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Stabilization of Solid Waste in Lysimeter by Air Injection Mode  

Kim, Kyung (R&D Center, OIKOS Co., Ltd.)
Park, Joon-Seok (Department of Environmental Engineering, Samcheok National University)
Lee, Hwan (R&D Center, OIKOS Co., Ltd.)
Lee, Cheol-Hyo (R&D Center, OIKOS Co., Ltd.)
Kim, Joung-Dae (Department of Health & Environment, Hallym College)
Publication Information
Journal of Environmental Health Sciences / v.31, no.1, 2005 , pp. 15-22 More about this Journal
Abstract
This study was conducted to evaluate air injection mode on stabilization of solid waste in lysimeter. For three lysimeters, one was maintained under anaerobic condition as control, and air was injected into two lysimeters in continuous mode (atmospheric pressure) and intermittent mode (high pressure of 2 bar). Distilled water was sprayed over solid waste in 1.4 l/$m^3$(solid waste)/day, supposing rainfall intensity of 1,200 mm/yr and 30% infiltration. Oxygen in landfill gas was not detected in control lysimeter during operational days. After 30 day-aeration, oxygen concentrations of continuous and intermittent modes were maintained in 14% and 6%, respectively. $COD_{Cr}$ removal efficiencies of continuous and intermittent modes were about 70% and 50%, and BOD5 removal efficiencies were about 80% and 20%, respectively. In view of oxygen supply, and $COD_{Cr}$ and $BOD_5$ removal, continuous air injection mode of atmospheric pressure was more effective than intermittent mode of 2 bar. Settling degree of solid waste in case of two air injection modes was 3 times higher than that of anaerobic condition as control. Considering the above results, it was thought that air injection (especially continuous atmospheric pressure) could improve degradation of solid waste and induce preliminary stabilization in landfill site.
Keywords
lysimeter; preliminary stabilization; air injection; landfill gas;
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