract
The pilot scale biopile system was designed and operated for evaluation of bioremediation efficiency for petroleum contaminated soil. The pilot scale biopile consisted of biopile dome, aeration system and monitoring system and two biopiles were operated with nutrients and inoculum for more 100 days. The test pile A and B were analyzed with regard to pH, total carbon contents, water contents, nutrients (N, P) and TPH. The initial TPH concentrations for pile A and pile B were about 10,000 mg/kg and 2,300 mg/kg, respectively. After 100 days, the TPH contents decreased about 70% in the pile A and 30% in the pile B. Also, n-$C_{17}$/pristane and n-$C_{18}$/phytane ratios in all pile were significantly changed. The microbial densities in the pile A was increased by approximately $10^7$ CFU/g-soil~$10^8$ CFU/g-soil, but there was almost no changed in the pile B. The average biodegradation rates were calculated about 66.8 mg/kg-day in the pile A and 10.9 mg/kg-day in the pile B. Over the course of operation period, pile temperature was considered the major limiting factor for the efficiency of all biopiles.

Keywords: Biopile;Petroleum contaminated soil;TPH;Biodegradation;

This Article

  • 2013; 18(2): 10-18

    Published on Apr 30, 2013

  • 10.7857/JSGE.2013.18.2.010
  • Received on Nov 14, 2012
  • Revised on Mar 11, 2013
  • Accepted on Mar 22, 2013

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