To increase the operating lifetime of landfills and to lower leachate treatment costs, an increasing number of municipal solid waste (MSW) landfills are being managed as either aerobic or anaerobic bioreactors. Landfill gas composition, respiration rates, and subsidence were measured for 400 days in 200-L tanks filled with fresh waste materials to compare the relative effectiveness of the two treatments. Tanks were prepared to provide the following conditions: (1) air injection and leachate recirculation (aerobic), (2) leachate recirculation (anaerobic), and (3) no treatment (anaerobic). Respiration tests on the aerobic wet tank showed a steady decrease in oxygen consumption rates from 1.3 mol/day at 20 days to 0.1 mol/day at 400 days. Aerobic wet tanks produced, on average, 6 mol of carbon dioxide (CO 2 )/kg of MSW as compared with anaerobic wet tanks, which produced 2.2 mol methane/kg of MSW and 2.0 mol CO 2 /kg methane. Over the test period, the aerobic tanks settled on average 35%, anaerobic tanks settled 21.7%, and the no-treatment tank settled 7.5%, equivalent to overall mass loss in the corresponding reactors. Aerobic tanks reduced stabilization time and produced negligible odor compared with anaerobic tanks, possibly because of the 2 orders of magnitude lower leachate ammonia levels in the aerobic tank. Both treatment regimes provide the opportunity for disposal and remediation of liquid waste.
INTRODUCTIONThe United States produces ϳ200 million t of municipal solid waste (MSW) annually, 1 of which 57% is disposed of in municipal landfills. With increasing costs and difficulties in permitting new landfill sites, existing landfill space is becoming a valuable commodity. Current regulations require capping of landfills to isolate waste from incoming rainwater and collection of leachate for treatment before release to the environment. In addition, landfill air emissions are required to be monitored to limit the release of methane (CH 4 ) and other volatile organic compounds. While this reduces the potential for contaminating surrounding air, soil, and groundwater, this design was intended to restrict exposure of air and water to the MSW. This slows or stops biodegradation rates, therefore, and increases the time required for landfill stabilization and contamination monitoring. A landfill is stabilized when leachate is no longer a pollution hazard, gas production is negligible, and the majority of settlement has occurred. 2 In an effort to increase the biodegradation rates in landfills, there has been increasing interest in managing municipal landfills either as anaerobic or aerobic bioreactors. Bioreactors optimize the conditions for microbial decomposition and accelerate stabilization and settling, thus allowing for additional MSW disposal or faster land re-use. In both aerobic and anaerobic bioreactors, leachate produced by the MSW is recirculated, redistributing nutrients and bacteria through the MSW mass. In anaerobic bioreactors, the increased water content increases the rate of CH 4 production...
